14,838 Matching Annotations
  1. Jul 2018
    1. On 2015 Jun 30, Jung Weon Lee commented:

      Indeed, Na J, Ryu J, Kim HJ, and Nam SH should be recognized as the co-second authors.

      2015.06.30 Jung Weon Lee


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    1. On 2015 Feb 18, Airton Stein commented:

      This is quite an interesting article and reaching a conclusion in which it is mandatory to enhance prenatal care and newborn care at hospitals and basic healthcare units to prevent infant mortality.


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    1. On 2015 Jan 28, William Grant commented:

      Vitamin D does reduce risk of upper respiratory infections!

      The paper by Yawn and colleagues reported that the evidence for vitamin D for the treatment of respiratory diseases was weak since random controlled trials (RCTs) have not supported the observational studies finding inverse correlations between 25-hydroxyvitamin D [25(OH)D] concentrations and incidence of respiratory diseases [1]. However, the analysis of the RCTs and the literature search were not conducted well.

      There have been two vitamin D RCTs that demonstrated a beneficial effect in reducing risk of influenza. The first was conducted on black post-menopausal women living on Long Island. Those taking 800 or 2000 IU/d vitamin D3 had significantly lower incidence of colds and influenza than those taking the placebo [2]. However, the same research group conducted a second vitamin D RCT on a similar group without finding a beneficial effect as noted in Ref. 1 [3]. The primary difference between the two trials was the baseline 25(OH)D concentration. As reported in Ref. 3, in the first one, it was 46.9±20.6 nmol/l (95% CI 43.9–50.39) while in the second one it was 64.3±25.4 nmol/L. The second was a vitamin D RCT conducted on school children in Japan. For those not taking vitamin D prior to entering the trial, there was a 64% reduction in incidence of type A influenza for those taking 1200 IU/d vitamin D3 compared to the placebo [4].

      Another vitamin D RCT overlooked was conducted in Mongolia. In this study, school children with mean baseline 25(OH)D concentration of 7.0 (5.0–9.9) ng/mL (to convert ng/mL to nmol/L, divide by 2.5). were given 300 IU/d vitamin D3 which raised 25(OH)D concentration to 18.9 (15.5–22.9) ng/mL [5]. A significant reduction in acute respiratory infections was found.

      Two negative studies were reviewed in Ref. 1. A study from New Zealand started with a baseline 25(OH)D concentration of 29 (SD, 9) ng/mL, achieved a 25(OH)D concentration of 48 ng/mL, and found no beneficial effect [6]. Another vitamin D RCT followed two groups, each with mean baseline 25(OH)D concentration near 25 ng/mL and achieved 25(OH)D concentration near 32 ng/mL [7]. Again, no significant effect of vitamin D supplementation was found.

      Summarizing the findings from vitamin D trials, those trials that had baseline 25(OH)D concentrations below 50 nmol/L (20 ng/mL) found reduced risk of respiratory tract infections from taking vitamin D3 while those with higher baseline concentrations did not.

      Robert Heaney recently outlined guidelines for optimizing designs of nutrients such as vitamin D [8]. The important points for vitamin D are to start with an understanding of the 25(OH)D concentration-health outcome relation, measure 25(OH)D concentrations, enroll only those with low 25(OH)D concentrations, supplement with enough vitamin D3 to raise concentrations high enough to see an effect, and remeasure 25(OH)D concentrations. Very few vitamin D trials satisfied these steps. Many 25(OH)D concentration-health outcome relations show rapid changes below 15 ng/mL with very little change after 30 ng/mL [9, 10]. Thus, vitamin D RCTs should seek to enroll people with baseline 25(OH)D concentrations below 20 ng/mL.

      Additional evidence that vitamin D reduces risk of respiratory tract infections comes from an ecological study of influenza case-fatality rates in 12 communities in the United States from the 1918–1919 influenza pandemic. Case fatalities were generally due to pneumonia and occurred about 10 days after the influenza infection. In a comparison with solar UVB doses for summer or winter, rates were significantly lower in communities with higher solar UVB doses [11]. The mechanisms proposed were that vitamin D induces cathelicidin, which can kill bacteria, and reduction in the cytokine storm that often accompanies influenza. The cytokine storm can damage the lining of the lungs, thereby permitting the ever present bacteria to give rise to pneumonia. The influenza in that pandemic was type A H1N1.

      Thus, there is plenty of evidence that vitamin D can prevent and treat upper respiratory tract infections.

      References 1. Yawn J, Lawrence LA, Carroll WW, Mulligan JK. Vitamin D for the treatment of respiratory diseases: Is it the end or just the beginning? J Steroid Biochem Mol Biol. 2015 Jan 24. pii: S0960-0760(15)00029-1. doi: 10.1016/j.jsbmb.2015.01.017. [Epub ahead of print] 2. Aloia JF, Li-Ng M. Re: epidemic influenza and vitamin D. Epidemiol Infect. 2007;135(7):1095-6; author reply 1097-8. 3. Li-Ng M, Aloia JF, Pollack S, et al. A randomized controlled trial of vitamin D3 supplementation for the prevention of symptomatic upper respiratory tract infections. Epidemiol Infect. 2009;137(10):1396-404. 4. Urashima M, Segawa T, Okazaki M, Kurihara M, Wada Y, Ida H. Randomized trial of vitamin D supplementation to prevent seasonal influenza A in schoolchildren. Am J Clin Nutr. 2010;91(5):1255-60. 5. Camargo CA Jr, Ganmaa D, Frazier AL, et al. Randomized trial of vitamin D supplementation and risk of acute respiratory infection in Mongolia. Pediatrics. 2012;130(3):e561-7. 6. Murdoch DR, Slow S, Chambers ST, et al. Effect of vitamin D3 supplementation on upper respiratory tract infections in healthy adults: the VIDARIS randomized controlled trial. JAMA. 2012;308(13):1333-9. 7. Rees JR, Hendricks K, Barry EL, et al. Vitamin d3 supplementation and upper respiratory tract infections in a randomized, controlled trial. Clin Infect Dis. 2013;57(10):1384-92. 8. Heaney RP. Guidelines for optimizing design and analysis of clinical studies of nutrient effects. Nutr Rev. 2014;72(1):48-54. 9. Grant WB. Relation between prediagnostic serum 25-hydroxyvitamin D level and incidence of breast, colorectal, and other cancers. J Photochem Photobiol B, 2010;101(2):130–6. 10. Garland CF, Kim JJ, Mohr SB, et al. Meta-analysis of all-cause mortality according to serum 25-hydroxyvitamin D. Am J Pub Health. 2014;104(8):e43-50. 11. Grant WB, Giovannucci E. The possible roles of solar ultraviolet-B radiation and vitamin D in reducing case-fatality rates from the 1918–1919 influenza pandemic in the United States. Dermatoendocrinol. 2009;1(4): 215-9.

      Disclosure I receive funding from Bio Tech Pharmacal (Fayetteville, AR), MediSun Technology (Highland Park, IL), and the Vitamin D Council (San Luis Obispo, CA).


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    1. On 2015 May 20, Bill Cayley commented:

      This is a useful study, but it would have been helpful to know whether or not the non-everted wound closure was QUICKER.


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    1. On 2015 Feb 27, T Eugene Day commented:

      This is an excellent use of simulation to tease out how complex factors influence ED crowding. In the real world, the (as the authors put it) "chaotic" nature of the ED can make identifying factors associated with crowding extremely difficult to understand. However, simulation allows us to make controlled experiments which reveal insight into system dynamics. This is an interesting and thoughtful approach to a difficult problem.


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    1. On 2015 Feb 26, Anders von Heijne commented:

      It would be of great interest if the thalamic volumes in this study were to be correlated with a simple linear measurement, such as Third Ventricular Witdh. If changes in TVW can be shown to correlate with cognitive impairment in multiple cohorts it would be much easier to implement in clinical practice than volumetric measures.


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    1. On 2015 May 25, Tove Alm commented:

      Response to letter by Islam

      Shahidul Islam refers to our research article in Science “Tissue-based map of the human proteome” (M. Uhlén et al 23 January, 2015, p. 394) and claims that “they have skipped the control experiments because that would slow down the productivity”. This is of course not true; a large portion of the resources for the project are invested in validation of the antibodies.

      A considerable amount of the resources in the program have been used to perform control experiments for the antibodies displayed in the portal and a lot of effort has been put into the visualization of the primary data to allow the scientific community to explore the data behind the control experiments. At present, more than 60,000 antibodies have been validated using Western blots and high-density micro arrays and these efforts have been published in hundreds of articles from our group (www.proteinatlas.org/about/publications). The result in each application is also compared to RNA expression levels and what is known in literature. In addition, to further examine the antibodies, a pipeline for validation of antibody specificity using gene silencing has been established. The results are currently available for a subset of the antibodies in the Protein Atlas.

      The open-source policy applied to all antibodies published on the Atlas allows transparency and users may themselves review the experiments supporting the specificity of a particular antibody through the “Antibody/antigen” page (see example: www.proteinatlas.org/ENSG00000141510-TP53/antibody).

      The statement by Islam that the antibodies are available through Atlas Antibodies and therefore “reduces the reliability of the immunohistochemistry images” is also difficult to understand. The Human Protein Atlas includes antibodies from more than 40 commercial providers and all primary data supporting the respective antibody is shown as an open resource on the antibody/antigen page for each antibody (see example link above). In the Human Protein Atlas program, a requirement for including an antibody has from the start been that the corresponding antibody must be available to the scientific community through a commercial provider. This is important, since it allows for the use of the same antibody by all researchers interested in human biology and medicine.

      As far as we know, there are no past or current efforts with a more comprehensive pipe-line of systematic antibody validations.


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    2. On 2015 Apr 19, Md. Shahidul Islam commented:

      Immunohistochemistry images published in the “Human Protein Atlas” are not reliable

      IN THE ARTICLE “Tissue-based map of the human proteome” (M. Uhlén et al 23 January, 2015, p. 394), the authors point out that they have produced more than 13 million tissue-based immunohistochemistry images by using 24,028 antibodies. These images are freely available from the “Human Protein Atlas” portal. However, when it comes to the interpretation of the images, the key issue is whether the antibodies detect only the proteins that they are intended to do, under the conditions of the immunohistochemistry experiments. What is not widely known is that the scientists behind the “Human Protein Atlas” publish the immunohistochemistry images without performing the proper control experiments. For interpreting immunohistochemistry images, it is essential to perform the appropriate control experiments (1, 2). They have skipped the control experiments because that would slow down the productivity. They have tested the specificity of the antibodies mainly in the protein microarray experiments, and assumed that the antibodies that turn out to be specific in the protein micro array experiments will be specific also in the immunohistochemistry experiments. This assumption is not correct. Only about 45% of these antibodies detect the intended protein in the Western Blot. Scientists cannot publish immunohistochemistry images in peer-reviewed journals, without appropriate control experiments (1, 2). “Human Protein Atlas” is an exception. Here, millions of immunohistochemistry images have been published without requiring any independent peer-review process. The antibodies used for generating the images are being sold by the “Atlas Antibodies”, founded by the researchers from the “Human Protein Atlas” project. This conflict of interest further reduces the reliability of the immunohistochemistry images.

      Md. Shahidul Islam Department of Clinical Sciences, and Education, Södersjukhuset, Karolinska Institutet, SE-118 83, Stockholm, Sweden and Department of Internal Medicine, Uppsala University, Uppsala, Sweden. E-mail: shahidul.islam@ki.se

      Reference List

      1.  R. W. Burry, J. Histochem. Cytochem. 59, 6 (2011).
      2.  A. Lorincz, Z. Nusser, J. Neurosci. 28, 9083 (2008).
      


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    3. On 2015 Apr 24, Björn Hallström commented:

      We agree that it is not immediately obvious what the colors in Fig 1F refer to, and that this could have been better explained in the figure legend. However, the yellow bands refer to genes that have RNA evidence either from this study or from Uniprot. Since the categories ("Not detected" etc) are determined solely from our RNA data it is possible that Uniprot has RNA evidence for a gene that we could not detect. This is what the yellow band above "Not detected" in Fig 1F refers to. These are generally genes that are expressed in more specialized tissues that were not part of our panel of 32 tissues, such as retina, olfactory bulb and related to hair growth.


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    4. On 2015 Mar 05, University of Kentucky Systems Biology and Omics Integration Journal Club commented:

      Figure 1F appears to have a significant discrepancy. The definition for the "Not Detected" category in the first column section of Figure 1F is defined as "FPKM < 1 for all tissues" in Table 1. The definition would indicate that there is no RNA evidence for putative protein coding genes in this category; however, there is a yellow band indicating significant number of these genes have RNA evidence.


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    1. On 2015 Jul 12, Guo-Liang Jiang commented:

      Proposed revision of CT-based cervical and thoracic lymph node levels for esophageal cancer in UICC 7th version.Radiother Oncol. 2014 Nov;113(2):175-81. We correct the first author Liu M's affiliation as the following: 1. Department of Radiation Oncology, Fudan University Shanghai Cancer Center, Shanghai 200032, China; 2.Department of Oncology, Shanghai Medical College, Fudan University, Shanghai 200032, China; 3.Department of Radiation Oncology, Shanghai Chest Hospital, Shanghai Jiao Tong University, Shanghai 200030, China


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    1. On 2016 Jun 03, Ewen Gallagher commented:

      A detailed review on MEKK1 (encoded by Map3k1) and MAPK signaling, and looking at the roles of Map3k1 in cell death, survival and differentiation. Recent research relating to the genetic analysis of the MEKK1 PHD motif is included in the review (1).

      Related work.(1) Charlaftis N, Suddason T, Wu X, Anwar S, Karin M, Gallagher E. The MEKK1 PHD ubiquitinates TAB1 to activate MAPKs in response to cytokines. The EMBO journal 2014; 33:2581-96.


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    1. On 2017 Jul 13, Randi Pechacek commented:

      Katherine Dahlhausen described this paper after traveling to South America. She wrote of its important findings on microBEnet.


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    1. On 2017 May 04, Jeremy Horst commented:

      Can the actual results of this study be extended to infer a role of human genes in the disease? The influence of sex on the relationship to and influence of the environment is known to be strong for this disease. No assessment of any genotype besides assumed XX vs XY was performed.

      Also, a role for horizontal transmission of dental plaque bacteria from parents to children has been established. This obfuscates simple heritability estimates.

      Are there any loci that have shown an association with disease or disease severity in different studies? Perhaps lactoferrin. Clearly there is a role when tooth-development genes are mutated, but these are rare and do not extend to the general population.

      The conclusions here go to far in purporting genes as the cause of the difference in disease outcomes by sex.


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    1. On 2015 Feb 13, Amanda Capes-Davis commented:

      The two cell lines used here are both HeLa. KB is not an oral cancer cell line. It was cross-contaminated by HeLa - most likely during establishment of the cell line in 1955 - and no authentic stocks are known.

      A number of studies have used KB for testing of therapeutic activity and concluded that an effect will be relevant for oral cancer. Unfortunately that is not the case.

      Cell lines can be easily tested for cross-contamination and an increasing number of journals require authentication testing before publication. In my view, authentication testing would address the widespread use of KB as a model for oral cancer.

      Short tandem repeat (STR) profiling is the current consensus for authentication testing. Online databases can be used to compare a laboratory's result to HeLa and other commonly occurring contaminants.

      For more information on STR profiling see: http://iclac.org/resources/human-cell-line-authentication/.

      For a list of known cross-contaminated cell lines see: http://iclac.org/databases/cross-contaminations/.


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    1. On 2015 Nov 12, RUBEN ABAGYAN commented:

      Additional disclosure. One of the authors, R.A., has an equity interest in Molsoft, LLC. The terms of this arrangement have been reviewed and approved by the University of California, San Diego in accordance with its conflict of interest policies.


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    1. On 2015 Sep 20, Ralph Brinks commented:

      Most guidelines in health economic modeling stress the importance of the quality of the input data for the results of an economic model [1]. The input data of the transition probabilities between the BMI groups in the model of this work is based on empirical data from Germany and a method, which is stated to be described in [3]. Essentially, the transition probabilities are estimated from age-specific prevalence data, which is a well-known problem in epidemiology [4]. The method used in [2], however, is inappropriate, which I will demonstrate by showing the magnitude of the error. Terminology here is similar to [2], the BMI groups are numbered: normal (1), overweight (2), obese (3). The transition probability from state x to state y is denoted by tpxy

      Given the data of 53 year old males tp12 = 0.02159, tp23 = 0.01035, [2], and assumed that the probability of dying is 0.006 for all BMI groups [5], then at age 53 the prevalences in the respective BMI groups are about P(53) = (0.45, 0.3, 0.25), see Figure 2 of [2]. After simulating one cycle of the Markov model, we obtain the prevalence at age 54 as P(54) = (0.4402, 0.3067, 0.2531). If we now use Equation (1) in [2] to estimate tp12, we obtain (0.3067-0.3)/0.45 = 0.01489. Compared to tp12 = 0.02159, this is an relative error of -31%, a magnitude which exceeds the relative errors in the sensitivity analysis (+/-20%) by far. This is not acceptable.

      Thus, I query whether the results of [2] are valid. Instead of using the inappropriate Equations (1) and (2) in [2] I suggest to use studies surveying the transition probabilities between BMI groups directly.

      [1] Penaloza Ramos MC, Barton P, Jowett S, Sutton AJ. A systematic review of research guidelines in decision-analytic modeling. Value Health 2015; 18: 512-29.

      [2] Sonntag D, Ali S, Lehnert T, Konnopka A, Riedel-Heller S, König HH. Estimating the lifetime cost of childhood obesity in Germany: Results of a Markov Model. Pediatr Obes 2015 [Epub ahead of print]

      [3] Miller DK, Homan SM. Determining transition probabilities: confusions and suggestions. Med Dec Making 1994; 14: 52-58.

      [4] Keiding N. Age-specific incidence and prevalence: a statistical perspective. J R Statist Soc A 1991; 154: 371-412

      [5] Statistisches Bundesamt. Generationensterbetafeln Deutschland: Wiesbaden 2011.


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    1. On 2015 Nov 11, Luis Quadros commented:

      It's impressive to reach such a conclusion with only 36 patients.


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    1. On 2016 Oct 13, Lydia Maniatis commented:

      In addition to the circularity of the noise revelation, the claim in the abstract regarding "spatial pooling" is also misleading:

      " Our results suggest that chickens use spatial pooling of cone outputs to mitigate photon-shot noise."

      The results show nothing of the sort, since "spatial pooling" was introduced as a free parameter to aid in data-fitting. If we were to label this parameter "the tooth fairy" then the data would "suggest" that the tooth fairy mediates color discrimination.

      Again, we are talking about cosmetic applications of concepts to data-fitting techniques and arguments consisting of multiple casual assumptions that license no such interpretation.


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    2. On 2016 Oct 05, Lydia Maniatis commented:

      Thanks for your reply, Peter. I've copied it below and respond to the various points in the order they came up.

      You: There are measurements of noise in the visual system of animals which we have cited in the paper, so I can not agree with you that there is no evidence for noise in the visual systems of animals.

      Me: I think that all of the cited papers assume they are measuring "noise", without actually testing that assumption.

      You: In this paper we are describing the smallest colour difference that chickens were able to discriminate to figure out the equivalent Weber fraction which describe these limits. Whether that is actually caused by noise or not we can not say from our experiment, but it is adressed in some of the cited literature.

      Me: The title of your paper says "behavioural thresholds reveal receptor noise" and the abstract states that your "experiments allowed us to compare behavioural results wtih model expectations and determine how different noise types limit colour discrimination." So it sounds like a claim that your experiments did, in fact, corroborate the "noise" assumptions. In fact, the noise argument was never in any danger of falsification, because it was not tested, only assumed to be indirectly measurable. The confusion about this issue has seeped into other publications; the reason I was looking at yours was that Scholtyssek, Osorio and Baddeley (2016) claim that your paper "validated experimentally" the "receptor-noise limited model of Vorobyev and Osorio (1998)." This didn't seem likely, so I wanted to check.

      You: We find, similar to other experiments, that there this Weber fraction is the same in relatively brighter light (thresholds are very similar) but that the Weber fraction we need to assume to describe the thresholds needs to be higher in dim light, consistent with addition of photon-shot noise.

      Me: "consistent with" doesn't mean causally connected to. If the claim is about causality, this needs to be tested, not assumed. The adjustments and assumptions in general seem ad hoc.

      You: Which has been shown to limit visual sensitivity in many experiments.

      I think this applies in very, very low light conditions. But your experiment does not constitute a test that this is relevant to your results. Again, it is simply assumed, even though the idea that raw responses of neurons early in the hierarchy are transmitted directly to visual experience is not credible.

      You: We are using the Receptor Noise Limited model to describe the data, it is a tool that can be used to make predictions in other scenarios as well.

      Me: Why do you consider it a useful tool? Have its "noise" related assumptions ever been tested and corroborated? How? When Vorobyev and Osorio (1998) say that the model "predicted" some psychophysical data, they just mean that they were able to find some datasets that fit more or less, and some that didn't, not that they predicted beforehand which datasets would match. And again, general consistency alone does not justify uncritical acceptance of whatever qualitative assumptions are tacked onto the math.

      You: Regarding Percepts: We are not talking about how the animals perceive the colours, but rather how they are able to discriminate them. Absolutely, there is much more in the visual system going on that we yet do not understand. But the photoreceptor cells are the input of the system and the limits of the photoreceptors are going to be important.

      Me: First, discrimination implies perception, at least to the extent that two surfaces are perceived as same or different. Second, the limits of photoreceptors are not discernible in ordinary percepts. Correct me if I'm wrong, but you don't even seem to be acknowledging the complexity of the neural code for color, which involves combining cone activity to produce color experiences that can't be qualitatively analyzed on the basis of the individual cone activity, for example the fact that "red" plus "green" plus "blue" cone activity (or, e.g. "red plus green") produces the experience of grey or white. With four cones, the code will be even more complicated.


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    3. On 2016 Oct 05, Peter Olsson commented:

      Dear Lydia Thank you for your interest and comments.

      There are measurements of noise in the visual system of animals which we have cited in the paper, so I can not agree with you that there is no evidence for noise in the visual systems of animals.

      In this paper we are describing the smallest colour difference that chickens were able to discriminate to figure out the equivalent Weber fraction which describe these limits. Whether that is actually caused by noise or not we can not say from our experiment, but it is adressed in some of the cited literature.

      We find, similar to other experiments, that there this Weber fraction is the same in relatively brighter light (thresholds are very similar) but that the Weber fraction we need to assume to describe the thresholds needs to be higher in dim light, consistent with addition of photon-shot noise. Which has been shown to limit visual sensitivity in many experiments. We are using the Receptor Noise Limited model to describe the data, it is a tool that can be used to make predictions in other scenarios as well.

      Regarding Percepts: We are not talking about how the animals perceive the colours, but rather how they are able to discriminate them. Absolutely, there is much more in the visual system going on that we yet do not understand. But the photoreceptor cells are the input of the system and the limits of the photoreceptors are going to be important.


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    4. On 2016 Oct 01, Lydia Maniatis commented:

      From the article (I've broken up a single continuous paragraph for clarity (caps mine):

      "We ASSUME that discrimination thresholds of visual systems are set by noise (Vorobyev and Osorio, 1998; Lind and Kelber, 2009b) and that noise can arise from different sources in different light conditions. Over a wide range of relatively high light intensities...

      ...we EXPECT that Weber's law holds, so that sensitivity changes proportionally to light intensity and a constant Weber fraction (थscribes the signal-to-noise ratio that sets discrimination thresholds (Donner et al., 1990; Osorio et al, 2004; Lind et al., 2014). Under these conditions...

      ...the main source of noise is PROBABLY transducer noise (Lillywhite and Laughlin, 1979; Howard and Snyder, 1983) originating at the later stages of signal transduction in the photoreceptors, possibly by fluctuations in cGMP levels (Angueyra and Rieke, 2013).

      There are no electrophysiological measurements of noise in bird photoreceptors, but rough estimates of noise have been deduced from the results of behavioural experiments on spectral sensitivity (Maier, 1992; Vorobyev et al., 1998; Lind et al., 2014)."

      There is no empirical evidence that there is "noise" in the visual system and that this noise affects perception. The assumption is, furthermore, so vague that it could not be tested; and in our experience as observers, percepts certainly aren't "noisy." The reference to deduction of "rough estimates of noise" is contingent on this same untested, untestable, and empirically implausible assumption.

      In addition, the idea that the formed, conscious percept, the product of complex processing with outcomes that resemble inferential logic, (such as, for example, lightness constancy (which has been shown even in chicks)) can be used to detect the neural properties of particular sets of neurons (here photoreceptors) is untenable.

      Explicitly, the authors assume that "the discrimination thresholds are set by photoreceptor noise, which is propagated into higher order processing." This is a huge assumption, given what is known about the very different receptive field properties of neurons as we go up the hierarchy, and in view of the fact that these higher levels affect the activity of lower levels via feedback. It implies, in effect, that we can ignore, suppress or control for the participation of all other neural populations and interactions in this system. It is a claim that clearly requires a bit more effort at argument, rather than the casual assumptions, expectations, references to "established" or "standard" methods, etc. being offered here.

      I see the bun, the catsup, the mustard and the onion rings...but where's the beef?

      Another fascinating though not original aspect of this article is that it assumes that if we fit two arbitrary "models" to a dataset, and one of them fits this dataset better than the other, then the former is "more probable" than the other. This is the "Bayesian" way (though I don't think Bayes himself would agree). The fact that both models are too vague even to test doesn't interfere with these probabilities, which are in any case "subjective" and thus reflect the authors' (and the reviewers and editor's, I guess) personal beliefs.


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    1. On 2015 Jan 25, David Mage commented:

      We (Mage and Donner) agree 100% with the authors' conclusion that there could be a commonality of the terminal mechanisms of SIDS and SUDEP. Our research on SIDS, based upon the universal 50% SIDS male excess for equal numbers of males and females at risk, predicts that the SIDS causation is X-linked resulting in acute anoxic encephalopathy (See our abstracts 9076695, 15384886 and 24164639). We suggested that a presently unknown gene locus on the X with a protective dominant allele with frequency p = 1/3 is involved. It would code for a protein enzyme that would allow the respiratory control neurons in the brainstem to shift from aerobic oxidation to anaerobic oxidation during a transient episode of acute cerebral anoxia. The XY male would be at risk of not having this dominant ability with frequency q = 2/3 and the XX female would be at identical risk with frequency q x q = 4/9. For equal numbers of male and female infants at risk the ratio 2/3 to 4/9 = 1.5, giving the expectation of 3 males dying of SIDS for every 2 females dying of SIDS. The authors report that for their cited 85 cases of prone SUDEP that there were 51 male and 34 female patients which is exactly in the ratio of 3 male to 2 female as we predicted. They propose that the main mechanism of SUDEP in their study is the peripheral hypoventilation and suffocation secondary to complete or partial airway obstruction which could lead to potentially terminal acute cerebral anoxia. We suggest that this may be a fertile field for further investigation because, to our knowledge, there is no other hypothesis in the medical literature that can predict that both SIDS and SUDEP would have the same 50% male excess.


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    1. On 2015 Feb 06, Ryan Radecki commented:

      Post-publication commentary: "Prednisone … for Pneumonia?"

      The utility of antibiotics for eradication of bacterial pathogens from the lower respiratory tract is a given. Use of steroids – also known for their immunosuppressive properties – not so much.

      But, one can imagine clinical utility for steroids in acute infection. Not every function of the immune system results in desirable patient-oriented effects. Immunologic host responses include release of many inflammatory cytokines responsible for organ dysfunction, and steroids are already part of accepted therapy for several specific manifestations of pneumonia. Based on prior results in smaller trials, these authors suspected use of steroids might be of benefit – both in mortality and in time to symptom resolution.

      http://www.emlitofnote.com/2015/01/prednisone-for-pneumonia.html


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    1. On 2017 Sep 18, Konstantinos Farsalinos commented:

      Although Jensen et al. mentioned in the 2015 NEJM research letter that the health risks of formaldehyde hemiacetal inhalation are unknown ("How formaldehyde-releasing agents behave in the respiratory tract is unknown..."), they made a calculation that the formaldehyde-attributable cancer risk from e-cigarette use is 5 to 15 times higher than from long-term smoking. These two statements are clearly contradictory, and the calculation of any cancer risk from formaldehyde hemiacetal emissions is invalid since no such risk has been established for these compounds. It is simply based on an unsubstantiated assumption that "inhaling formaldehyde-releasing agents carries the same risk per unit of formaldehyde as the risk associated with inhaling gaseous formaldehyde...". Additionally, the latter statement was further misinterpreted by the media that reported the cancer risk of e-cigarettes (total risk, not formaldehyde-attributable risk) being 5 to 15 times higher than smoking. This is extremely important because, according to Fowles and Dybing (http://tobaccocontrol.bmj.com/content/12/4/424.long), the formaldehyde-attributable cancer risk is less than 1% of the total cancer risk of smoking. Prof Peyton, one of the authors of the NEJM research letter, now claims that formaldehyde hemiacetals are different from gaseous formaldehyde. But then, why did he and his co-authors use the hemiacetal measurements to present the cancer risk of e-cigarettes relative to tobacco cigarettes, considering that literature data for gaseous formaldehyde emissions from tobacco cigarettes were used in the comparison?

      In the recently published paper (https://www.nature.com/articles/s41598-017-11499-0), Salamanca et al. are comparing the results of an experimental method (NMR) with the results of an established and validated analytical method used to identify and measure aldehyde emissions. In our study, using a validated and widely accepted method, we found 89% higher levels of formaldehyde at 5 V than the level of formaldehyde hemiacetal reported by Jensen et al. in the NEJM research letter. Therefore, we did not underestimate formaldehyde levels. We did not reject the findings by Jensen et al. that, high formaldehyde levels can be produced when blindly testing e-cigarettes at inappropriately high power settings relevant to the atomizer used (in fact we found more, but in general our findings support their observations). However, this cannot be used as an indication that e-cigarette users are exposed to such extreme formaldehyde levels in their daily routine.

      I would also like to remind that we used a product which is outdated and inefficiently designed, a design that has been abandoned since 2012. These products are not even available in the market in the European Union anymore. Recent atomizers release formaldehyde at levels orders of magnitude lower than the one we tested. Even if we assume, despite the lack of evidence, that formaldehyde hemiacetals carry the same health risk as formaldehyde and that DNP derivatization underestimates the total formaldehyde exposure, still e-cigarettes developed over that last 3 years (at least) emit by far lower formaldehyde than tobacco cigarettes. Finally, the comparison between tobacco and electronic cigarettes in formaldehyde emissions is based on measurements performed using the same analytical method (DNPH derivatization) for both products. The assumption about underestimation of formaldehyde by DNPH derivatization applies equally to tobacco cigarettes and electronic cigarettes (tobacco cigarettes contain a lot of PG and VG); thus the relative difference remains the same.

      Recent studies have found that e-cigarettes release formaldehyde at levels corresponding to > 1900 cigarettes consumed per day (e.g. https://www.ncbi.nlm.nih.gov/pubmed/27461870). All these studies, which have been accompanied by press statements and wide media coverage, need to be replicated under verified realistic conditions. Science is defined by replication, and we hope that journal editors will accept the challenge of publishing studies that reject findings previously reported in the same journal. In any case, all our replication studies will be published in peer-reviewed journals.

      In conclusion, our purpose was to replicate an experiment using a specific e-cigarette device, atomizer and liquid under verified realistic conditions in order to verify or reject the conclusion that e-cigarettes carry 5 to 15 times the cancer risk of tobacco cigarettes. Our study clearly identified that this statement is false, and this was evident even when we used a very outdated and inefficient e-cigarette product. Therefore, our study was a valid replication experiment that presented the clinical relevance of previous findings.


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    2. On 2017 Sep 14, David H Peyton commented:

      We appreciate the feedback on our manuscript, and respect the concerns of the posters here as well as those of the authors of the 2017 Food Chem Toxicol. paper by Farsalinos et al., cited by Clive Bates below. We share in the common goal of maximizing harm reduction. However, the claim that the aforementioned manuscript embodies a “replication” of our study in NEJM is false and misleading. Unfortunately, this misunderstanding continues to propagate prior misinformation disseminated about our work published in the 2015 NEJM paper. As clearly stated in our 2015 manuscript, we discovered and measured the levels of formaldehyde hemiacetals, not gaseous carbonyl formaldehyde. The 2017 study by Farsalinos et al. only measured levels of carbonyl formaldehyde. The ongoing omission of this critical detail, as reflected in the posts below as well as in the recent claimed “replication” of our work, has led the authors (yet again) to the conclusion that high levels of formaldehyde are detectable by e-cigarette users only under “dry puff” conditions. As we have described in a very recent manuscript (https://www.nature.com/articles/s41598-017-11499-0), 35-45 % of the formaldehyde hemiacetals are not converted to the detectable form of formaldehyde using DNPH impinger or related sorbent tube methods. Accounting for an approximately 40% loss of detectable formaldehyde at a power level of 4V, which the authors described as “realistic use conditions,” affords levels of > ca. 1400 ug of formaldehyde consumed. This is essentially the same level of formaldehyde from smoking combustible cigarettes, again according to data in the manuscript by Farsalinos and co-workers. This means that the cancer risk from formaldehyde in the e-cigarette that was investigated in the so-called replication study, even at this modest power level, is the same as that for combustible cigarettes. In other words, e-cigarettes do not emit very high formaldehyde levels only in conditions that are averse to users. In addition, discussing ‘dry puffs’ with the study subjects and increasing the power levels in a non-random way do not seem best practice for generating unbiased human subject study results. Our further studies of the chemistry and health effects of e-cigarettes are ongoing, and will be reported in due course, in peer-reviewed journals.


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    3. On 2017 Sep 02, Clive Bates commented:

      This study has now been replicated and its obvious flaws confirmed.

      Farsalinos KE, Voudris V, Spyrou A, Poulas K. E-cigarettes emit very high formaldehyde levels only in conditions that are aversive to users: A replication study under verified realistic use conditions. Food Chem Toxicol. 2017; . [link]

      Conclusion

      The high levels of formaldehyde emissions that were reported in a previous study were caused by unrealistic use conditions that create the unpleasant taste of dry puffs to e-cigarette users and are thus avoided.

      The high levels of formaldehyde reported by the authors occur only in "dry puff" conditions that would be too acrid and aversive for human users to withstand. The authors completely missed this human control mechanism yet went on to calculate cancer risks based on conditions that humans would never experience. The resulting media storm was deeply misleading and the result of the authors inappropriate reporting of cancer risks based on unrealistic exposures.

      This research letter should have been withdrawn or corrected by the NEJM once the flaws were pointed out. Given the controversy and impact on public health arising from people being given misleading information about health risks, the journal should have proactively commissioned a replication study or at least published this one.

      A correction by the authors could at least admit that cancer is a human condition and that the cancer risk calculations have no validity given that humans are not exposed toxins generated under dry puff conditions.

      At the time of writing the paper has 138 academic citations and 386 media articles. How many people will have been misled into making decisions harmful to their health by this paper?


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    4. On 2016 Apr 20, Clive Bates commented:

      The fundamental weakness in this study is a failure to control the vapourising temperature to the levels experienced by real human subjects, rather operating temperatures that create a sensory experience that can only be tolerated by laboratory machines. The artifically high operating temperatures account for the high levels of formaldehyde and similar detected in the study.

      At high temperatures, e-cigarette vapour undergoes thermal decomposition and aldehydes, such as formaldehyde, will form. For human subjects, there is a control feedback that avoids this exposure - namely that the aerosol takes on a horrible harsh taste and the e-cigarette user stops vaping. This phenomenon is widely understood among users and is known as 'dry puff' or 'dry hit' and it is always avoided. No such control feedback exists for laboratory machines.

      This is one of several studies that ignores this important effect - something that could have been easily remedied by involving human users to verify the puffing protocol and device configuration and voltage settings create a realistic human vaping experience.

      While it is not incorrect, merely pointless, to measure and report the decomposition of vapour in these unrealistic conditions, it is not legitimate to go on to make and publicise calculations of cancer risk, which can only arise from human exposures.

      A critique of this short but damaging paper was published in the journal Addiction with an exchange of letters (Disclosure - I am a co-author): Bates CD, Farsalinos KE. Research letter on e-cigarette cancer risk was so misleading it should be retracted. Addiction 2015;110:1686–7. doi:10.1111/add.13018 Link to critique in Addiction

      A detailed critique and case for retraction under the COPE guidelines was provided and published as supplementary material in Addiction. Link to Complaint under the Code of Conduct of the Committee on Publication Ethics

      Forty experts wrote to the New England Journal of Medicine to express concern about the paper. Their letter was also published as supplementary material in Addiction. Link to letter

      The New England Journal of Medicine has not provided a substantive response to this complaint or offered a route for escalation at the journal, as it should do under COPE. The full engagement with NEJM is described here with a annotated document file here - Google Doc


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    5. On 2015 Sep 14, Ivan Oransky commented:

      Critics have called for this paper to be retracted, and there has been extensive correspondence about it in Addiction: http://retractionwatch.com/2015/09/11/researchers-call-for-retraction-of-nejm-paper-showing-dangers-of-e-cigarettes/


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    1. On 2015 Mar 15, IGSJC - The International General Surgery Journal Club commented:

      Author Tom Varghese (@TomVargheseJr) joined IGSJC and moderator Amalia Cochran (@AmaliaCochranMD) to discuss "Nonsteroidal Anti-inflammatory Drugs and the Risk for Anastomotic Failure" on Twitter March 10-11, 2015, from 5-9pm PDT. For the remainder of the month of March, JAMA Surgery has opened access to the article (available at http://j.mp/IGSJC-201503), and all are still welcome to contribute to the discussion on Twitter using the #IGSJC hashtag.

      A transcript of the journal club chat is available at: https://storify.com/AmaliaCochranMD/march-2015-igsjc


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    2. On 2015 Mar 09, IGSJC - The International General Surgery Journal Club commented:

      Author Tom Varghese (@TomVargheseJr) will be joining IGSJC and moderator Amalia Cochran (@AmaliaCochranMD) to discuss "Nonsteroidal Anti-inflammatory Drugs and the Risk for Anastomotic Failure" on Twitter March 10-11, 2015, from 5-9pm PDT. For the month of March, JAMA Surgery has opened access to the article (available at http://j.mp/IGSJC-201503), and all are welcome to contribute to the discussion.

      For tips on getting started, read http://igsjc.wordpress.com/guide-for-new-twitter-users/. Then, read the article, and return to Twitter on March 10 to take part!

      Search on Twitter for #IGSJC (https://twitter.com/hashtag/igsjc) for the latest info and to join the chat.


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    1. On 2015 Jul 18, Jan Tunér commented:

      Not arguing against the results of this paper, but a problem with most studies trying to treat tinnitus with laser light is the lack of proper diagnosis of the patients. Quite a few of these have a somatosensory background (the problem is basicly muscluar). Irradiation into the ear will then have no effect.

      References: Bjorne A, Agerberg G. Reduction in sick leave and costs to society of patients with Ménière´s disease after treatment of temporomandibular and cervical spine disorders: A controlled 6-year cost-benefit study. Cranio. 2003; 21 (2): 136-143. Bernhardt O, Gesch D, Schwahn C, Bitter K et al. Signs of temporomandibular disorders in tinnitus patients and in a population-based group of volunteers: results of the Study of Health in Pomerania. J Oral Rehabil. 2004; 31 (4): 311-319. Levine RA, Abel M, Cheng H. CNS somatosensory-auditory interactions elicit or modulate tinnitus. Exp Brain Res. 2003; 153 (4): 643-648. Tullberg M, Ernberg M. Long-term effect on tinnitus by treatment of temporomandibular disorders: a two-year follow-up by questionnaire. Acta Odontol Scand. 2006; 64 (2): 89- 96.


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    1. On 2015 Jan 22, Larry Parnell commented:

      This paper was my selection for Paper of the Week for 19-23 Jan 2015.


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    1. On 2015 Feb 18, Arnaud Chiolero MD PhD commented:

      Primordial prevention is a key strategy for initiating prevention of cardiovascular diseases early in life. This commentary gives an elegant point of view on some experimental evidence on childhood intervention to improve cardiometabolic health.


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    1. On 2016 Mar 28, Mones Abu-Asab commented:

      The positive aspect of this review is that it highlights phylogenetics as “likely to have an important impact on patient care.” However, this is a rambling review on metastasis without a critical evaluation of the literature on the topic or good conclusions on how phylogenetics would make a difference in studying metastasis. It doesn’t discuss some experimental work on metastasis (e.g., PMID: 18755941), or analytical phylogenetic approaches that discuss metastasis or the conceptual framework of cancer progression (e.g., PMID: 21319991, 23548567).


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    1. On 2015 Feb 08, Arnaud Chiolero MD PhD commented:

      Contrary to statements of several experts, this study suggests that cardiovascular health of children may not have worsened despite the increase in obesity.


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    1. On 2015 Jan 30, Alvaro Alonso commented:

      It is well-known that food-frequency questionnaires (FFQ) are suboptimal tools to assess dietary sodium intake. Thus, not finding an association between FFQ-assessed sodium and the study endpoints is expected, but does not provide any useful information about the health effects of sodium intake.


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    1. On 2015 Feb 08, KEVIN BLACK commented:

      This is a fascinating clinical problem. The following quote may be of interest:

      "[T]hree of 20 patients with both TS and OCD met criteria for bipolar disorder [53]. Given a population prevalence for bipolar disorder of <1%, the 15% prevalence here is remarkable. However, a study from Spain found that 12% of 90 consecutively examined patients with TS had either bipolar disorder or schizoaffective disorder, and an additional 21% had bipolar II disorder or cyclothymia [54]. The majority of these patients (80%) also had OCD, and many of them reported fewer tics during depressive episodes and more with manic episodes [54]. This surprising prevalence of manic illness in TS+OCD patients is probably not due to excessive symptom reporting in general, as this group reported less panic disorder or agoraphobia than the other groups [53]. Further studies of this difficult to treat subgroup are warranted. ...

      "53.    Coffey BJ, Miguel EC, Biederman J, Baer L, Rauch SL, O'Sullivan RL, et al. Tourette's disorder with and without obsessive-compulsive disorder in adults: are they different? J Nerv Ment Dis 1998; 186:201-206. ...
      
      "54.    Berthier ML, Kulisevsky J, Campos VM. Bipolar disorder in adult patients with Tourette's syndrome: a clinical study. Biol Psychiatry 1998; 43:364-370."
      

      -- from Black KJ, Mink JW: Neuropsychiatry of movement disorders. Curr Opin Psychiatry 1999; 12(3):313-319.


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    1. On 2015 Feb 25, Gerard Ridgway commented:

      In relation to the failure "to replicate all the group differences in GMV reported in previous studies", it would be very helpful to extract GMV for the previously reported coordinates (or clusters) and to report the magnitudes of the group differences on the new data, for example like the plot in Figure 2 does for the significant cluster here. It would be more compelling to support an assertion of an absent effect on such an extracted summary by demonstrating that the confidence interval is reasonably narrow (i.e. confined to trivially small group differences) rather than just that the region is not significant (in this case, after correction for multiple comparisons).

      It is also not made clear whether the methods closely match the unreplicated studies. For example, the smoothing of 4mm here seems very low for a VBM study (particularly one using cluster-extent inference), and it would be interesting to know whether previous studies have used similarly low smoothing, or more typical values such as 8mm. As another example, did all previous studies adjust for total intracranial volume? In cases like this, where there is a significant group difference in TIV, I think both the adjusted and unadjusted analyses can be of interest.


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    1. On 2015 Jan 26, David D Leedahl commented:

      We appreciate this comment. The patient had an extensive list of allergies to antimicrobials, which included multiple beta lactams (penicillin, ertapenem, aztreonam) in addition to several additional antibiotics from other classes. The decision to initiate a desensitization protocol to ceftaroline on the general medical floor outweighed the risk of potentially inducing an allergic reaction. Whether or not the patient would have experienced an allergic reaction to ceftaroline without completing a desensitization protocol, we agree, is uncertain.


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    2. On 2015 Jan 20, Eric Macy commented:

      An IgE-mediated allergy to ceftaroline was not confirmed in this patient by either skin testing or challenge. Only a very small minority of even clinically significant penicillin allergy confirmed individuals will have IgE-mediated reactions to any specific cephalosporin. Only a small minority of individuals with multiple drug intolerance syndrome have any underlying IgE-mediated allergy to any of the medications they have noted reactions associated with.


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    1. On 2016 Jan 20, Stephen Royle commented:

      The analysis of cell migration presented in this paper was done using an early version of software which is now maintained at http://github.com/quantixed/CellMigration


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    1. On 2015 Mar 13, Albert Erives commented:

      Animal genomes do not encode the eukaryotic ClpB chaperones, Hsp104 and Hsp78 (See: Metabolic and chaperone gene loss marks the origin of animals: evidence for hsp104 and hsp78 sharing mitochondrial enzymes as clients, PMID: 25710177). The so-called CLPB gene annotated in the human genome is a partial bacterial clp family sequence fused to an ankyrin-repeat containing domain. Phylogenetic analysis of this gene from humans and other animals puts it outside of the clpB/HSP104/HSP78 family (see Fig. S2 in the above reference).


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    1. On 2015 May 29, Hongjian He commented:

      One our main criticisms of this publication was that there was no detailed reporting of number of needles used per treatment, acupuncture sites targeted per treatment, and specific treatment duration and electric stimulation for each patient. Dr. Hinman responded by stating:

      "Dr. He suggests lack of acupuncture standardization, treatment infrequency, and no electrical stimulation may explain our findings. However, when comparing acupuncture with sham treatment, a meta-analysis1 found no evidence that needle number or placement; use of electrical stimulation; or number, frequency, or duration of treatments influence acupuncture outcomes"

      We looked at the article Dr. Hinman cited (MacPherson et al., PLoS 2013) and she did not do a good job of reading it. They showed that number of needles used per treatment was statistically significantly correlated with effect size. The electrical stimulation had a significantly stronger effect. She incorrectly summarized the study results. Therefore, Dr. Hinman’s statement that needle numbers, length of treatment and electric stimulation have no effect on acupuncture outcomes is incorrect. We still await a sufficient explanation for why these specifics were not reported in her study.


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    1. On 2015 Jan 27, William Grant commented:

      The paper on hypovitaminosis D by Daniel Podd [1] is useful in drawing attention to the problem but has a number of factual errors. This comment suggests a number of corrections.

      Ref. 1 states that vitamins D2 and D3 have equivalent biological activity. Vitamin D researchers disagree on this point [2]. A recent meta-analysis of vitamin D trials found that supplementation with vitamin D3 lowered mortality rate significantly by 10% while supplementation with vitamin D2 increased mortality rate by a non-significant 3 to 15% [3].

      Regarding lower vitamin D levels for those who are obese, another suggestion is that volumetric dilution rather than fat sequestration that explains the findings [4]. However, both may be important.

      Regarding cancer, the findings for vitamin D levels and breast cancer are very similar to those for colorectal cancer [5]. The problem in determining this has been that prospective observational studies with longer than three-years follow up have not found a significant inverse correlation between vitamin D levels and breast cancer incidence rates [6]. The reason is that breast cancer develops very rapidly, which is why mammography is recommended annually. Case-control studies consistently find strong inverse correlations between vitamin D levels and breast cancer incidence rates [6]. The evidence that solar UVB and vitamin D reduce the risk of cancer incidence and mortality rates for many types of cancer is strong based on geographical ecological studies and laboratory investigations of the mechanisms [7]. Vitamin D plus calcium supplementation has also been found to reduce risk of breast cancer [8].

      Regarding vitamin D production from solar UVB: it is very difficult to impossible to make vitamin D in winter for about six months in locations pole ward of about 40 degrees [9]. When the solar elevation angle is below 45 degrees, it is difficult to make vitamin D since most of the UVB is scattered out [9]. Thus, time of day and season are very important considerations regarding vitamin D production. Also important is skin pigmentation. Black Americans have vitamin D levels about 40% lower than white Americans [10].

      Regarding calcium supplementation, 1.5 to 2.0 g/d is too high. There is increased risk of cardiovascular disease with higher calcium intake [11]. A recent meta-analysis found that dietary calcium intake of 800 to 1000 mg/d was associated with the lowest risk of cardiovascular disease, with intakes above 1200 mg/d associated with significantly increased risk [12].

      Regarding the best time to take vitamin D, it is with the largest meal of the day [13]. That way vitamin D stays in the intestines longer.

      Regarding frequency of dosing, daily may be optimal. A meta-analysis found "Supplementation of intermittent, high dose vitamin D may not be effective in preventing overall mortality, fractures, or falls among older adults." [14]. By intermittent, they meant once or once a month. Others have shown good results for weekly dosing. Daily dosing is similar to being in the sun daily, which is the physiological way to produce vitamin D.

      While there is mounting evidence that vitamin D has important health benefits [15], there is also mounting evidence that some of the benefits attributed to vitamin D may, in fact, be due to other effects of solar UVB exposure. Non-vitamin D effects of UV exposure have been found for multiple sclerosis [16, 17], hypertension/cardiovascular disease [18] and intestinal cancer [19]. Thus, midday sun exposure may be a better option for increasing vitamin D levels when possible.

      An additional critique of Ref. 1 can be found at http://vitamindwiki.com/tiki-index.php?page_id=6196

      References 1. Podd D. Hypovitaminosis D: A common deficiency with pervasive consequences. JAAPA. 2015;28(2):20-26. 2. Heaney RP, Recker RR, Grote J, et al. Vitamin D3 is more potent than vitamin D2 in humans. J Clin Endocrinol Metab. 2011;96(3):E447-52. 3. Chowdhury R, Kunutsor S, Vitezova A, et al. Vitamin D and risk of cause specific death: systematic review and meta-analysis of observational cohort and randomised intervention studies. BMJ. 2014;348:g1903. 4. Drincic AT, Armas LA, Van Diest EE, Heaney RP. Volumetric dilution, rather than sequestration best explains the low vitamin D status of obesity. Obesity (Silver Spring). 2012;20(7):1444-8. 5. Grant WB. Relation between prediagnostic serum 25-hydroxyvitamin D level and incidence of breast, colorectal, and other cancers. J Photochem Photobiol B, 2010;101(2):130–6. 6. Grant WB. Effect of interval between serum draw and follow-up period on relative risk of cancer incidence with respect to 25-hydroxyvitamin D level; implications for meta-analyses and setting vitamin D guidelines. Dermatoendocrinol. 2011;3(3):199-204. 7. Moukayed M, Grant WB. Molecular link between vitamin D and cancer prevention. Nutrients. 2013;5(10):3993-4023. 8. Bolland MJ, Grey A, Gamble GD, Reid IR. Calcium and vitamin D supplements and health outcomes: a reanalysis of the Women's Health Initiative (WHI) limited-access data set. Am J Clin Nutr. 2011;94(4):1144-9. 9. Engelsen O. The relationship between ultraviolet radiation exposure and vitamin D status. Nutrients. 2010;2(5):482-95. 10. Ginde AA, Liu MC, Camargo CA Jr. Demographic differences and trends of vitamin D insufficiency in the US population, 1988-2004. Arch Intern Med. 2009;169(6):626-32. 11. Bolland MJ, Grey A, Reid IR. Calcium supplements and cardiovascular risk: 5 years on. Ther Adv Drug Saf. 2013;4(5):199-210. 12. Wang X, Chen H, Ouyang Y, et al. Dietary calcium intake and mortality risk from cardiovascular disease and all causes: a meta-analysis of prospective cohort studies. BMC Med. 2014;12:158 13. Mulligan GB, Licata A. Taking vitamin D with the largest meal improves absorption and results in higher serum levels of 25-hydroxyvitamin D. J Bone Miner Res. 2010;25(4):928-30. 14. Zheng YT, Cui QQ, Hong YM, Yao WG. A meta-analysis of high dose, intermittent vitamin D supplementation among older adults. PLoS One. 2015;10(1):e0115850. 15. Pludowski P, Holick MF, Pilz S, et al. Vitamin D effects on musculoskeletal health, immunity, autoimmunity, cardiovascular disease, cancer, fertility, pregnancy, dementia and mortality- a review of recent evidence. Autoimmun Rev. 2013;12(10):976-89. 16. Knippenberg S, Damoiseaux J, Bol Y, et al. Higher levels of reported sun exposure, and not vitamin D status, are associated with less depressive symptoms and fatigue in multiple sclerosis. Acta Neurol Scand. 2014;129(2):123-31. 17. Wang Y, Marling SJ, Beaver EF, et al UV light selectively inhibits spinal cord inflammation and demyelination in experimental autoimmune encephalomyelitis. Arch Biochem Biophys. 2014;567C:75-82. 18. Liu D, Fernandez BO, Hamilton A, Lang NN, et al. UVA irradiation of human skin vasodilates arterial vasculature and lowers blood pressure independently of nitric oxide synthase. J Invest Dermatol. 2014;134(7):1839-46. 19. Rebel H, der Spek CD, Salvatori D, et al. UV exposure inhibits intestinal tumour growth and progression to malignancy in intestine-specific Apc mutant mice kept on low vitamin D diet. Int J Cancer. 2015;136(2):271-7.

      Disclosure I receive funding from Bio Tech Pharmacal (Fayetteville, AR), MediSun Technology (Highland Park, IL), and the Vitamin D Council (San Luis Obispo, CA).


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    1. On 2018 Jan 05, Alexander Wolf commented:

      The authors decorated the vertical axis of Figure 1b with four numbers ("10","0.0","0.01","0.001") next to four equally spaced markers, reminiscent of a logarithmic scale. The plot being fold change, I can't help to get the feeling these numbers are meant to be "100","1","0.01","0.0001" ? Might the authors please explain or clarify this ?


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    1. On 2015 Jan 21, Wichor Bramer commented:

      I think the article is a very interesting overview of all quality assesment methods currently available, however, I strongly advise a thorough editing round by a native speaker, because the quality of the English language is rather low.


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    1. On 2015 Jan 23, Madhusudana Girija Sanal commented:

      The Cancer Stem Cell-Bauble!

      Does cancer stem cell exist after all? Yes or no because the definition is in the eye of the beholder! Cancer is well defined, stem cells are well defined, but cancer stem cell is unfortunately not the sum of these two and that is where it is poorly defined. Protein markers will come and go on the surface or inside. Currently it is like the definition of beauty or social justice! After all (most, if not all) cancers are a dynamic state of cells with respect to their epigenetic and genetic status during their course of evolution, selection and survival. So, what is NOT a cancer-non-stem cell today can become cancer stem cell tomorrow and vice versa detected by the micro and macro environment and the evolutionary pressure. Cells which have a "very loose" epigenetic stability (on a background of one or more 'oncogene' mutations) are the ideal candidates for cancer "stem" cell. This may be a better definition for those who really want to see that cancer stem cells do exist and the see that concept of cancer stem cells survive! Or wait for the bubble to burst!


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    1. On 2015 Jan 29, Matthew Shirley commented:

      "A somatic activating mutation in guanine nucleotide-binding protein alpha-q (GNAQ) that up-regulates the expression of mutant Gαq protein"...

      I believe the authors meant that the mutation increases the activity, not the expression of the mutant GNAQ protein product.


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    1. On 2015 Feb 09, Benoit Kornmann commented:

      Superresolution microscopy has become an indispensable tool in cell biology. Several approaches exist, all aimed at seeing smaller and smaller objects.

      Here the approach to superresolution microscopy is different. Instead of trying to image small objects, the idea is to 'inflate' the object before imaging, such that it becomes big enough for standard microscopy.

      The procedure starts like a standard immuno-fluorescence, but before imaging the sample, it is infused with a resin. During polyerization, the fluorophore that is on the secondary antibody becomes covalently linked to the polymer.

      All proteins are then digested away and the polymer -- now bearing an imprint of the sample in the form of bound fluorophores –- is dilated to an extended conformation by desalting, leading to an isotropic enlargement of the imprint. The imprint can then be imaged at superresolution using a standard microscope.

      Such a method is, of course, limited to fixed samples, but brings several advantages. For instance, the deproteination of the sample reduces scattering, allowing the imaging of thick samples.


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    1. On 2015 Apr 01, Mihaela Gadjeva commented:

      The paper does not properly cite published work in the field of NETosis and P. aeruginosa susceptibility to NET-induced killing. The authors seem unaware of published work (Distinct susceptibilities of corneal Pseudomonas aeruginosa clinical isolates to neutrophil extracellular trap-mediated immunity. Shan Q, Dwyer M, Rahman S, Gadjeva M. Infection and Immunity PMID: 25047845-available at the time of submission of the above manuscript) that documents in vivo NET production during ocular infection with P. aeruginosa and demonstrates that P. aeruginosa produces outer membrane vesicles (OMV) in response to NET-induced stimulation. Contrary to the claim that no reports have shown before in vivo NET production in response to P. aeruginosa-induced infection, our work available online in July 2014, presented evidence that P. aeruginosa induced NETs in vivo at the ocular surfaces following ocular infection. Further, authors reported that P. aeruginosa secreted OMVs in response to DNA pressure without citing our work on NET-induced P. aeruginosa OMV production. It is clear that in addition to new data, this paper reports findings that agree and confirm our results and should be presented as such, rather than as data reported for the first time.


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    1. On 2015 Aug 12, Lydia Maniatis commented:

      There are many problems with this paper, but the most concrete is that the authors' theoretical position is contradicted by fact.

      They are assuming that, if we replace a black check on a checkerboard with a grey one, such that the latter is adjacent to white checks, it will be subject to contrast, and thus appear darker than a grey check replacing a white check, which will (supposedly) lighten due to the adjacent black checks.

      Simply based on the fact that contrast tends to occur in the context of a figure-ground relationship, which here is lacking, we might question and test this assumption, rather than treating it as given. DeValois and DeValois (1975) created the corresponding demonstration, which may be viewed here http://www.shapirolab.net/Graphics/Icons/Checker Board Icon.jpg. The check surrounded by white checks lightens, and vice versa. The fact that the checks that the authors' are assuming are undergoing contrast are actually undergoing assimilation completely undermines their arguments.

      (Adelson makes the same incorrect assumption about checkerboard contrast here: http://web.mit.edu/persci/people/adelson/checkershadow_description.html)

      Beyond this, the authors are attributing the relative lightness of pair of checks appearing to differ in illumination to contrast (incorrectly, as discussed above) and of a pair ellipses to assimilation, when both effects can (only) be explained by the same process of compensation for illumination.


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    1. On 2015 Jan 31, Stuart RAY commented:

      This is an important analysis. The Lao story is a great illustration of evolution in an isolated epidemic, while the other isolates' lacking evidence for recombination highlights the remarkably rare frequency with which HCV recombines. Kudos to the authors for this contribution, including the sequences deposited into public databases.


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    1. On 2016 Apr 20, Chandan Kumar commented:

      In COSMIC, a mutation in MEN1, p.T541A (c.1621A>G, refers to 22 cases of hemangioblastoma from this study. This must either represent a hotspot mutation inadvertantly missed out from the study, or an experimental artifact, that got submitted and went on to populate COSMIC database. If confirmed to be a hotspot, this would be really interesting to follow up and potentially mechanistically associate with VHL loss. If however, it might just be an NGS artifact, may be helpful to withdraw from COSMIC. Thanks.


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    1. On 2015 Jan 15, David Mage commented:

      SIDS is not "inextricable." It only appear so to the non-mathematically inclined because the cited "Triple-Risk Hypothesis" cannot predict the mathematical form of the universal SIDS age and gender distributions.

      Perhaps SIDS can be unlocked by explaining why SIDS throughout the world has a fixed Johnson SB (4-parameter lognormal) age distribution and a binomial (pMale = 0.61) gender distribution, that requires a mathematical insight that is not often found in the SIDS community of pediatricians and pediatric pathologists. For example, the reader can see the three articles described here, as well as our other SIDS articles in PUBMED:

      "The Consistent 50% Excess Male Infant Mortality from Sudden Infant Death Syndrome (SIDS) and Other Respiratory Diseases is Evidence of an X-Linkage." David T Mage and E. Maria Donner, Review Article: J Mol Genet Med 2014, 8: 123 doi: 10.4172/1747-0862.1000123

      "All sudden and unexplained infant respiratory deaths may result from the same underlying mechanism." David T. Mage, E. Maria Donner, Mechtild Vennemann, Peter Fleming, Katia Sol-Church, Rebecca Drake, Sam Gulino. Scandinavian Journal of Forensic Science 2012; 18(1):2-10.

      "Is excess male infant mortality from sudden infant death syndrome and other respiratory diseases X-linked?" Mage DT, Donner EM. Acta Paediatr. 2014 Feb;103(2):188-93. doi: 10.1111/apa.12482. Epub 2013 Dec 20. PMID: 24164639


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    1. On 2016 Feb 18, Abdulla A-B Badawy commented:

      None


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    2. On 2016 Feb 29, Simon Young commented:

      In the J Psychopharmacol article under discussion Badawy and Dougherty “concluded that the ATD formulation of Young et al. (1985) may involve not only serotonin depletion, but also that of DA and possibly also NA, because it also induces a decrease in the [Phe + Tyr]/[BCAA + Trp] ratio, thereby decreasing Tyr availability to the brain.” Their concern was that “This could impact catecholamine-specific behaviours and those influenced by catecholamines”. They now argue that brain tyrosine may be increased, rather then decreased as argued in the article, because while some studies find a decrease in the ratio others find an increase, and because CSF tyrosine shows small increases at later times after administration of the 100g ATD mixture, when CSF is sampled for 12 hours Carpenter LL, 1998. This raises two important issues.

      (a) The fact that the ratio increases in some circumstances and decreases in others supports my contention that relatively small changes in the ratio do not provide useful information.

      (b) Badawy and Dougherty fail to respond to the fact that CSF HVA does not change after administration of the ATD mixture Carpenter LL, 1998, indicating that synthesis of dopamine (and hence synthesis of its metabolic product norepinephrine) is not altered. The small increase in tyrosine with no increase in dopamine synthesis is not surprising as human brain tryptophan hydroxylase is regulated not only by substrate availability but also by product inhibition and phosphorylation Almås B, 1992.

      Badawy and Dougherty agree that protein intake can alter cognition, and presumably would agree that the “whey protein fraction glycomacropeptide” that they suggest using in ATD studies also may influence cognition. They do not respond to the point I made that normal physiological mechanisms (e.g. food intake and diurnal rhythms) can alter cognition. Therefore, the issue is not whether cognition will change over time after the administration of a control amino acid mixture, but whether such a change is outside the normal physiological range. As long as an ATD mixture and its control mixture differ only in tryptophan levels any change mediated by factors other than changes in tryptophan will occur after control and ATD treatments. Therefore, the difference in the effects of the two mixtures will be due only to changes in tryptophan. Badawy and Dougherty suggest “that it is prudent to use a control formulation that exerts a zero effect on all ratios”. As discussed above I do not feel that small changes in ratios are reliable indicators of anything occurring in the brain, an assertion not disputed by Badawy and Dougherty. Even if one did believe in the validity of small changes in ratios, the discussion above illustrates that ratios can vary from one study to another (both between different labs and also within labs). Therefore, Badawy and Dougherty’s suggestion “to use a control formulation that exerts a zero effect on all ratios” is probably not realistic.

      I still believe that the criticisms of Badawy and Dougherty of the 100g ATD mixture are not based on experimental evidence.


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    3. On 2016 Feb 18, Abdulla A-B Badawy commented:

      We thank Young for his second response and agree with him on many of his statements. We also confirm in agreement with Young that our major concern is the specificity of his control formulation for ATD (and also that of the control formulation for ATPD). Young quotes the increase in CSF [Tyr] reported by Carpenter LL, 1998 as evidence against a decrease in the Tyr ratio after ATD. Others have in fact reported increased Tyr ratios after ATD (see Booij L, 2005) and we have never questioned these findings in studies using the ATD test formulations. The data reported by Carpenter LL, 1998 Booij L, 2005 demonstrate that the ATD test formulation does increase Tyr availability to the brain. In our opinion, this confirms the lack of specificity of the ATD formulation for serotonin. We now propose further that the Tyr and Phe contents of the ATD formulation of Young SN, 1985 should be decreased. The level of such a decrease should be determined in conjunction with our proposed lowering of the BCAA content. To prevent a decrease in Tyr availability to the brain after acute Trp loading (ATL), investigators will need to optimise the ATL formulation by titrating levels of Trp, Tyr and Phe along with those of BCAA.

      Regarding the control formulation, our point is that, while decreases in ratios of 30-40% may not influence behaviours such as mood and cognition in normal subjects, they may do so in subjects at risk, e.g. depressed patients, who already have a ~ 30% lower [Trp] and [Trp]/[CAA] ratio (Badawy AA, 2013). Thus, a low-dose ATD (25g) given to remitted depressed patients is associated with altered cognitive function, but not mood (Booij L, 2005; Haddad AD, 2009) and it was suggested (Booij L, 2005) that the cognitive changes observed are more sensitive markers of 5-HT function than symptoms, unless different mechanisms apply. We maintain our position that it is prudent to use a control formulation that exerts a zero effect on all ratios and this is best achieved by lowering the BCAA content from the usual 30% to 18%.

      Our suggestion of lowering the BCAA content of both the control and test formulations, which can, in addition to normalising the relevant ratios, minimise the effects of BCAA on behaviour, including cognitive function, is not without support. BCAA are nitrogen donors for the synthesis of glutamate and GABA and can thus influence cognition by modulating glutamatergic function (see references in Badawy AA, 2015). Enhanced cognition by BCAA in athletes has been widely reported. Dietary BCAA ameliorate injury-induced cognitive impairment (Cole JT, 2010). Young rightly states that food intake can also enhance memory and it is interesting in this regard that cognition is enhanced by a high protein meal, which has been attributed to increased levels of BCAA and Phe (Jakobsen LH, 2011). Objective cognitive function is variously influenced acutely by the balance between carbohydrate and protein within a few hours following food intake, with cognitive performance being enhanced by a high protein or a balanced meal, but not by a high carbohydrate meal (Fischer K, 2002). These latter authors also attributed this enhancement to changes in LNAA ratios almost certainly involving the release of BCAA from proteins. In our opinion, enhancing cognition by the BCAA in the ATD control and test formulations could impact mood changes and it is therefore desirable to minimise this confounder in ATD studies by lowering the BCAA content.

      We, and no doubt also Young, hope that our exchanges will stimulate the psychopharmacological research community to consider the various issues discussed in our comments in future studies.


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    4. On 2016 Feb 08, Simon Young commented:

      I thank Badawy and Dougherty for their comments. The main points of disagreement concern the specificity of the 100g ATD mixture, and whether the relevant control mixture might lower serotonin synthesis and therefore mood, cognition and behavior. The arguments that Badawy and Dougherty make on both points depend on the plasma ratio of the relevant amino acid precursors to the LNAA. They suggest that the 100g ATD mixture lowers dopamine synthesis, as the ratio of Tyr or Phe + Tyr to the LNAA, while varying greatly between different studies, declines by up to 60%. They do not comment on the study I cited in my original comment showing that CSF tyrosine remained unchanged for the first few hours after the amino acid mixture, but rose slightly between about 5 and 10 hours after the mixture Carpenter LL, 1998. CSF levels of the dopamine metabolite homovanillic acid (HVA) remained unchanged. Measurement of biogenic amine precursors and metabolites has been used to study human CNS metabolism for over 50 years, and while it is not a perfect method it is generally accepted as a valid method by the scientific community, as indicated by the huge number of articles using this technique in the literature. This raises the question why the conclusion from plasma amino acid ratios differs from the CSF study concerning the specificity of the 100g ATD mixture.

      The ratio of Trp or Tyr or Phe + Tyr to the LNAA is known to be only an approximation of the rate of transport of an amino acid across the blood-brain barrier, as it does not take into account the different affinities of the different amino acids for the transporter. This can be done for rats using a calculation based on Michaelis-Menten kinetics Smith QR, 1987, but it cannot be done for humans as the affinities of the different amino acids for the transporter in human brain are not know. Badawy and Dougherty point out that there is a correlation between CSF Trp and the plasma [Trp]/[LNAA] ratio. However, after ATD the Pearson’s correlation was r = 0.41 Moreno FA, 2010. R2 was 0.168, indicating that less than 20% of the variance in the plasma [Trp]/[LNAA] ratio is related to CSF Trp values. The inaccuracy of the plasma ratios as a measure of changes in brain amino acids explains why they suggest that the 100g ATD mixture causes a decline in brain tyrosine and dopamine synthesis, while the CSF measures indicate that this is not so. While the ratios of Trp, Tyr, or Phe + Tyr to the LNAA may be useful to demonstrate that ATD or APTD was effective in depleting precursor levels in any participant, where the effects are very large, these plasma measurements do not provide reliable information when the changes are smaller.

      Badawy and Dougherty suggest that the control mixture should have a lower level of the branched chain amino acids (BCAA) than the control mixture used with the 100g ATD mixture because (i) this will decrease the lowering of the [Trp]/[LNAA] ratio, and (ii) reducing the BCAA content “can also minimise the BCAA effects on cognition and hence potential modulation of behavioural outcomes”. While I am not aware of any evidence for BCAA influencing behavior in humans, I suggest that all control mixtures used in ATD studies are likely to alter cognition. Meals can enhance memory, and that includes meals of carbohydrate, fat and protein Kaplan RJ, 2001. If protein meals can enhance cognition then amino acid mixtures may also have this effect. In addition there may be changes in cognition, from baseline to 5 hrs after amino acid administration, related to other factors such as the participants’ diurnal rhythms Blatter K, 2007, possible stress related to participation in the study, and so on. The issue that is not whether there will be changes in cognition in the control participants, but whether factors that may alter cognition, other than tryptophan availability, are different in the control and ATD conditions. The BCAA in the 100g ATD mixture and the relevant control mixture are the same, and it is therefore an appropriate control mixture.

      The other main issue raised by Badawy and Dougherty concerns the lowering of the [Trp]/[LNAA] ratio in control mixtures. They mention a decline of 8% in this ratio with their recommended formulation and of around 40% with the control mixture for the 100g depletion mixture. On the other hand after ATD with the 100g mixture the decline in the [Trp]/[LNAA] ratio is well over 90% Predmore DB, 1976. As mentioned above, given that the [Trp]/[LNAA] ratio is a relatively poor index of tryptophan transport into brain, smaller changes in the ratio are not reliable. However, even if there were a decline in tryptophan availability for transport into brain of 40% would this alter serotonin function? Competition between the different amino acids for the transporter implies that the transporter is relatively close to saturation with amino acids. In this circumstance the actual change in transport of amino acids will be less than the change in plasma availability of the amino acids, as measured by plasma levels. Furthermore, tryptophan hydroxylase is about half saturated with tryptophan in human brain Young SN, 1981 so the decline in serotonin synthesis will be less than the decline in brain tryptophan. Will a relatively small decline in serotonin synthesis lead to a decrease in serotonin function? Little is known about this issue in human brain. However, for a decline in serotonin synthesis to alter serotonin function there must be a decline in serotonin release. This presumably implies a decrease in the serotonin content of vesicles. Another possibility is that a decline in synthesis leads to decreased catabolism of serotonin with no change in the vesicle serotonin content. Furthermore, given the presence of serotonin autoreceptors regulating, among other factors, the rate of firing of serotonin neurons, could a decrease in serotonin cause compensatory changes such an increase in neuronal firing? The factors mentioned above presumably explain why a very large decrease in plasma tryptophan availability is needed to see a lowering of mood Van der Does AJ, 2001, a change presumably mediated by lowered serotonin function. Thus, while the control mixture used with the original 100g ATD mixture probably does decrease the availability of tryptophan to the brain by a small extent, the decline is very much less than that needed to see a decline in mood. Furthermore, as pointed out in my first comment variations in tryptophan availability, as measured by the plasma ratio, vary over a 2-fold range under normal circumstances. Badawy and Dougherty provide no information demonstrating that the control mixture used with the original 100g ATD mixture causes any change, due to changes in serotonin function, in mood, behavioral or cognition. Badawy and Dougherty’s hypothesis could be tested by varying the tryptophan content of the control mixture to see if the original control mixture causes different outcomes in measures of mood, behavior or cognition, relative to a mixture that is identical except that it contains enough tryptophan to keep the [Trp]/[LNAA] ratio constant over time. I would be interested to see the results of such a study.

      In relation to side effects, Badawy and Dougherty mention again one of their studies where there were side effects, and attrition of women, with the 100g ATD mixture. However this is only one study. They do not mention the fact that others had no attrition in studies on women with the 100g ATD mixture, e.g. Yatham LN, 2001. To say that one mixture is significantly better than another as far as side effects or attrition is concerned this would have to be demonstrated using a direct comparison of the different mixtures in the same study. I would welcome such a study comparing the original 100g ATD mixture, and Badawy and Dougherty’s glycomacropeptide based mixture.

      In summary, I do not think the criticisms of Badawy and Dougherty are based on firm evidence.


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    5. On 2016 Jan 23, Abdulla A-B Badawy commented:

      Abdulla A-B Badawy and Donald M Dougherty We acknowledge Professor Young’s important contribution to this field and our recommendations regarding the use of amino acid mixtures are based on his formulation. We proposed lowering the branched-chain amino acid (BCAA) content by 40% (from 30% to 18%) to normalise the [Trp]/[CAA] and the [Tyr + Phe]/[BCAA + Trp] ratios in the control formulation, with appropriate deletions or additions for depletion and loading, on the basis of a review Badawy AA, 2010 of many studies demonstrating Trp depletion by the control formulation of Young SN, 1985 and our experiments with various concentrations of BCAA Badawy AA, 2010. The decrease in the [Trp]/[CAA] ratio by the control formulation led investigators to increase its Trp content from the usual 2.3g (per 100g) to 2.9, 3.1, 4.1 or 4.6g (referenced in Badawy AA, 2015). However, the Trp ratio is still decreased with the 3.1g addition and increased by the larger additions. Young argues this point by quoting data obtained with proteins rather than amino acid mixtures, and although his formulation is based on the composition of human milk, it is still an amino acid formulation. The use of a low ATD formulation dose (25g) as a conservative control may reduce type 1 error, but its BCAA content can influence cognitive behaviour and thus minimise the effect of the larger BCAA dose. Reducing the BCAA content not only normalises the Trp and Tyr ratios Badawy AA, 2010, but can also minimise the BCAA effects on cognition and hence potential modulation of behavioural outcomes. Regarding our criteria for an ideal formulation, we agree with Young that his is the only ATD method validated by CSF measurements. By “robust”, we meant biochemical and not behavioural or other parameters. In the study by Moreno FA, 2010 however, CSF [Trp] did not correlate with serum Trp, but rather with the [Trp]/[LNAA] ratio. No data on serum Tyr or Phe were provided and the sham control treatment lowered the [Trp]/[LNAA] ratio by 25% at 5h. In our study Badawy AA, 2010 the corresponding decrease with the same formulation was 36% at 5h and slightly stronger (40-45%) at earlier time intervals. By contrast, only an 8% decrease in the ratio is observed with our recommended formulation. <PMID: 19896342 > calculated the ratio based on amino acid concentrations in µg/ml rather than µM. Because Trp has the largest molecular mass among LNAA, their calculation will have exaggerated [Trp] and minimised [LNAA], thereby minimising the decrease in the ratio. Our “tolerable” side effects criterion applies to somatic bodily symptoms rather than mood or cognition and drop-outs in our study involved only females receiving the 100g formulation for ATD and ATL (acute Trp loading) Dougherty DM, 2008 .Ours is therefore the only study demonstrating that a 50g dose of the ATD or ATL formulation does not cause attrition. This female sensitivity has previously been reported Sobczak S, 2014 and many studies have demonstrated the impact of somatic symptoms on attrition Dougherty DM, 2008. As Young suggests, 5-HT receptors and bright light may be factors and these and other potential mediators clearly require investigation. We also agree with Young that other factors including interactions between participants and with research staff can impact behavioural outcomes. Our approach is specific for the biochemical effects of the formulations and has to be considered along with other strategies.<br> Finally, we should like to address the question of specificity of the Young SN, 1985 formulation for serotonin. From the data in Table 3 by Leyton M, 2000, the [Trp]/[LNAA], [Phe]/[LNAA], [Tyr]/[LNAA] and [Phe + Tyr]/[BCAA + Trp] ratios are decreased by the control (balanced) formulation at 5h by 41%, 40%, 29% and 38% respectively. Many other studies have reported decreases in control formulations in the [Trp]/[CAA] ratio of up to 61% and in the [Phe + Tyr]/[BCAA + Trp] ratio of 40-60% (see Badawy AA, 2010). Thus, more studies have demonstrated decreases in the above ratios, compared to the 3 quoted by Young demonstrating no change. A recent ATD and ATPD (acute Tyr and Phe depletion) study Hildebrand P, 2015 in which the content of BCAA was 21.8% (closer to our recommended 18% than the traditional 30% of Young SN, 1985) showed that the control formulation did not alter the [Trp]/[CAA] ratio. Thus, until we establish why ratios are decreased in some, but not other, studies, it is prudent to aim for accuracy and ensure that ratios are not altered by a supposedly balanced control formulation. In subjects with normal but borderline ratios, a 30-40% decrease in ratios may tilt the balance to a state of depletion sufficiently to influence behavioural measures and their quantification in test subjects. In the study by Hildebrand P, 2015, the amino acid mixture was administered based on body wt: a further important aspect of standardization of the methodology. The control formulation for ATD and ATPD used by these latter authors included only 8 amino acids (instead of the 15 used by Young), which were the 3 BCAA plus Trp, Phe, Met, Threo and Lys. This control formulation with a Phe content of 9.24 g/70 kg, (compared with 5.7g in the <PMID: 3931142 > formulation) decreased the Tyr ratio by ~36% at 5h, thus illustrating the ability of Phe loading to decrease Tyr availability to the brain. This is one potential mechanism of the defective catecholamine synthesis in phenylketonuria (PKU). We do not doubt the low cerebral activity of Phe hydroxylase in PKU, although rates could be as high as 15-18% of those in controls van Spronsen FJ, 1998. We merely suggested an additional mechanism of decreased catecholamine synthesis, that of possible inhibition of cerebral Tyr hydroxylase (TH) by any excess Tyr that could be formed from Phe by TH. Human recombinant TH exhibits an equal Vmax for Tyr and Phe, but its Km for Phe is 8-fold higher than for Tyr Martínez A, 1993. Compared with controls, PKU patients exhibit a 6.4- and 4.6-fold higher plasma and CSF [Phe] respectively, a 1.8-fold lower plasma, but a 2.3-fold higher CSF, [Tyr] Ratzmann GW, 1984. Thus, whereas the plasma to CSF ratio of Phe in PKU resembles that of controls, the corresponding ratio for Tyr is significantly lower in PKU. The authors suggested that this may result from intracellular changes in brain metabolism and we suggest that Phe hydroxylation by TH may be responsible for this relative CSF Tyr elevation. Inhibition of catecholamine synthesis in PKU could therefore also result from substrate inhibition of TH by the likely excess of Tyr formed from Phe as suggested by us and indeed, as suggested by Young, by Phe inhibition of TH.


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    6. On 2016 Jan 10, Simon Young commented:

      Badawy and Dougherty raise a number of important points in this paper, but there are number of issues that need discussion.

      1. The authors suggest that the original 100g amino acid mixture used for acute tryptophan depletion (ATD), which remains the most commonly used mixture in ATD studies, lacks specificity and causes a lowering of dopamine and possibly norepinephrine. The authors say the 100g mixture lacks specificity because the mixture causes a decrease in the plasma [Phe + Tyr]/[CAA] ratio (an index of the transport of the catecholamine precursors into brain) thereby decreasing Tyr availability to the brain. However, they neglect to mention a study that investigated this issue through measurements on cerebrospinal fluid (CSF). Samples of CSF were taken before and after healthy volunteers received the 100g tryptophan-deficient amino acid mixture Carpenter LL, 1998. CSF tyrosine remained unchanged for the first few hours after the amino acid mixture, but rose slightly between about 5 and 10 hours after the mixture. CSF levels of the dopamine metabolite homovanillic acid (HVA) remained unchanged. Why do tyrosine and HVA not decline if the [Phe + Tyr]/[CAA] ratio decreases? Rat brain tyrosine hydroxylase can hydroxylate both phenylalanine and tyrosine, but it is not known whether this is true for the human brain enzyme. However, results from patients with phenylketonuria (PKU), who have very high phenylalanine levels, suggest that the activity of the human brain enzyme towards phenylalanine is not functionally significant. Thus, untreated PKU patients with phenylketonuria have low CSF tyrosine and HVA levels. When patients are treated with a low phenylalanine diet, or with tyrosine, CSF HVA levels increase Lykkelund C, 1988 Lou HC, 1985. Thus, the appropriate ratio to use as an index of tyrosine availability for catecholamine synthesis is [Tyr]/[CAA]. Badawy has stated that [Tyr]/[CAA] declines in a similar way to [Phe + Tyr]/[CAA] after ATD Badawy AA, 2013. However, others have reported that the control and tryptophan-depleted amino acid mixture cause the [Tyr]/[CAA] ratio to decrease slightly Leyton M, 2000, or not at all Golightly KL, 2001. These latter results are consistent with the CSF studies mentioned above. Although the conclusion is not definitive, the results available at this time suggest that the original 100g amino acid mixture does not decrease catecholamine synthesis and there is no convincing evidence it lacks specificity. Thus, there is no need to decrease the CAA in the 100g formula.

      2. The authors suggest that the control mixture (the 100g ATD mixture plus 2.3g tryptophan) is inappropriate because it lowers the plasma [Trp/CAA] ratio. A study in which healthy participants were fed diets containing different levels of protein, and their blood was taken during the course of a day, demonstrated that the plasma [Trp/CAA] ratio varies over a two-fold range depending on the protein content of the meals and diurnal variation Fernstrom JD, 1979. The original ATD control mixture is based on the amino acid profile in human milk, so its effects would not be unphysiological to any important extent Young SN, 2013. There is a big separation between the effect of the control and depleting amino acid mixtures, as the level of CSF tryptophan after the depletion mixture is only 16.3% of the level after the control mixture Moreno FA, 2010. Some studies have used a 25g ATD mixture as a control for the 100g ATD mixture and no mood changes were seen after the control treatment e.g. Booij L, 2005. Thus, using a control mixture that causes a small decline in the [Trp/CAA] ratio does not seem to be a problem and, being a conservative control, may decrease the chance of a type I error.

      3. The paper suggests various criteria for the ideal amino acid depletion and loading formulations. One of these is “Robust and reproducible changes in the study parameters”. Presumably the “study parameters” refer to biochemical changes rather than changes in mood, cognition or other outcomes. The main parameters the paper refers to are changes in plasma levels of amino acids, and in particular ratios such as [Trp/CAA]. The [Trp/CAA] is a rough index of the uptake of Trp into brain, which will be rough index of the brain tryptophan level, which is only one of several factors that regulates brain serotonin synthesis. A more valid method to obtain information is to look at measures related more directly to brain tryptophan levels and brain serotonin synthesis. An index of these can be obtained by the measurement of tryptophan and 5-HIAA in CSF. The original 100g ATD mixture has been shown to decrease human brain tryptophan and serotonin synthesis in 5 studies using measurements on CSF Carpenter LL, 1998, Moreno FA, 2000, Moreno FA, 2010, Salomon RM, 2003, Williams WA, 1999, and to decrease human brain serotonin synthesis in one study using a positron emission tomography method Nishizawa S, 1997. Currently no other method for ATD has been validated in this way. Another criterion is “Freedom from, or acceptable (tolerable), side effects not leading to attrition”. In discussing this issue the authors fail to mention two important issues. First, serotonin receptors in the gut and brain are involved in nausea and emesis Hasler WL, 1999. Second, bright light, relative to dim light, decreases side effects after ATD aan het Rot M, 2008. This suggests that central changes may be partly responsible for nausea, and that a greater lowering of serotonin, which may be more likely to reveal effects of ATD on mood, behavior or cognition, may also be more likely to induce nausea. Furthermore, there is currently no direct comparison of the 100g mixture with any alternative mixture, so direct evidence that the 100g mixture causes greater side effects is lacking.

      4. Standardizing the amino acid formulation for ATD is only one factor that will help to increase the comparability of research reported in different studies. Some important factors have not always been controlled, while others cannot be controlled across studies. For example, the expectations that participants will have, that might influence their responses, could be influenced by the wording of the consent form and the demeanor and empathy of the person interacting with the participants. Other factors can be controlled. For example, bright light can reverse mood effects of ATD aan het Rot M, 2008 so studies should not be carried out in rooms with windows that can let in sunlight, and the light level should be standardized at a particular level. I suggest 200-300 lux. Between taking the amino acid mixture and being tested there is a period of several hours. If the participants are allowed to interact with others during this period this may influence their mood. For most people agreeable interactions are associated with better mood and quarrelsome interactions are associated with worse mood Côté S, 1998. Therefore interactions between research participants and research staff should be minimized. This can be done by keeping research participants by themselves in a room, and minimizing their interactions with research staff, while giving them access to relatively affectively neutral reading material and movies to avoid boredom between giving them the amino acid mixtures and testing. This has been done in my laboratory, e.g. Benkelfat C, 1994, and I suggest that this should also be standard practice in ATD studies.

      In conclusion, the original ATD mixture is the only mixture that has been shown to lower serotonin synthesis in human brain, and criticisms of the method are not well supported. Currently it remains the best candidate for a standard mixture to use in ATD studies, although future studies may change this conclusion.


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    1. On 2015 Jan 15, William Grant commented:

      Vitamin D may explain some of the effect of night shift work and risk of diabetes among African-American women

      The paper by Vimalananda and colleagues found that "Long duration of shift work was associated with an increased risk of type 2 diabetes. The association was only partially explained by lifestyle factors and BMI. A better understanding of the mechanisms by which shift work may affect the risk of diabetes is needed in view of the high prevalence of shift work among workers in the USA." [1] In this comment, I outline the evidence that low 25-hydroxyvitamin D [25(OH)D] concentrations due to sleeping during daytime may explain some of the observed effect.

      There is evidence from observational studies that low 25(OH)D concentrations are associated with increased risk of diabetes mellitus type 2 [2]. The mechanisms that may explain how vitamin D reduces risk include effects on pancreatic beta cell dysfunction, impaired insulin action and systemic inflammation [3].

      Solar UVB exposure is the largest contributing factor to vitamin D production. Those with darker skin produce vitamin D from UVB exposure less efficiently than those with pale skin. As a result, black Americans have significantly lower mean 25(OH)D concentrations than white Americans [4]. This difference has been cited as an important reason for black-white health disparities in the United States [5]. The effect of shift work on risk of diabetes was also discussed in a recent letter to the editor [6].

      Thus, raising 25(OH)D concentrations to above 75-100 nmol/L (30-40 ng/mL) may reduce the risk of developing diabetes mellitus type 2 [2] as well as many other adverse health outcomes [8].

      References 1. Vimalananda VG, Palmer JR, Gerlovin H, Wise LA, Rosenzweig JL, Rosenberg L, Ruiz Narváez EA. Night-shift work and incident diabetes among African-American women. Diabetologia. 2015 Jan 14. [Epub ahead of print] 2. Song Y, Wang L, Pittas AG, Del Gobbo LC, Zhang C, Manson JE, Hu FB. Blood 25-hydroxy vitamin D levels and incident type 2 diabetes: a meta-analysis of prospective studies. Diabetes Care. 2013;36(5):1422-8. 3. Mitri J, Pittas AG. Vitamin D and diabetes. Endocrinol Metab Clin North Am. 2014;43(1):205-32. 4. Ginde AA, Liu MC, Camargo CA Jr. Demographic differences and trends of vitamin D insufficiency in the US population, 1988-2004. Arch Intern Med. 2009;169(6):626-32. 5. Grant WB, Peiris AN. Possible role of serum 25-hydroxyvitamin D in Black–White health disparities in the United States. J Am Med Directors Assoc. 2010;11(9):617-28. 6. Grant WB. Low vitamin D concentrations may contribute to the increased risk of diabetes mellitus related to shift work. Occupat Environ Med. 2015;72:161. 8. Pludowski P, Holick MF, Pilz S, Wagner CL, Hollis BW, Grant WB, Shoenfeld Y, Lerchbaum E, Llewellyn DJ, Kienreich K, Soni M. Vitamin D effects on musculoskeletal health, immunity, autoimmunity, cardiovascular disease, cancer, fertility, pregnancy, dementia and mortality- a review of recent evidence. Autoimmun Rev. 2013;12(10):976-89.

      Disclosure I receive funding from Bio-Tech Pharmacal (Fayetteville, AR) and MediSun Technology (Highland Park, IL).


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    1. On 2015 Jun 18, NephJC - Nephrology Journal Club commented:

      This study, along with another study in the same area, was discussed on May 27th and June 3rd 2015 in the open online nephrology journal club, #NephJC, on twitter.

      Introductory comments are available at the NephJC website. The discussion was quite animated, with more than 50 participants, including nephrologists, fellows and residents.

      A transcript and a curated (i.e. Storified) version of the tweetchat are available at the NephJC website.

      The highlights of the tweetchat were:

      • The participants thought true diuretic resistance requires higher doses and correct combinations of diuretics (e.g. furosemide, metolazone and spironolactone), and were hence not convinced with the data presented. Similar concerns were expressed about the severity of heart failure, and the low rate of device usage (e.g. defibrillators)

      • Given the negative outcomes from a similar trial with ultrafiltration, CARESS-HF, the discussants were not impressed with the hypothetical increased sodium removal compared with diuresis.

      • However, there was unanimity that peritoneal dialysis is a promising approach, and that this should be tested in a properly designed randomized trial. There was much discussion around possible inclusion criteria, comparators (standard care or left ventricular assist devices) and feasibility of arranging peritoneal dialysis. One such trial is already underway in UK and those results will be keenly followed.

      Interested individuals can track and join in the conversation by following @NephJC or #NephJC, or visit the webpage at NephJC.com.


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    1. On 2015 Jan 15, William Grant commented:

      Differences in 25-hydroxyvitamin D concentrations may explain Much of the black-white-Hispanic differences in breast cancer-specific survival in the United States

      In the paper by Iqbal and colleagues, it was found that black women had higher probability of small-sized breast cancer tumors presenting with distant metastases than whites, as well as the highest proportion of triple-negative breast cancers [1]. Black women also had the highest hazard ratio for death for women with stage I breast cancer and tumors less than 2.0 cm in diameter, with Hispanic women having hazard ratios intermediate between those for blacks or whites. The conclusion, "Much of the difference could be statistically accounted for by intrinsic biological differences such as lymph node metastasis, distant metastasis, and triple-negative behavior of tumors." overlooked the fact that there might be explanations for these "intrinsic differences". In this comment, I outline the evidence that differences in 25-hydroxyvitamin D [25(OH)D] concentrations explain much of the findings.

      First, there is strong evidence from geographical ecological studies that breast cancer mortality rates are inversely correlated with solar UVB doses [2]. Solar UVB is the primary source of vitamin D for most people. Since those with darker skin make vitamin D less efficiently than those with lighter skin, in the U.S., whites have the highest mean 25(OH)D concentrations, Hispanics intermediate concentrations, and blacks the lowest concentrations [3]. It was noted that these differences seem to explain the black-white cancer-specific and all-cause differences in survival after diagnosis of 13 types of cancer including breast cancer after consideration of socioeconomic status, stage at diagnosis, and treatment [4]. A recent review also found that higher 25(OH)D concentrations were significantly inversely correlated with breast cancer survival [5]. There is also strong evidence from case-control studies that breast cancer incidence is inversely correlated with 25(OH)D concentration [6, 7]. It is pointed out in that paper that nested case-control studies do not find significant inverse correlations because breast cancer tumors develop so rapidly that 25(OHD from blood drawn at the time of enrollment loses relevance as time increases.

      Second, some of the findings noted in Ref. 1 are related to 25(OH)D concentrations. Those diagnosed with triple-negative breast cancer have been found to have lower 25(OH)D concentrations [8-10] and the actions of vitamin D on triple-negative breast cancer have been modeled [11].

      While more research is required to fully understand the role of UVB and vitamin D in reducing risk of breast cancer and increasing survival after diagnosis, there is enough support for the role of vitamin D related to breast cancer that women who want reduce their risk of developing breast cancer and increase their chance of surviving after diagnosis should be advised to increase their 25(OH)D concentrations to above 75-100 nmol/L, which could take 1000-4000 IU/d vitamin D3 (cholecalciferol) in the absence of adequate UVB exposure [12]. Doing so would also have benefits for many other health outcomes [12].

      References 1. Iqbal J, Ginsburg O, Rochon PA, Sun P, Narod SA. Differences in breast cancer stage at diagnosis and cancer-specific survival by race and ethnicity in the United States. JAMA. 2015;313(2):165-173. 2. Moukayed M, Grant WB. Molecular link between vitamin D and cancer prevention. Nutrients. 2013;5(10):3993-4023. 3. Ginde AA, Liu MC, Camargo CA Jr. Demographic differences and trends of vitamin D insufficiency in the US population, 1988-2004. Arch Intern Med. 2009;169(6):626-32. 4. Grant WB, Peiris AN. Differences in vitamin D status may account for unexplained disparities in cancer survival rates between African and White Americans. Dermatoendocrinol. 2012;4(2):85-94. 5. Mohr SB, Gorham ED, Kim J, Hofflich H, Garland CF. Meta-analysis of vitamin D sufficiency for improving survival of patients with breast cancer. Anticancer Res. 2014;34(3):1163-6. 6. Grant WB. 25-Hydroxyvitamin D and breast cancer, colorectal cancer, and colorectal adenomas: case–control versus nested case–control studies, Anticancer Res. 2015 Feb;35(2):in press. 7. Grant WB. Effect of interval between serum draw and follow-up period on relative risk of cancer incidence with respect to 25-hydroxyvitamin D level; implications for meta-analyses and setting vitamin D guidelines. Dermatoendocrinol. 2011;3(3):199-204. 8. Rainville C, Khan Y, Tisman G. Triple negative breast cancer patients presenting with low serum vitamin D levels: a case series. Cases J. 2009;2:8390. 9. Peppone LJ, Rickles AS, Janelsins MC, Insalaco MR, Skinner KA. The association between breast cancer prognostic indicators and serum 25-OH vitamin D levels. Ann Surg Oncol. 2012;19(8):2590-9. 10. Yao S, Ambrosone CB. Associations between vitamin D deficiency and risk of aggressive breast cancer in African-American women. J Steroid Biochem Mol Biol. 2013 Jul;136:337-41. 11. LaPorta E, Welsh J. Modeling vitamin D actions in triple negative/basal-like breast cancer. J Steroid Biochem Mol Biol. 2014;144 Pt A:65-73. 12. Pludowski P, Holick MF, Pilz S, Wagner CL, Hollis BW, Grant WB, Shoenfeld Y, Lerchbaum E, Llewellyn DJ, Kienreich K, Soni M. Vitamin D effects on musculoskeletal health, immunity, autoimmunity, cardiovascular disease, cancer, fertility, pregnancy, dementia and mortality- a review of recent evidence. Autoimmun Rev. 2013;12(10):976-89.

      Disclosure I receive funding from Bio-Tech Pharmacal (Fayetteville, AR) and MediSun Technology (Highland Park, IL).


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    1. On 2017 Feb 06, Ryan Armstrong commented:

      I would like to invite the authors to comment on a very critical misstep in their concluding remarks. When comparing the efficacy of two groups/treatments, by failing to reject the null hypothesis it is not acceptable to then accept it. In this case, the authors methodology fails to determine a difference between oil pulling and chorhexidine, but they go on to claim that they are equally efficacious.

      If this critical (and misleading) error is not corrected, I would suggest removal of the article and more stringent scrutiny applied to the publisher (who I have contacted some time ago).


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    1. On 2015 Apr 22, Stuart RAY commented:

      Regarding HCV the authors of this review state, "During pregnancy, pregnant women should be seen regularly by a gastroenterologist to monitor liver biochemical tests and viral load." No citation for this recommendation is cited, and I don't think it's part of the consensus guidelines http://hcvguidelines.org. It seems sensible to monitor liver enzymes for a variety or reason; in contrast, the utility of monitoring HCV RNA levels during pregnancy is dubious. Women with HIV and a high HCV RNA level are at higher risk of transmitting to the child, but it's not clear how monitoring HCV RNA level ("viral load") will have any impact on medical care. Monitoring of HCV RNA levels is only recommended immediately before, during, and shortly after HCV treatment - a different topic.

      If there is a sound basis for the authors' recommendation to monitor HCV RNA levels ("viral load") during pregnancy, please provide it.


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    1. On 2015 Jul 10, David Keller commented:

      "Natural" skin products made from organic castor bean oil may be no safer than petroleum jelly

      Castor bean oil shares many properties with petroleum jelly (petrolatum), including the ability to form a stable oily shield on dry,burned or injured skin. Unlike petrolatum, castor bean oil does not contain traces of hydrocarbons of the type associated with harm to Parkinson's patients. However, castor beans contain ricin, a highly neuro-toxic, naturally occurring lectin. A dose of purified ricin powder the size of a few grains of table salt can kill an adult human (1). Castor beans must be heated and cooked in order to extract the oil, and this heating is also relied upon to denature the ricin in the beans, allegedly making it harmless.

      Skin products which contain improperly distilled petrolatum may be contaminated with toxic hydrocarbons; "organic and all-natural" products made from improperly extracted castor bean oil may contain traces of neurotoxic ricin. Thousands of cosmetics, prescription skin medications and over-the-counter creams and ointments contain petrolatum or castor oil. One hopes that the FDA is inspecting the production facilities rigorously.

      Reference:

      1: Homeland Security News, Frequently Asked Questions about Ricin. Accessed 7/10/2015. http://www.nationalterroralert.com/ricin/


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    2. On 2015 Jan 19, David Keller commented:

      Petroleum jelly can be contaminated with polycyclic aromatic hydrocarbons; what risks are posed?

      Petrolatum (also called petroleum jelly) is commonly applied to the skin as an emollient to treat dryness, chapping, sunburn, mild thermal burns, and "diaper rash" in babies. It is also used as a vehicle for topical ointments and cosmetics. Mineral oil, a related product also known as liquid petrolatum, is actually ingested as a laxative. Both of these preparations start out containing polycyclic aromatic hydrocarbons (PAHs), which must be refined out by distillation. PAHs have been found to be carcinogenic in vitro and, for this reason, the European Union has classified petrolatum as a carcinogen; it can only be sold if its full refining history is known to be satisfactory.

      To what degree do PAHs and other hydrocarbon contaminants or constituents of petrolatum cross the skin to enter the bloodstream, and then cross the blood-brain barrier? Does exposure to these hydrocarbons increase the risk of Parkinson's disease? Until their safety is tested, petrolatum, mineral oil and products containing them should be avoided, and replaced with products made from vegetable oils, fats and waxes.


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    1. On 2015 Mar 16, Donald Forsdyke commented:

      INTRONS FIRST. The author points out that, for the human genome, Chargaff's second parity rule (PR2) remains significant for oligonucleotides extending to 9 nt and concludes that "the phenomenon must be non-random." Furthermore, he adds:

      "At present, what is important is to unravel the origin of strand symmetry, which would contribute greatly to the study of the origin and evolution of genomes. First and foremost, it is necessary, also possible, to figure out whether the phenomenon is a result of convergence of genome evolution (Albrecht-Buehler, 2006; Fickett et al., 1992; Forsdyke and Bell, 2004; Lobry and Lobry, 1999) or, on the contrary, an original trait (vestige) of the primordial genome (Zhang and Huang, 2008, 2010; Zhang et al., 2013). If strand symmetry emerged by means of direct selection, the structural feature would be functional since its appearance. Otherwise, the structural feature would not necessarily be functional, or would be exploited to have a function, if any."

      It is incorrect to list Forsdyke and Bell as supporters of the "convergence" hypothesis. As elaborated in 2013 Biological Theory 7: 196-203 ("Introns first"), Forsdyke holds PR2 to be an original trait related to the role of nucleic acid structure in the correction of errors by recombination. Thus, the trait has been functional since its appearance. Indeed, the primordial genome - one long "intron" - could not have existed without it. For more on this see Evolutionary Bioinformatics (2011, Springer, New York).


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    1. On 2015 Apr 15, Ann Z Bauer commented:

      We commend Frisch and Simonsen on their high quality prospective cohort analysis on ritual circumcision and the risk of autism spectrum disorder (ASD) in young boys. As the authors acknowledge, and we are pleased to see, our ecologic analysis was part of the motivation behind the performance of this study. The finding in this cohort of 342,877 boys born between 1994 and 2003, that circumcised boys were more likely than intact boys to develop ASD before age 10 (HR=1.46, 95% CI: 1.11 -1.93) concurs with our study findings.Bauer AZ, 2013 It is, however, important to note that in our study we did not focus on the psychological consequences of the circumcision procedure as the causal ASD mechanism, rather we were using circumcision exposure as a proxy for the potential paracetamol (APAP, acetaminophen) exposure that may occur with the procedure. Our study aim was to explore at a population level the hypothesis of a relationship between paracetamol exposure and ASD. The authors of this study did point out that they did not have the individual data to explore this but in light of temporal rationale and new research we believe that confounding by paracetamol exposure is a plausible explanation for the observed associations and should be part of the discussion of these findings.

      Temporal Rationale: The origins of circumcision predate recorded history, yet autism is considered a relatively new phenomenon, first recognized in 1943 and escalating in incidence, beginning in the 1980’s. History CDC.gov Volkmar FR, 2014 Assuming a significant portion of the recent increase in autism incidence is real, and not strictly a function of greater recognition, something about circumcision would have to have changed during this time period for it to be a significant causal factor in autism. It is difficult to contend that the psychological stress and physical pain related to circumcision has only occurred during the past 35 years. It can, however, be demonstrated that the techniques to manage this pain and stress have changed during this time period. Research beginning in the 1980’s documented the negative consequences associated with inadequate treatment of pain in children. Anand KJ, 1987 Mather L, 1983 Schechter NL, 2008 Prior to the 1990’s many procedures, including circumcision, were generally performed without analgesics. A 1994 study by Howard et al. found that when paracetamol was given regularly for at least the first 24-hour circumcision postoperative period, infants demonstrated decreased response to pain. Howard CR, 1994 This lead to the development of circumcision pain management guidelines by the American Academy of Pediatrics in 1999 suggesting procedures including the use of paracetamol. Anonymous, 1999 The International Evidence Based Group for Neonatal Pain, which included Danish researchers, published their consensus statement on newborn pain management in 2001. This statement suggests the use of paracetamol for postoperative pain including circumcision. Anand KJ, 2001 A perplexing finding in this Frisch and Simonsen Danish study is a statistically significant association between circumcision and the development of autism in the cohort of boys ages 0-4 (hazard ratio (HR)= 1.80, 95% CI 1.25-2.60) while only a very weak association for the boys ages 5-9 (HR=1.15, 95% CI 0.75-1.77). This finding can be explained by the paracetamol hypothesis. The boys that were 5-9 years of age would have been born in 1999 or prior and, based on the timing of guideline development, would likely not have been exposed to paracetamol with the procedure, while the younger boys would likely have received analgesia.

      Paracetamol Research: Three prospective cohort studies have found an association between prenatal exposure to paracetamol and adverse neurodevelopment. Brandlistuen RE, 2013 Liew Z, 2014 Thompson JM, 2014 In addition, recent animal data has shown that cognition and behavior may be altered following exposure to therapeutic doses of paracetamol during early development. A recent review by de Fays et al. summaries these finding. de Fays L, 2015

      To date, most neurodevelopmental research has focused on prenatal exposure. These findings by Frisch and Simonsen and research identifying time sensitive developmental periods surrounding birth suggest the potential importance of neonate exposure. Wang SS, 2014 Although the evidence presented here is far from conclusive, paracetamol administered along with the circumcision procedure is a plausible causal mechanism for ASD that should not be dismissed and is deserving of further investigation.


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    1. On 2015 Jan 13, Dale D O Martin commented:

      Take note that N-myristoylation only occurs on N-terminal glycines, hence the N- in N-myristoylation. It occurs following the removal of the N-terminal methionine co-translationally. The only examples of 'internal' myristoylation is in proteins that have been cleaved by caspases to expose new N-terminal glycines. This protein is unlikely to be myristoylated.


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    1. On 2015 Feb 27, David Keller commented:

      Proposed techniques to preserve blinding in a randomized trial of ethanol capsules versus water

      In reply to my letter [1], Dr. Huang writes: "We agree that a large prospective randomized controlled trial will be the most valuable path to evaluate the effects of alcohol on all-cause mortality and cardiovascular health."[2] I agree; there is voluminous epidemiological and observational evidence that mild to moderate ingestion of ethanol has benefits on cardiovascular and all-cause mortality in various populations. What we need now is a randomized interventional trial to confirm and quantify the benefits and the risks of low-dose ethanol, so that physicians can prescribe ethanol to appropriate patients with confidence.

      The design of such a trial will be crucial. Dr. Huang wrote: "we are skeptical concerning the use of ethanol capsules. The blindness of the study design would not be guaranteed because the patients in the treatment arm may experience psychotic, cutaneous, or other effects."

      I request clarification: what does Dr. Huang mean by "psychotic" effects? Psychosis is described among heavy abusers of ethanol, in both the intoxicated and the withdrawal states. However, the ingestion of mild to moderate doses of ethanol does not normally cause any form of psychosis or of hallucinations. Patients with any history of ethanol abuse would be excluded from a randomized trial.

      Unpleasant cutaneous flushing is caused when persons with a genetic deficiency of alcohol dehydrogenase, or a mutated allele of this gene, ingest even small amounts of ethanol.[3] This reaction generally causes these persons to avoid ethanol ingestion, and they should be excluded from a randomized trial.

      If there are no other objections to a randomized trial of ethanol, then I would like to propose a toast to its safe and successful completion. Cheers!

      References

      [1] Keller DL. Ethanol should be subjected to a randomized controlled trial. Mayo Clin Proc. 2015 Jan;90(1):160. doi: 10.1016/j.mayocp.2014.10.013. PubMed PMID:25572202.

      [2] Huang C, He QQ. In reply—Ethanol should be subjected to a randomized controlled trial. Mayo Clin Proc. 2015 Jan;90(1):161. doi: 10.1016/j.mayocp.2014.10.012. PubMed PMID: 25572204.

      [3] Holmes MV, et al.; InterAct Consortium. Association between alcohol and cardiovascular disease: Mendelian randomisation analysis based on individual participant data. BMJ. 2014 Jul 10;349:g4164. doi: 10.1136/bmj.g4164. PubMed PMID: 25011450; PubMed Central PMCID: PMC4091648.


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    1. On 2015 Feb 21, Jon Ebbert commented:

      This article can really help the "messaging" you give to patients in clinic.


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    1. On 2015 Jul 13, CREBP Journal Club commented:

      This study concluded that well conducted ecological and cohort studies in multiple settings were the most appropriate study design to quantify and monitor overdiagnosis in cancer screening programs. Establishment of a team of multinational, unbiased researchers working on internationally agreed standards for ecological and cohort studies was recommended.

      The journal club agreed that cohort studies, when conducted in a methodologically sound manner, had a high potential for accurately estimating and monitoring overdiagnosis over time by providing a more “real world” view of overdiagnosis. However, we did not quite agree that it was the best approach as RCTs are known to have the least bias and a high strength of evidence compared to cohort and ecological studies. As the authors of this study have highlighted, we agree that results of the RCTs may lack generalizability due to limited external validity. Therefore we suggest that estimates from both these study designs should be used in conjunction to provide a more accurate as well as generalizable estimate of overdiagnosis in cancer screening programmes.

      This review is unique in being the first study which systematically reviews different study methodologies that have been used to estimate overdiagnosis in cancer screening. Thus, we suggest that this may provide the background upon which similar studies could be conducted to estimate overdiagnosis occurring in other chronic disease screening programmes as well.

      See CREBP Journal Club for more information


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    2. On 2015 Feb 08, Arnaud Chiolero MD PhD commented:

      A very useful review. Look also to papers by Etzioni to have another perspective on the quantification of overdiagnosis (Ann Inter Med 2013).


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    1. On 2015 Jan 09, William Grant commented:

      Differences in vitamin D status may help explain the black-white disparities in breast cancer survival rates

      The paper by Coughlin discussed some of the reasons for black-white disparities in breast cancer survival [1]. Overlooked in that discussion was any mention of the role of vitamin D from solar UVB exposure and oral vitamin D intake in reducing breast cancer risk and increasing survival rates. Geographical ecological studies in the U.S. and elsewhere have found significant inverse correlations between solar UVB indices and incidence and/or mortality rates of breast cancer [2, 3] as well as many other types of cancer [3]. An important reason why black women in the U.S. have a greater risk of dying from breast cancer is that due to darker skin pigmentation, they have 25-hydroxyvitamin D [25(OH)D] concentrations about 40% lower than white women [4]. In a review of black-white disparities in cancer survival rates for 13 types of cancer, it was found that after consideration of socioeconomic status, stage at diagnosis, and treatment, blacks an average of 25% (0% to 50+%) increased relative risk of dying after diagnosis of cancer than did whites [5]. There are many other health outcomes for which blacks have poorer outcomes than whites, including cardiovascular disease and diabetes mellitus [6]. Both of these diseases have been linked to low 25(OH)D concentrations in observational studies [7,8]. Thus, any intervention programs for addressing breast cancer disparities among African American women should consider including information about the health benefits of solar UVB exposure and vitamin D supplementation to increase 25(OH)D concentrations to above 30-40 ng/mL [9].

      References 1. Coughlin SS. Intervention approaches for addressing breast cancer disparities among African American women. Ann Transl Med Epidemiol. 2014 Sep 8;1(1). pii: 1001. 2. Grant WB. Lower vitamin-D production from solar ultraviolet-B irradiance may explain some differences in cancer survival rates. J Natl Med Assoc. 2006;98(3):357-64. 3. Moukayed M, Grant WB. Molecular link between vitamin D and cancer prevention. Nutrients. 2013;5(10):3993-4023. 4. Ginde AA, Liu MC, Camargo CA Jr. Demographic differences and trends of vitamin D insufficiency in the US population, 1988-2004. Arch Intern Med. 2009;169(6):626-32. 5. Grant WB, Peiris AN. Differences in vitamin D status may account for unexplained disparities in cancer survival rates between African and White Americans. Dermatoendocrinol. 2012;4(2):85-94. 6. Grant WB, Peiris AN. Possible role of serum 25-hydroxyvitamin D in Black–White health disparities in the United States. J Am Med Directors Assoc. 2010;11(9):617-28. 7. Wang L, Song Y, Manson JE, et al. Circulating 25-hydroxy-vitamin D and risk of cardiovascular disease: A meta-analysis of prospective studies. Circ Cardiovasc Qual Outcomes. 2012;5(6):819-29. 8. Song Y, Wang L, Pittas AG, et al. Blood 25-hydroxy vitamin D levels and incident type 2 diabetes: a meta-analysis of prospective studies. Diabetes Care. 2013;36(5):1422-8. 9. Holick MF, Binkley NC, Bischoff-Ferrari HA, et al. Evaluation, treatment, and prevention of vitamin D deficiency: an Endocrine Society Clinical Practice Guideline. J Clin Endocrinol Metab, 2011;96(7):1911-30.

      Disclosure I receive funding from Bio-Tech Pharmacal (Fayetteville, AR) and MediSun Technology (Highland Park, IL).


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    1. On 2015 Apr 18, Dorothy V M Bishop commented:

      This is an impressive paper in terms of sample size for those with aneuploidies, and the results are intriguing and important. It is particularly surprising that the asymmetries in the XXY group look so normal, when –as the authors point out - the one functional study on this group found strikingly reduced functional asymmetry in the Superior Temporal Gyrus (van Rijn et al, 2008). As the authors note, the links between functional and structural asymmetries are far from clear, and this study provides further motivation for doing studies that contrast the two.

      I have just one niggling criticism, which is that the authors cite Sun et al as evidence for early asymmetric gene expression in humans. I don't think that the data from Sun et al support their conclusions, and I've explained why in a comment on PubMed Commons. http://www.ncbi.nlm.nih.gov/pubmed?term=Early asymmetry of gene transcription in embryonic human left and right cerebral cortex


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    1. On 2016 May 23, Clive Bates commented:

      Robert Jackler assumes a priori that attracting adolescents to vaping through flavour descriptors is a bad thing. Saul Shiffman provides a compelling defence of their study showing that teenage interest in flavours was low and this should not concern us much. But this framing may be an over-simplification.

      E-cigarette appeal may be good for health

      What if the rise in e-cigarette use among adolescents is displacing tobacco smoking, and that this effect accounts for the rapid fall in teenage smoking measured in both the NYTS survey: Tobacco Use Among Middle and High School Students — United States, 2011–2014 and the University of Michigan Monitoring the Future survey, Media release: Teen cigarette smoking drops to historic low in 2015?

      In that case, critics must contemplate the idea that e-cigarettes have a harm reduction function among adolescents and that their attractiveness to young people who would otherwise become smokers may be overall a public health benefit. Levy DT, 2017 shows that e-cigarettes create many beneficial pathways for the evolution of nicotine use and abstinence. It is far from clear that obstructing these pathways with policies or campaigning communications is positive for public health.

      Scope for adverse unintended consequences

      There is already evidence that measures designed to block youth access to e-cigarettes have adverse unintended consequences on youth smoking: see Friedman AS, 2015 and Pesko MF, 2016 on the impact of e-cigarette age restriction laws on cigarette smoking. It is not a great leap of logic to hypothesise that making e-cigarettes less attractive to adolescents would attenuate the decline in smoking that is, or should be, the primary concern in tobacco policy.

      The appropriate focus is on adults

      The right way to address this issue is not to try to micro-manage adolescent behaviours but to ensure that adults have attractive alternatives to smoking. Restrictions imposed with the misguided purpose of 'protecting' adolescents from very low-risk alternatives to cigarettes could have the effect of harming longstanding adult smokers - the real at-risk group. Several surveys (e.g. Farsalinos KE, 2014) have shown that non-tobacco flavours matter to adults who are using e-cigarettes as an alternative to smoking and are part of the long-term transition away from tobacco use.

      Conclusion

      Anyone proposing a ban on certain flavours or flavour descriptors needs to assess the risk of harmful unintended consequences - that more adolescents will take up smoking instead of vaping, and that adults smokers will find vaping a less attractive alternative to smoking and never switch, remain as dual users, or relapse back to smoking.


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    2. On 2016 Jan 10, Carl V Phillips commented:

      I read with interest the exchange between Robert Jackler and Saul Shiffman about this paper and would like to comment on two bits of the exchange. In general, I believe that Shiffman’s responses were compelling, and that they effectively rebutted Jackler’s criticisms. In particular, I agree with his assessment that Jackler basically starts with a premise that the paper’s conclusions are wrong and then speculates about what made them wrong, rather than actually building a case that anything was wrong.

      Jackler makes various accusations (some overt, some innuendo) about Shiffman et al. being inappropriately influenced by their sponsor. Shiffman responds by mischaracterizing these as ad hominem. Ad hominem attacks are common in this space, and anyone who departs from a strict tobacco control party line will almost inevitably be the target of them. But the term is also misused in this space, and this is an example. Claiming “Shiffman et al.’s research should be ignored because they consort with those I declare to be the enemy,” would be ad hominem, but there is only a hint of that in Jackler’s comments. Instead, he mostly claims that the research was faulty because of influences of the funder on the design of the particular research. This may be a cheap rhetorical tactic and unsubstantiated innuendo – as Shiffman argues – and it is certainly insulting to the integrity of the authors, but none of that makes it ad hominem.

      Jackler introduces one valid scientific concern, and it should be extended to a most of the research in this space. He argues (my paraphrase) that the expressed lack of interest in the products, whatever flavor descriptor was offered, mostly reflects the general hostility toward tobacco products that is inculcated in this population of teenagers. Schiffman responds to the criticism as phrased, quite legitimately, by arguing this was exactly the authors’ point, that flavors are not overcoming the programmed resistance to using the products. But the comment and response skirt the real scientific concern here: All of the research in and around this point produces rough measures that only partially inform the question of interest, which is, “what product characteristics cause different choices in the real world?”

      Teenagers’ responses to abstract survey questions, posed by people who presumably feel a lot like the authority figures who have been instilling the anti-tobacco message, probably do just trigger the inculcated response. This makes them a limited measure of whether a flavor option will change someone’s choice when he is presented with the opportunity to try a product. The present study is clearly more informative than anything cited in support claims that flavors have caused a torrent of underage use (let alone claims that attracting underage users is the purpose of interesting flavors, given that adults clearly prefer them; see, for example, my recent report of survey results at http://antithrlies.com/2016/01/04/casaa-ecig-survey-results/). But what was measured is only one contributor to the actions of interest.

      The failure to recognize that what is measured is not the same as what is being asked extends throughout this field of inquiry. Jackler asserts that looking at flavor usage patterns would be a better measure, and Shiffman correctly points out that this would be an answer to an different question. It would tell us something that relates the question of interest, though it is even further removed than what the study measured. Yet it is quite common for opponents of product availability to claim that mere demonstrated preference for a particular product feature is evidence that the feature is causing use. Indeed, guessing at what Jackler alludes to as an “extensive body of research” about preferences for flavors of other tobacco products, this describes most of that research. Fuzzy and noisy observations that are probably associated with the question of interest can allow us to modestly update our beliefs. But commentators, including many research authors, make absolute claims, apparently oblivious to the necessary epistemic modesty.

      Moreover, the common absolute claims (e.g., “this shows kids are not interested in flavors” or “this proves that flavors are attracting kids”) are absurd on their face. For any improvement in a product’s quality (such as the availability of a particular flavor), there are some combinations of individual preferences such that the improvement would tip someone’s preference about wanting to use the product. Since there are a lot of people, chances are some have that preference pattern for any substantial improvement (and this will include some “proper” and some “improper” users, if one is inclined to create such categories). The question cannot be, “are any kids motivated by the flavors?” (or by flavor descriptors, which is a somewhat different question), because the answer to that is surely yes. The question must be, “how many?” The Schiffman et al. results contradict the political claims that underage users are flocking to e-cigarettes in droves because they have heard about the particular flavors from the study, but absolute claims that have been made about the results are clearly false. Any author who seeks to make a scientific contribution in this area needs to explain, at least very roughly, how empirical results contribute to an economic model of preference and choice that can provide a quantitative estimate of the phenomenon of interest. (Anyone who wants to go further and claim that the phenomenon is substantially harmful, to whatever extent it occurs, must present separate analysis. This obviously does not follow from claims that the phenomenon is occurring, as many authors imply; it is entirely plausible that the material impact is nil or even beneficial.)

      The absolutist rhetoric that dominates the policy fights in this area seeps into the science and poisons it, causing researchers to traffic in simplistic claims. Indeed, the rhetoric that causes the problems addressed above is exemplified in the second sentence of the abstract, in which the authors assert that e-cigarette use has no benefits apart from smoking cessation. This is obviously not true; if people are choosing an action, it is because it has benefits. But if the myth to the contrary is taken as a premise – effectively assuming that actions are caused by demonic possession rather than volition – it is very difficult to apply the economic reasoning sketched above. Researchers and commentators in this area give little indication they recognize that they are making claims about choices, which are volition that is a function of preferences, opportunity, and product characteristics. They need to assess how particular observations fit into a model of that process, rather than implicitly assuming that whatever happened to be measured is isomorphic to the outcome of that process.


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    3. On date unavailable, commented:

      None


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    4. On 2016 Jan 08, Saul Shiffman commented:

      CONTINUED FROM PRIOR POST

      Jackler: Given the long history of tobacco industry manipulation of scientific research, the fact that the Shiffman et al. study was designed and sponsored by an e-cigarette brand gives reason for skepticism . . . The circumstances under which the paper arose, as illustrated by the timeline below, indicates that NJOY had a powerful motivation to commission a paper exculpating e-cigarette flavors from preferential youth appeal proximate to the time that Pinney Associates was engaged and the survey was conducted. [Followed by long discourse on conjectured commercial context . . .] . . . In summary, it appears that the Shiffman et al. paper was not hypothesis driven research, but rather a study commissioned by NJOY to create cover for their reversal on flavors driven by dropping market share.

      Response: Dr. Jackler raises the point that our disclosed relationship with an entity with a commercial interest should increase skepticism among readers of the paper. The purpose of disclosure is transparency, and an invitation for readers who wish to be so to be skeptical. Skepticism is welcome. Certainty without data, not so much….. Dr. Jackler has no information whatsoever about the origin and motivation for the study. Absent any actual information, Dr. Jackler constructs a just-so story about how the research came about, in order to make an ad hominem argument. We again suggest that the appropriate approach is to focus on the science and data.

      Jackler: With teens uninterested and adults minimally interested in flavors (other than tobacco and menthol), one wonders why do they bother to market them. If so unappealing to their customers, what accounts for the dramatic rise in NJOY sales after introduction of flavors such as butter crunch, peach tea, and wild berry?

      Response: As cited in our paper, there is independent evidence that adult smokers who are not confirmed e-cigarette users tend to prefer tobacco flavors, as they are familiar. With more experience and transition away from smoking to exclusive e-cigarette use, preferences shift to non-tobacco flavors (Farsalinos et al., 2013). That is consistent with what our paper showed.

      In conclusion, e-cigarettes are a novel and disruptive force in the tobacco environment. While many are concerned that they may ultimately be harmful, there is a strong and legitimate segment of the tobacco control community that sees e-cigarettes as a potential public health breakthrough. Both sides can agree that there are many questions yet to be definitively answered by data. It would be most constructive to spend less time on ad hominem attacks, and get on with the science.

      References

      Farsalinos KE, Romagna G, Tsiapras D, Kyrzopoulos S, Spyrou A, Voudris V. Impact of flavour variability on electronic cigarette use experience: An internet survey. International Journal of Environmental Research and Public Health 2013;10:7272-7282. http://www.ncbi.nlm.nih.gov/pubmed/24351746

      Available at: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3881166/pdf/ijerph-10-07272.pdf.

      Federal Register. Proposed Rules: Federal Policy for the Protection of Human Subjects.

      1. Available at: https://www.gpo.gov/fdsys/pkg/FR-2015-09-08/pdf/2015-21756.pdf.

      Manning KC, Kelly KJ, Comello ML. Flavoured cigarettes, sensation seeking and adolescents’ perceptions of cigarette brands. Tobacco Control 2009;18:459-465. http://www.ncbi.nlm.nih.gov/pubmed/19700436

      Shiffman S, Sembower MA, Pillitteri JL, Gerlach KK, Gitchell JG. The impact of flavor descriptors on nonsmoking teens’ and adult smokers’ interest in electronic cigarettes. Nicotine and Tobacco Research 2015;17:1255-1262. http://www.ncbi.nlm.nih.gov/pubmed/25566782

      Singh T, Marynak K, Arrazola RA, Cox S, Rolle IV, King BA. Vital Signs: Exposure to Electronic Cigarette Advertising Among Middle School and High School Students – United States, 2014. MMWR January 5, 2016;64. Available at: http://www.cdc.gov/mmwr/pdf/wk/mm64e0105.pdf.

      Truth Initiative. The Truth About: Electronic Nicotine Delivery Systems. 2015. Available at: http://truthinitiative.org/sites/default/files/ENDS Fact Sheet - 1 4 16[1].pdf.

      DISCLOSURES The study in the original paper was sponsored by NJOY, Inc., a developer and marketer of electronic nicotine delivery systems. The authors have worked in tobacco control and tobacco research for as long as 40 years. In the past three years, PinneyAssociates has provided services for a range of companies, including GlaxoSmithKline Consumer Healthcare on their stop-smoking medications (Nicorette and NicoDerm CQ in the U.S.), for NJOY, Inc., and since February 2015, for Reynolds American, Inc. (RAI) on tobacco harm minimization. Our work for RAI focuses on products, regulations, and policies related to smoking cessation and harm minimization; we do not work on combustible conventional cigarettes. Some of us (JGG, SS) also are members in a limited liability corporation that owns intellectual property for an as-yet not-commercialized nicotine gum, an option for which has been acquired by Niconovum, a subsidiary of RAI.


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    5. On 2016 Jan 08, Saul Shiffman commented:

      CONTINUED FROM PRIOR POST

      Jackler: With such a low response rate, responders may have had a special motivation to participate. This raises the likelihood of selection bias, differences between responders and non-responders, a factor which undermines the value of surveys with a small percentage of responders.

      Response: With regard to the response rate, the issue of selection bias must certainly be considered. It is important to note that in such online surveys with research panels, email invitations are blasted out, and it is not even known how many recipients got the email or saw it. Furthermore, the study closed when the target sample size was reached and it is likely additional invitees tried to enroll, but were too late. Online surveys routinely send large numbers of invitations in order to complete data collection quickly. We capped the total numbers of respondents (432 for adults and 216 for teens) in order to ensure that the combinations of product and flavors were balanced for appropriate comparisons to be made in the analyses. Most important, nothing in the invitation hinted at the subject of the survey, so it is not at all clear what bias might be introduced by the respondents' choice to complete this survey versus some other surveys they may have been invited to complete. Dr. Jackler seems to believe that a sample with a higher response rate would yield a different conclusion; we would welcome seeing such data, and hope Dr. Jackler will produce it.

      Jackler: Two sorts of teens are likely to reply to such a survey: those contemplating e-cigarette use who may be attracted to the products being surveyed and those who are vehement in their intention to neither smoke nor vape and are motivated to send a rejectionist message.

      Response: Dr. Jackler’s comments suggest he did not understand our research method adequately. The core of his concern about some distortion introduced in the sample would only be plausible under the circumstance where potential participants were informed (or somehow were able to deduce) the nature and focus of the survey. This information was not provided during recruitment, and even during screening, participants were asked about bottled water and ice cream in addition to tobacco product use, to mask the survey's focus. In other words, respondents could not have elected to enroll or not enroll in this survey on the basis of its content, because they did not know the content.

      Jackler: A sizable fraction of teens are opposed to smoking, some with notable vehemence instilled by parents and schools. It would be expected that a fraction of teen responders felt a special impetus to do so as a means of communicating their opposition to tobacco products. The motivation of teen responders to oppose smoking is the most probable reason for the low interest in e-cigarettes which the authors erroneously interpreted as a lack of interest in flavored e-cigarettes.

      Response: Dr. Jackler's point is that some teens are simply opposed to smoking of any kind, including e-cigarettes, and thus are not influenced by offering of different flavors. We agree – that's exactly the point: offering flavors seems unlikely to attract the teens not already smoking or predisposed to smoke!

      Jackler: That the paper reaches the conclusion: “Nonsmoking teens’ interest in e-cigarettes was very low” is yet another reason to question the survey’s validity. This observation is at variance with 2014 CDC data showing a rapid rise in e-cigarette use among high school students coupled with a reduction in combustible cigarette use.

      Response: Dr. Jackler earlier criticized our study for focusing on non-smoking teens, as opposed to all teens or smoking teens. Here, he ignores this fundamental design feature. There is no contradiction between our finding and the uptake of e-cigarettes by teens, because data repeatedly show that e-cigarettes are being taken up predominantly by SMOKING teens. The use of e-cigarettes by non-smoking teens (especially any kind of substantial use) is exceedingly low (Truth Initiative, 2015), consistent with our findings. Dr. Jackler points out that smoking prevalence is dropping even as e-cigarette use increases. One explanation is that e-cigarettes are drawing teens away from smoking to e-cigarette use, which is not inconsistent with our data.

      Jackler: One interpretation of these data is that, relatively speaking, non-smoking teens prefer a variety of sweet and fruity flavors while adult smokers prefer tobacco flavor.

      Response: Dr. Jackler’s alternative interpretation of our results, that the teen nonsmokers actually “prefer” a range of flavors, would seem to be utterly contradicted by the data, which (a) show very low absolute appeal of e-cigarettes among nonsmoking teens, and (b) show no statistical variation in teen interest by flavor.

      Jackler: The Shiffman et al. survey offers no benefit to the minors surveyed and entails significant risks. Exposing teens to a harmful product they may not have considered using, such as use of e-cigarettes and flavored e-cigarettes, could increase the likelihood that they will try the product and develop nicotine addiction. This represents a clear risk to the future health of the minor. The existence of risk, coupled with the lack of benefit to the individual child, necessitates both institutional review and parental informed consent.

      Response: We certainly agree that the survey did not benefit respondents, and was not presented (or intended) as a benefit to them. We do not agree that it posed any risk. The survey had no promotional value or content, and did not in any way encourage use of e-cigarettes. No graphics or branding were presented, and no claims were made. It simply presented text on a hypothetical e-cigarette flavor and asked for a rating of interest. Further, it should be noted that awareness of e-cigarettes is nearly universal among teens (Singh et al., 2016), so it was highly unlikely that the survey even introduced anyone to the concept of e-cigarettes. We note that surveys, including those fielded and sponsored by the government, routinely ask participants about smoking and their interest in smoking without any implication they have put participants at risk. Current Federal rules exempt survey research from IRB review in which respondents are anonymous, as well as research that asks about matters that do not put the respondents at legal risk or risk of embarrassment. Our study met both criteria. Of interest, 16 federal agencies have proposed IRB rules that go out of their way to further emphasize that simple surveys such as this are exempt from review (Federal Register, 2015).

      CONTINUED IN NEXT POST


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    6. On 2016 Jan 08, Saul Shiffman commented:

      Response to Dr. Jackler’s critique of Flavor Descriptors Paper published in Nicotine and Tobacco Research (Shiffman et al., 2015)

      PLEASE NOTE: We have divided our response into several consecutive posts, to deal with the length limitations imposed by PubMed, while quoting Dr. Jackler's original comments, to allow readers to better follow the conversation.

      We appreciate the continuing interest in our work and relish critical commentary and suggestions. Such a dialogue will serve to advance science and thus foster the development and implementation of public health-advancing policies.

      In the post below, we have replied to the criticisms of our study raised by Dr. Jackler (most of which are redundant with those raised by Drs. Popova and Glantz, see our earlier post). We note that many of Dr. Jackler's remarks are ad hominem. We believe the science should be judged on its merits, so will not comment on Dr. Jackler's imaginings about our motives, just as we will discipline ourselves to be silent about his.

      Three comments about general process and principles are worth making before we address specific issues:

      1) All the issues raised by Dr. Jackler were also raised by Dr. Stanton Glantz in a peer review for the journal Nicotine and Tobacco Research, and subsequently posted by Dr. Glantz on the web. (The review was conducted single-blind, but Dr. Glantz' s posted comments are all but identical to the review, which makes clear he was the reviewer.) In accord with good peer review practice, the journal editor asked us to respond, and two editors and another (anonymous) peer reviewer were satisfied that we had responded adequately to the critiques, and that they did not fundamentally undermine the scientific quality of the work. Perhaps we are seeing the beginning of an era where peer reviewers do not accept editorial and consensus judgments, but simply repeat their critique on the web. 2) Some of the comments on methodology made by Dr. Jackler suggest methods he wishes we had used, populations he wishes we had studied, and studies he wishes we had done. We do not claim that our one study answers all questions, and cannot know whether different methods might have yielded different results – and neither can Dr. Jackler . The currency of science is empirical data, not hypothetical speculation. The real test is replication and extension. If critics believe different methods or populations would yield different results, they owe it to the science to do the work to show that. It has been 12 months since our study was published – time enough for Dr. Jackler to have collected the data he believes would be more informative. Criticism is easy; data counts.

      3) Much of Dr. Jackler's critique amounts to his certainty that our study must be wrong, and therefore flawed, because it contradicts what he is certain he "knows" must be true, even though the data are not there. If the results contradict his intuition or certainty, then the methods must be flawed, and the researchers biased, and unethical, to boot. Returning to point #2, intuition and subjective certainty are nice; data are better. If there are conclusions Dr. Jackler wishes to assert, let him present definitive data.

      Below, we take up each of Dr. Jackler's comments, quoting from his posting:

      Jackler: In comparing the relative appeal of flavored e-cigarettes to non-smoking teens versus smoking adults, the obvious hypothesis would be that flavors would be of greater attraction to the young.

      Response: It is uncertain what critique of our method, analysis, or interpretation can be derived from a statement of “the obvious hypothesis,” other than “I disagree with the results, because they violate my intuition.” Intuition is good. Data are better. The "obvious hypothesis" is sometimes wrong. We note also that a previous study, often cited in support of teen interest in flavors in cigarettes (and cited in our paper; Manning et al., 2009), shows interest in flavors is seen ONLY in teens who score high on sensation-seeking, which predisposes teens to cigarette smoking. Thus, observations or intuitions about the appeal to smokers cannot be generalized to all teens, and our data on nonsmoking teens is not incompatible with existing data on smoking teens.

      Jackler: In a broader context, a finding that adolescents have no preference for sweet and fruity flavors would mean that e-cigarettes somehow are a special exception to well established consumption trends throughout the food and beverage industry.

      Response: Dr. Jackler's statement ignores what we demonstrated empirically in the study – that the favors tested DID appeal to teens in foods and beverages (ice cream and bottled water), using the very methods he criticizes, even while having no effect on their interest in e-cigarettes. Again, data must trump intuition and conjecture.

      Jackler: The logical way to determine the differences in e-cigarette flavor preferences between adults and teens would be to compare the actual frequency of flavor use by teen and adult e-cigarette users. Rather than use a direct method, Shiffman et al. compared a small cohort of teen non-smokers with adult smokers . . . There is reason to question the validity of comparing non-smoking teens with adult smokers as they are notably unequal groups. Nationally only approximately 15% of teens smoke whereas the entire adult survey group smoked. In this survey teen smokers were systematically excluded.

      Response: Certainly the suggestion of comparing actual use patterns of adults and teens would be useful, but it would answer a different question than the one we set out to answer. As we clearly stated in our paper, we focused our research on the reported interest of the flavor descriptors on the two populations we regarded as being of most interest: current nonsmoking teens (who some assert are being lured in to use of nicotine by the appealing flavor descriptors, which would be a public health concern) compared to current adult smokers (whom one would want to find e-cigarette flavors appealing, to facilitate transition away from combustion cigarettes, a transition that we and many others regard as a public health good). Dr. Jackler is right that it would be interesting to know the flavor preferences of teen smokers, and we hope he or others will do that research. However, it is not clear that attracting a teen smoker away from using deadly combustible cigarettes to using e-cigarettes is the biggest public health worry – the big concern has been whether e-cigarettes would attract teens who are NOT smoking, hence our focus on this group.

      Jackler: Shiffman et al. compared a small cohort of teen non-smokers with adult smokers via a marketing survey conducted for the sponsoring e-cigarette brand (NJOY) . . . The Shiffman et al. study consisted of an online survey inquiring about interest in products of the NJOY e-cigarette brand.

      Response: Unfortunately, Dr. Jackler is simply wrong; we did not attach a brand name to any of the three types of products (e-cigarettes, ice cream, and bottled water) tested nor was the sponsor of the study mentioned to respondents. In addition, Dr. Jackler characterizes our study as a "marketing survey." It was no such thing. It was conducted for research and publication. This is yet another ad hominem argument to impute motives to us, without evidence, and, more importantly, without relevance.

      CONTINUED IN NEXT POST


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    7. On 2015 Nov 01, Robert Jackler commented:

      Commentary on Shiffman et. al. study which surprisingly found no preference for flavored electronic cigarette products among teens.

      The paper ‘Impact of flavor descriptors on non-smoking teens and adult smokers’ interest in electronic cigarettes” by Shiffman and coworkers suffers from flaws in experimental design and data interpretation which call into question their conclusions that flavored e-cigarettes are not of differential appeal to teens.1 As discussed in detail below, their survey methodology has a high likelihood of selection bias, the study groups are too dissimilar to enable the comparisons made, informed consent for minors was not obtained despite evident risks, and commercial interest appears to have influenced the study’s outcome. In comparing the relative appeal of flavored e-cigarettes to non-smoking teens versus smoking adults, the obvious hypothesis would be that flavors would be of greater attraction to the young. The factual basis for this conjecture is the extensive body of research which found that flavored tobacco products have differential appeal to youth. This led the US Congress to ban flavored cigarettes in 2009. In a broader context, a finding that adolescents have no preference for sweet and fruity flavors would mean that e-cigarettes somehow are a special exception to well established consumption trends throughout the food and beverage industry.

      Concerns over survey validity:

      The logical way to determine the differences in e-cigarette flavor preferences between adults and teens would be to compare the actual frequency of flavor use by teen and adult e-cigarette users. Rather than use a direct method, Shiffman et. al. compared a small cohort of teen non-smokers with adult smokers via a marketing survey conducted for the sponsoring e-cigarette brand (NJOY). There is reason to question the validity of comparing non-smoking teens with adult smokers as they are notably unequal groups. Nationally only approximately 15% of teens smoke whereas the entire adult survey group smoked. In this survey teen smokers were systematically excluded.<br> The Shiffman et. al. study consisted of an online survey inquiring about interest in products of the NJOY e-cigarette brand. These included then current flavors (tobacco and menthol) and a list of contemplated flavors. A survey of flavor preferences for bottled water and ice cream was used as a comparison. Invitations were sent to 20,235 adults and 14,151 teens with a mere 432 adults and 216 teens enrolled. This is an under 2% response rate. With such a low response rate, responders may have had a special motivation to participate. This raises the likelihood of selection bias, differences between responders and non-responders, a factor which undermines the value of surveys with a small percentage of responders.2 A sizable fraction of teens are opposed to smoking, some with notable vehemence instilled by parents and schools. It would be expected that a fraction of teen responders felt a special impetus to do so as a means of communicating their opposition to tobacco products. Two sorts of teens are likely to reply to such a survey: those contemplating e-cigarette use who may be attracted to the products being surveyed and those who are vehement in their intention to neither smoke nor vape and are motivated to send a rejectionist message. The motivation of teen responders to oppose smoking is the most probable reason for the low interest in e-cigarettes which the authors erroneously interpreted as a lack of interest in flavored e-cigarettes. That the paper reaches the conclusion: “Nonsmoking teens’ interest in e-cigarettes was very low” is yet another reason to question the survey’s validity. This observation is at variance with 2014 CDC data showing a rapid rise in e-cigarette use among high school students coupled with a reduction in combustible cigarette use. Not surprisingly, their survey showed non-smoking teens queried on common consumer products (ice cream and flavored water) indicated widespread interest in flavors. In the adult cohort, flavor preferences for e-cigarettes, other than tobacco and menthol, roughly paralleled that of ice cream and water. (Shiffman et al. Figure 3b) That teens expressed a liking for flavored ice cream, but not e-cigarettes, may well be accounted for by responses of teens who had no interest in e-cigarette products. (Shiffman et. al. Figure 3a) It was not that these non-smoking teens did not like the e-cigarette flavors, but rather they categorically were uninterested in NJOY’s products in all flavor variations. In their flavor analysis, the paper’s data reveals a marked preference among adult smokers for tobacco flavor and menthol flavors with all other flavors (except vanilla) appearing at a fraction of their appeal. (Shiffman et al. Figure 1) Among teen non-smokers, by contrast, interest was essentially equal across flavors with no preference for tobacco or menthol flavors. One interpretation of these data is that, relatively speaking, non-smoking teens prefer a variety of sweet and fruity flavors while adult smokers prefer tobacco flavor. This interpretation of their data is the opposite the authors’ conclusions.

      Inappropriate Claim of Exemption from IRB for Survey of Minors

      The Shiffman et. al. survey offers no benefit to the minors surveyed and entails significant risks. Exposing teens to a harmful product they may not have considered using, such as use of e-cigarettes and flavored e-cigarettes, could increase the likelihood that they will try the product and develop nicotine addiction. This represents a clear risk to the future health of the minor. The existence of risk, coupled with the lack of benefit to the individual child, necessitates both institutional review and parental informed consent.3

      The paper concludes that adult interest in flavors as modest, with the exception of classic tobacco flavor, which they observed can “ease the transition for smokers from a familiar product to a less-familiar one.” With teens uninterested and adults minimally interested in flavors (other than tobacco and menthol), one wonders why do they bother to market them. If so unappealing to their customers, what accounts for the dramatic rise in NJOY sales after introduction of flavors such as butter crunch, peach tea, and wild berry?

      References:

      1. Shiffman S, Sembower M, Pillitteri J, Gerlach K, Gitchell J. Impact of electronic cigarette flavor descriptors on non-smoking teens’ and adult smokers’ interest in electronic cigarettes. Nicotine Tob Res. 2015 Jan 7. pii: ntu333.

      2. Groves RM, Peytcheva E. The Impact of Nonresponse Rates on Nonresponse Bias: A Meta-Analysis The Public Opinion Quarterly Vol. 72, No. 2 (Summer, 2008), pp. 167-189

      3. Heath and Human Services. Institutional Review Board Exemptions: Special Classes of Subjects: Children and Minors: (http://www.hhs.gov/ohrp/archive/irb/irb_chapter6.htm)

      4. Pinney Associates: About our Company. (http://www.pinneyassociates.com/overview.xml)

      5. NJOY to Discontinue Flavors, Takes Additional Steps to Prevent Underage Electronic Cigarette Use. Reuters. Dec 10, 2009

      6. Giovenco DP, Hammond D. Corey CG, et. al. E-Cigarette Market Trends in Traditional U.S. Retail Channels, 2012–2013. Nicotine & Tobacco Research, 2015, 1–5

      7. Wells Fargo Securities. Equity Research: Vapor - NJOY’s New Product Line Positions it Ahead of the Pack. Wells Fargo Securities; 2014.

      8. Richtel M. E-Cigarette Makers Are in an Arms Race for Exotic Vapor Flavor. New York Times, July 15, 2014.

      9. NJOY tops US retail Vaping sales. Convenience Store news Nov 11, 2014. http://www.csnews.com/product-categories/tobacco/iri-njoy-tops-us-retail-vaping-sales

      Interest Disclosure: Dr. Jackler served as a consultant to the State of California Attorney General’s office on the 2014 motion to enforce the 2010 Soterra (NJOY) consent judgment.


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    1. On 2015 Jul 09, Hanxiang Chen commented:

      I'm searching for 'CRISPR HPV' these days and find some pictures in figure 3 are similar with the paper 'Disruption of HPV16-E7 by CRISPR/Cas system induces apoptosis and growth inhibition in HPV16 positive human cervical cancer cells', especially in Figure 3A, just as a reminder and please check it.


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    1. On 2015 Sep 16, Geriatric Medicine Journal Club commented:

      There is an epidemic of assessment tools and this systematic review tries to wade through the available instruments. This article was critically appraised at the May 2015 Geriatric Medicine Journal Club (follow #GeriMedJC on Twitter). The full discussion can be found at: http://gerimedjc.blogspot.com/2015/05/may-2015-gerimedjc.html?spref=tw While the results of the study disappoint in terms of identifying an instrument that can accurately predict post-ED adverse outcomes, do these tools still serve a purpose in "geriatrifying" the emergency departments?


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    1. On 2015 Jan 12, Larry Parnell commented:

      This paper was my selection for Paper of the Week for 5-9 Jan 2015.


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    1. On 2015 Jan 09, William Grant commented:

      Low UVB exposure accounts for some of the increased risk of cancer for waiters in Nordic countries

      The paper by Reijula and colleagues investigated the risk of cancer for waiters in the five Nordic countries for the period 1961 to 2005 [1]. They found that all-cancer incidence rates were 46% (95% CI, 41%-51%) higher for men and 9% (7%-11%) higher for women. They attributed much of the difference to higher alcohol consumption, smoking, and occupational exposure to tobacco smoke. Overlooked in their paper was any discussion of the role of solar UVB and vitamin D in affecting risk of cancer.

      I used data in their related paper from 2009 [2] to estimate the effect of UVB in reducing risk of cancer in the Nordic countries. I reasoned that those in the 54 occupational categories had different UVB exposures depending on how much working time they spent out of doors. The index I developed was lip cancer incidence less lung cancer incidence for males (females wear lipstick, so do not develop much lip cancer) [3]. As they noted, "All eight occupations with significant SIRs (standardized incidence rates) [for lip cancer] >1.20 in males include a major part of outdoor work, while the lowest SIRs are in indoor occupations." However, smoking is also a risk factor for lip cancer, hence the combined cancer incidence index. Men in the occupations with the greatest time spent out of doors had the lowest rates of most types of cancer.

      Looking at the findings for waiters in Ref. 1, both male and female waiters have significantly increased incidence rates for many of the UVB/vitamin D-sensitive cancers [3, 4], although as mentioned in Ref. 1, the largest SIRs are for the smoking-related types of cancer. They also had lower rates of melanoma and the women had lower rates of non-melanoma skin cancer, indicating that they spent less time in the sun than those in other professions. Thus, waiters and others in Nordic countries whose occupations keep them largely indoors could reduce their risk of cancer by spending more time out of doors when the UVB intensity is high enough to make vitamin D [5] or taking vitamin D supplements to raise 25-hydroxyvitamin D concentrations to at least 75-100 nmol/L [6].

      References 1. Reijula J, Kjaerheim K, Lynge E, et al. Cancer incidence among waiters: 45 years of follow-up in five Nordic countries. Scand J Public Health. 2015 Jan 6. pii: 1403494814565130. [Epub ahead of print] 2. Pukkala E, Martinsen JI, Lynge E, et al. Occupation and cancer - follow-up of 15 million people in five Nordic countries. Acta Oncol. 2009;48(5):646-790. 3. Grant WB. Role of solar UV irradiance and smoking in cancer as inferred from cancer incidence rates by occupation in Nordic countries. Dermatoendocrinol. 2012;4(2):203-11. 4. Moukayed M and Grant WB. Molecular link between vitamin D and cancer prevention. Nutrients. 2013;5(10):3993-4023. 5. Engelsen O. The relationship between ultraviolet radiation exposure and vitamin D status. Nutrients. 2010;2(5):482-95. 6. Garland CF, French CB, Baggerly LL, Heaney RP. Vitamin D supplement doses and serum 25-hydroxyvitamin D in the range associated with cancer prevention. Anticancer Res 2011;31:617-22.

      Disclosure I receive funding from Bio-Tech Pharmacal (Fayetteville, AR) and MediSun Technology (Highland Park, IL).


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    1. On 2015 Mar 25, Janet Kern commented:

      There is a statistical error in this research study. This error can be seen in Table 2 at 24 months of age. By utilizing the numbers provided in Table 2 (see below) it is evident that the difference between cases and controls at 24 months is highly statistically significant. The journal, Vaccine, was notified of the error. However, since, to date, no clarification has been issued, it is important to note that the conclusions seen in the abstract above are misleading and are the opposite of the conclusion supported by the data. The corrected results indicate that there is a statistically significant relationship between Thimerosal exposure and autism spectrum disorder.

      ***** At 24 months from the data provided using a t-test reveals the following:

      Unpaired t test Mean of * sample 1 from summary = 804.2 (n = 189) Mean of * sample 2 from summary = 632.1 (n = 224)

      Assuming equal variances Combined standard error = 71.838701 df = 411 t = 2.395645 One sided P = 0.0085 Two sided P = 0.017 95% confidence interval for difference between means = 30.882882 to 313.317118 Power (for 5% significance) = 90.07%

      Assuming unequal variances Combined standard error = 72.061016 df = 394.166765 t(d) = 2.388254 One sided P = 0.0087 Two sided P = 0.0174 95% confidence interval for difference between means = 30.445864 to 313.754136 Power (for 5% significance) = 66.35%

      Update 5/24/2015: When the journal Vaccine was notified of the error, it notified the authors. In response to the notification of the error, the authors changed the numbers in Table 2 of their study. The authors changed the mean and standard deviation for the controls at 24 months from 632.1 (715.1) to 676.8 (719.5). No explanation for the error or justification for the change was given.

      To date, the journal Vaccine and the study authors have refused to release the study dataset for further evaluation.


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    1. On 2015 Jan 20, Rafael Najmanovich commented:

      This concise review provides a welcome introduction to Normal Mode Analysis (NMA) methods. Unfortunately, the authors fail to discuss one major limitation of the elastic network models cited in the text, which is that all are sequence agnostic by means of using spring constants that are not dependent on the type of amino acids they connect.

      Our group has overcome this limitation of traditional elastic network models with the ENCoM method (Frappier V, 2014) where a non-bonded interaction term in the potential makes spring constants dependent on the nature and extent of atomic pairwise interactions. This addition drastically improves the prediction of large-scale loop and domain movements upon ligand binding as compared to ANM (Anisotropic Network Model). Furthermore, this also makes it possible to use ENCoM to predict the effect of mutations on thermal stability and function. ENCoM was compared to a large number of dedicated thermostability prediction methods and shown to be among the most accurate and unbiased (see Frappier V, 2014 for details). Furthermore, this ability to use vibrational entropy differences to study the effect of mutations has allowed us to perform a large-scale comparison of mesophile/thermophile ortholog protein pairs where the structure is highly conserved (Frappier V, 2015). Whereas a number of factors contribute to the higher stability (at a given temperature) of thermophiles, vibrational entropy differences correctly classify about 2/3 of thermophiles as more stable than their mesophile counterparts (Frappier V, 2015). In one case tested, that of rubredoxin, all possible mutations in each position where performed in silico and each mutation was ranked according to the calculated vibrational entropy differences relative to the mesophile. The mutations present in the thermophile were among the top ranking. Thus, vibrational entropy differences calculated with ENCoM can be used to guide the selection of stability-coffering mutations.

      In summary, our group has developed ENCoM, the first coarse-grained elastic network model that is sequence dependent. This allows ENCoM to improve on the prediction of loop and domain conformational movements, predict the effect of mutations on thermal stability and function and guide the selection of mutations that affect thermal stability and rigidity with applications in protein engineering.


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    1. On 2016 Sep 08, John Tucker commented:

      None


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    2. On 2016 Aug 24, Ben Goldacre commented:

      This trial has the wrong trial registry ID associated with it on PubMed: both in the XML on PubMed, and in the originating journal article. The ID given is NCT021683615. We believe the correct ID, which we have found by hand searching, is NCT02168361.

      This comment is being posted as part of the OpenTrials.net project<sup>[1]</sup> , an open database threading together all publicly accessible documents and data on each trial, globally. In the course of creating the database, and matching documents and data sources about trials from different locations, we have identified various anomalies in datasets such as PubMed, and in published papers. Alongside documenting the prevalence of problems, we are also attempting to correct these errors and anomalies wherever possible, by feeding back to the originators. We have corrected this data in the OpenTrials.net database; we hope that this trial’s text and metadata can also be corrected at source, in PubMed and in the accompanying paper.

      Many thanks,

      Jessica Fleminger, Ben Goldacre*

      [1] Goldacre, B., Gray, J., 2016. OpenTrials: towards a collaborative open database of all available information on all clinical trials. Trials 17. doi:10.1186/s13063-016-1290-8 PMID: 27056367

      * Dr Ben Goldacre BA MA MSc MBBS MRCPsych<br> Senior Clinical Research Fellow<br> ben.goldacre@phc.ox.ac.uk<br> www.ebmDataLab.net<br> Centre for Evidence Based Medicine<br> Department of Primary Care Health Sciences<br> University of Oxford<br> Radcliffe Observatory Quarter<br> Woodstock Road<br> Oxford OX2 6GG


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    1. On 2016 Jun 29, Nicolas Griffon commented:

      As implicit scores are ordinal, a model using logits of cumulative probabilities [Agresti A. Categorical Data Analysis. p241] would have been a more proper way to compare implicit scores before vs. after.


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    1. On 2015 Sep 10, Jeff Kiefer commented:

      The authors of the publication unfortunately named their resource BioGPS when that name has already be used for another bioinformatic rescue six years ago. The resource, BioGPS, developed in Andrew Su lab was published six years ago. Wu C, 2009


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    1. On 2015 Feb 27, George McNamara commented:

      This is also available as a blog with Michael's videos on the blog page, and links to Canti's 3 videos

      http://blog.wellcomelibrary.org/2014/09/cells-on-film-making-movies-in-biology/

      Video 3 link goes to http://search.wellcomelibrary.org/iii/encore/record/C__Rb2102100?lang=eng#attachedMediaSection and then click on the "download entire title" link (above the static image) or go directly to http://film.wellcome.ac.uk:15151/0055-0000-7566-0000-0-0000-0000-0.mp4

      You may also enjoy the classic David Rogers video, digitized by Tom Stossel and colleagues, posted in several places on the internet, including,

      https://embryology.med.unsw.edu.au/embryology/index.php/Movie_-_Neutrophil_chasing_bacteria

      http://php.med.unsw.edu.au/cellbiology/index.php?title=File:Neutrophil_Rogers1950s.flv https://www.youtube.com/watch?v=n0FELIKQHsw http://www.neatorama.com/2010/01/21/video-white-blood-cell-hunting-slaying-bacterium

      http://works.bepress.com/gmcnamara/5/ ... page has references, this is the MetaMorph STK file version, can be opened in MetaMorph, Fiji ImageJ, and some (not all) other scientific imaging programs.

      http://works.bepress.com/gmcnamara/18/ ... "The Chase" (named by Mary David), this is the bigger, better, version from 2012, won ASCB video contest honorable mention. Back story and technical details available in my articles at https://mdc.custhelp.com/euf/assets/content/MetaMatters vol 2iss3.pdf https://mdc.custhelp.com/euf/assets/content/MetaMatters vol 2iss4.pdf https://mdc.custhelp.com/euf/assets/content/MetaMatters vol 2iss5.pdf https://mdc.custhelp.com/euf/assets/content/MetaMatters vol 2iss6.pdf

      As a former Dictyostelium discoidium researcher I also want to give credit to Dr. Arthur Arndt, 1937 movies of the developmental cycle of Dicty, see

      http://jeb.biologists.org/content/81/1/33.full.pdf http://www.filmarchives-online.eu/viewDetailForm?FilmworkID=358af36868fa2a8548b03bb2c2cbbf2a

      or simply search the Internet for: arthur arndt dictyostelium movie


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    1. On 2015 Jan 09, William Grant commented:

      Differences in vitamin D status may help explain racial disparities in failure-to-rescue among children undergoing congenital heart surgery

      The paper by Chan and colleagues did a comprehensive analysis of outcomes of pediatric congenital heart surgery, finding that failure-to-rescue was due to inherent racial factors rather than complications related to the surgery, with blacks having the worst outcome and Hispanics intermediate between blacks and whites [1]. A possible explanation for this finding is differences in 25-hydroxyvitamin D [25(OH)D] concentrations. A paper from 2004 reported that cardiac failure in infancy due to vitamin D deficiency in two infants who avoided surgery through vitamin D and calcium therapy [2]. A recent paper noted that 84% of African-American neonates undergoing cardiac operations had vitamin D deficiency (25(OH)D <20 ng/mL) and had a mean pre-operation 25(OH)D concentration of 10±4 ng/mL compared to 16± ng/mL for Caucasians and other race/ethnicity [3]. Those with lower 25(OH)D concentrations required greater post-operation care. Another recent study found that 25(OH)D concentrations decreased by 40% in infants and children after surgery for congenital heart disease [4].

      In general, white Americans have the highest mean 25(OH)D concentrations, Hispanics somewhat lower, and black Americans the lowest concentrations [5]. The differences are due to differences in skin pigmentation since most vitamin D is produced from solar UVB exposure, and the darker the skin, the lower the efficiency in producing vitamin D. Disparities in various health outcomes have been attributed to these differences [6].

      While it may be difficult to obtain blood samples from those who were included in this study for measurement of 25(OH)D concentrations, that could be done for planned operations in the future. In the meantime, it would be worthwhile to consider making sure that all children planning congenital heart surgery first be supplemented with vitamin D to raise 25(OH)D concentrations to 30-40 ng/mL [7] with a daily dose depending on how rapidly it is desired to raise the concentrations [8]. It would be worthwhile to see whether the heart condition improved before scheduling the operation. Since post-operation infection such as sepsis occurs in about 3.7% of operations in the U.S. [9], and vitamin D reduces the risk of sepsis [10], reducing the risk of sepsis is another good reason to raise 25(OH)D concentrations prior to operating.

      References 1. Chan T, Lion KC, Mangione-Smith R. Racial disparities in failure-to-rescue among children undergoing congenital heart surgery. J Pediatr. 2014 Dec 30. pii: S0022-3476(14)01072-5. doi: 10.1016/j.jpeds.2014.11.020. [Epub ahead of print] 2. Carlton-Conway D, Tulloh R, Wood L, Kanabar D. Vitamin D deficiency and cardiac failure in infancy. J R Soc Med. 2004;97(5):238-9. 3. Graham EM, Taylor SN, Zyblewski SC, et al. Vitamin D status in neonates undergoing cardiac operations: relationship to cardiopulmonary bypass and association with outcomes. J Pediatr. 2013;162(4):823-6. 4. McNally JD, Menon K, Chakraborty P, et al. Impact of anesthesia and surgery for congenital heart disease on the vitamin d status of infants and children: a prospective longitudinal study. Anesthesiology. 2013;119(1):71-80. 5. Ginde AA, Liu MC, Camargo CA Jr. Demographic differences and trends of vitamin D insufficiency in the US population, 1988-2004. Arch Intern Med. 2009;169(6):626-32. 6. Grant WB, Peiris AN. Possible role of serum 25-hydroxyvitamin D in Black–White health disparities in the United States. J Am Med Directors Assoc. 2010;11(9):617-28. 7. Holick MF, Binkley NC, Bischoff-Ferrari HA, et al. Evaluation, treatment, and prevention of vitamin D deficiency: an Endocrine Society Clinical Practice Guideline. J Clin Endocrinol Metab, 2011;96(7):1911-30. 8. Heaney RP, Davies KM, Chen TC, et al. Human serum 25-hydroxycholecalciferol response to extended oral dosing with cholecalciferol. Am J Clin Nutr. 2003;77(1):204-10. 9. Pasquali SK, He X, Jacobs ML, et al. Hospital variation in postoperative infection and outcome after congenital heart surgery. Ann Thorac Surg. 2013;96(2):657-63. 10. de Haan K, Groeneveld A, de Geus H, et al. Vitamin D deficiency as a risk factor for infection, sepsis and mortality in the critically ill: systematic review and meta-analysis. Crit Care. 2014;18(6):660. [Epub ahead of print]

      Disclosure I receive funding from Bio-Tech Pharmacal (Fayetteville, AR) and MediSun Technology (Highland Park, IL).


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    1. On 2015 Feb 25, Miguel Lopez-Lazaro commented:

      Conclusion not supported by the data

      The authors propose that cancer is largely caused by unavoidable mutations arising during DNA replication. This proposal is based 1) on a strong correlation between the number of stem cell divisions accumulated by a tissue and the risk of being diagnosed with cancer in the tissue, and 2) on the assumption that the number of stem cell divisions is equivalent to the number of unavoidable mutations arising during DNA replication. The authors do not report any correlation between the number of mutations in a tissue and the risk of cancer in the tissue. However, since cell division can generate mutations, they assumed that the parameters “stem cell divisions” and “mutations arising during DNA replication” are interchangeable. Recent data indicate that this assumption is incorrect:

      Tissue-specific mutation accumulation in human adult stem cells during life. https://www.ncbi.nlm.nih.gov/pubmed/27698416

      Cancer Etiology: Variation in Cancer Risk among Tissues is Poorly Explained by the Number of Gene Mutations. https://www.preprints.org/manuscript/201708.0103/v1

      The correlation reported by the authors indicates that carcinogenesis is driven by the accumulation of cell divisions in stem cells, and not by random mutations arising during DNA replication. The implications are completely different: https://www.preprints.org/manuscript/201707.0074/v1


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    2. On 2015 Feb 06, Daniel Corcos commented:

      In the abstract of the paper, there is a wrong statement : « These results suggest that only a third of the variation in cancer risk among tissues is attributable to environmental factors or inherited predispositions », seemingly supported by the following sentence : « If there is a high cancer risk of that tissue type relative to its number of stem cell divisions—then one would expect that environmental or inherited factors would play a relatively more important role in that cancer’s risk. »

      Basically, this type of reasoning tends to confuse mathematical normality with health, which leads to the conclusion that the higher disease risk population is always less than half of the total population.

      Estimating the percentage of cancers related to genetic inheritance is impossible.
 As an example, if a minority of individuals are protected by their genetic constitution (for instance, if they have a three time less probability of cancer), then one could rightly say that the majority of cancers are related to genetic inheritance. Pure speculation?
 Then have a look:

      http://www.ncbi.nlm.nih.gov/pubmed/10506723

      Now, let's suppose that two cancer types have different incidence relative to their corresponding normal tissue cell divisions. One might say, with the authors, that one is due to environmental factors, whereas the other is not. Wrong. Both could be due to environmental factors, but one would be more affected.

      More generally, if it is possible to say that ten per cent of cancers are attributable to tobacco, it is impossible to say that there is a defined percentage of cancers due to environmental factors, because there is no such thing as an environment free population. The only thing we can do is to give a minimal estimate of the percentage of cancers that would be prevented by removing defined environmental factors.

      In conclusion, in addition to the criticism that has been made on the methodology in this place and many others, one may wonder if this paper has anything to do with science (as a knowledge enterprise) and how it has passed peer review in Science (the journal).

      https://www.researchgate.net/profile/Daniel_Corcos2


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    3. On 2015 Feb 05, Jim Brody commented:

      The key paragraph in this paper is:

      "A linear correlation equal to 0.804 suggests that 65% (39% to 81%; 95% CI) of the differences in cancer risk among different tissues can be explained by the total number of stem cell divisions in those tissues. Thus, the stochastic effects of DNA replication appear to be the major contributor to cancer in humans."

      Thus, the authors have a parameter that quantifies the "randomness" of cancer. By definition this parameter must be between 0% and 100%. The authors are 95% confident that it lies between 39% and 81%.

      I look forward to more precise measurements of this parameter.


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    4. On 2015 Feb 05, Cyrille Delpierre commented:

      No proof that cancer is mainly a random process C Delpierre, R Fantin, S Lamy, P Grosclaude, T Lang, M Kelly-Irving

      Tomasetti and Vogelstein (1) suggest in a recent study that the majority of the variation in cancer risk in tissues (65%) is attributable to “bad luck”. This resounding fact is underscored in their paper, and has led to widespread global media interest. The unfortunate consequence of such media interest is misrepresentation and confusion surrounding the results. Three points should be raised to appropriately consider the significance of the authors’ findings. First point: the authors compare the probability of a cancer cell appearing at the tissue level, and not at the individual level. Their study does not say anything about the differences in cancer incidence observed at the population level, between countries or social groups. The risk of developing cancer is not random at the population level. The risk at the tissue level cannot be attributed to the level of the individual human, and certainly should not lead to population-level assumptions. The authors found that 21 cancers among the 32 studied (71%) represent ‘replicative cancers’ (stochastic cancers) and 9 cancers (29%) represent ‘deterministic cancers’ (linked to environmental or hereditary of cancer types). If we consider the number of cancer cases by type, the proportions are then dramatically different. Based on the same data used by the authors on cancer incidence in 2014 (2) and information provided in the supplementary materials, the proportion of total cancers represented by replicative cancers is around 20%. Cancer types not included in the study like prostate, breast, cervical, uterine and endometrial, kidney and bladder cancers, for which environmental factors have been identified or suspected, represent around 40% of cancer cases. Consequently, the significance accorded to “bad luck” is radically different in terms of cancer cases, since only a minority of cancer cases may be due to “bad luck”, ultimately changing the conclusions of the paper in particular at a public health level regarding possible prevention strategies. It is then ambiguous to write in the last paragraph that “stochastic effects associated with DNA replication contribute in a substantial way to human cancer incidence.” Second point: we have a number of questions regarding calculations presented in the paper. After careful reading of the main article and the supplementary materials it seems that figure 1 does not represent the lifetime risk of cancer according to the total number of stem cell divisions, as written in column 3 on page 79, but plots the log of the lifetime risk for cancer according to the log of the total number of stem cell divisions (as indicated on page 11 of the supplementary materials). If so the Pearson correlation of 0.804 has in fact been calculated using the log of the two values. Consequently the explained part of variance of 65% refers to the explained part of variance of the log of the lifetime risk for cancer. There are two ways to estimate the proportion of observed differences in cancer risk among tissues explained by the observed total number of stem cells divisions: 1) Using the initial values, the linear correlation is 0.53 suggesting that this proportion is 28% instead of 65%. 2) Using a log-log model (seemingly used by the authors here), the inverse function of the log10-function should be used to calculate the errors of the model. According to our calculations the proportion is 15%. Obviously, whatever the approach used, the results refer to a significantly smaller proportion of the variation in cancer risk among tissues due to ‘bad luck’ which substantially modifies the main message of the paper. Third point: as epidemiologists it seems important to underline that correlation does not mean causation. The authors highlight that cell replication is a major factor determining the appearance of tumor cells. However, mutation is a necessary – but not sufficient - condition for developing cancer. A cancer occurs when many physiological systems fail in particular the immune system which must fail to identify and destroy a cancer cell, allowing it to replicate (3,4). The “behavior” of the immune system has not been shown to be random, but linked with a number of exogenous factors. Thus, even if mutations occur at random, cancer development cannot be considered a random process. Moreover, the assumption that tumor cells are forming at different rates in different tissues on a regular basis depending on the number of stem cell divisions is questionable. Some evidence exists indeed regarding the interconnection between epigenetic processes and mutations in cancer (5). Since epigenetic processes are likely to vary according to environmental conditions, mutation rates might vary according to environmental challenges through epigenetic mechanisms.

      Cancer does not occur randomly. While tumor cell production may have an inherent stochastic nature, this is one component of an interaction between complex systems at the individual level, which are not random. At the population level, cancers are not randomly distributed between groups. Medicine and public health need to persist in finding areas of cancer prevention moving above and beyond classic risk factors that take whole systems, both biological and social, into account.

      References 1. C. Tomasetti, B. Vogelstein. Science 347, 78-81 (2015) 2. National Cancer Institute, Surveillance, Epidemiology, and End Results Program. http://www.seer.cancer.gov/statfacts 3. K Ryunga, E Manabu, T Kazuaki. Immunology 121, 1-14 (2007) 4. T.J. Stewart, S. Abrams. Oncogene. 2008 Oct 6;27, 5894-903 (2008). 5. J.S. You, P.A. Jones. Cancer Cell Review. 22, 9-20 (2012)


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    5. On 2015 Feb 04, Michele Ciulla commented:

      The human side of randomness.

      The interest of the article by Tomasetti and Vogelstein (1) is mainly epistemological: can science, with its current setting, help us to understand the true meaning of diseases such as cancer? When we try to justify our inferences on the machine of fate, despite knowing that this machine is driven largely by randomness, well we have a problem and this is, at least in part, our partial ignorance of the phenomenon that requires, above all, a reflection on the science of certainty and uncertainty (2). From the clinical point of view, a random event, like an unexpected disease, could have other explanations related to the history of that individual patient. Before building the clinic of randomness, it might be useful to consider patients not only as cases of a statistics but like mind-body unities with a psychosocial individuality and physicians are invited to reflect on Descartes (3). When considering the series of events leading to the neoplastic drift they are possibly non-linear showing a kind of evolution which reflects the changes of the environmental pressure on the individuals and their adaptive responses. This pressure is higher exactly where the genetic program has planned to allocate generative and re-generative resources for development and to buffer environmental changes (4). Thus, tissues that undergo the greatest environmental stress and, therefore, require a greater renewal, are the ones most exposed to the risk of developing malignancies, as the article clearly shows. The boundary between health and disease moves according the reciprocal interaction phenotype-environment and each of us, it should be remembered, is a different phenotype. Who will be next? It is not a roll of the dice to decide it, we have a genetic program that goes on and an environment in continuous change, the machine of fate is just what we call living.

      References

      1 C.Tomasetti, B. Vogelstein, Science 347 (6217), 78-81 (2015) http://www.sciencemag.org/content/347/6217/78.long

      2 E.V. Colani, Journal of Uncertain Systems 2 (3), 202-211 (2008) http://www.worldacademicunion.com/journal/jus/jusVol02No3paper05.pdf

      3 G. Duncan, Journal of Medicine and Philosophy 25 (4), 485-513 (2000) http://jmp.oxfordjournals.org/content/25/4/485.short

      4 M.M. Ciulla, G.L. Perrucci and F. Magrini, in Regenerative Medicine and Tissue Engineering (InTech Press, 2013), chap 26. http://www.intechopen.com/books/regenerative-medicine-and-tissue-engineering/adaptation-and-evolution-in-a-gravitational-environment-a-theoretical-framework-for-the-limited-re-g


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    6. On 2015 Jan 20, Paolo Vineis commented:

      We read Drs. Tomasetti and Vogelstein paper on the strong and positive association between the frequency of stem cell division and the risk of cancer with interest (1). However, their analytical approach was limited and their interpretation of findings was misleading. First, the study was based on a relatively small number of cancer types, most of which are rare, and excluded several common cancer types such as breast, prostate, bladder, and endometrium. Second, the frequency of stem cell division over time or across region is expected to change very little compared to changes in risk of cancer for the various cancer types. For example, during the 20th century in the US, risk for lung cancer increased by more than 50 fold but decreased by about ten-fold for cervix and stomach cancers (2). Liver cancer incidence rates in males (number of newly diagnosed cancer cases per 100,000 males per year) range from 2 in Iceland to almost 100 in Mongolia (3), with even larger variation if we were to consider incidence in high-risk vs. low-risk subgroups of populations. These data suggest that the degree of association between the frequency of stem cell division and the risk of cancer across tissues is unlikely to remain constant over time and across regions. Third, their statement on page 79, first column “we show that these stochastic influences are in fact the major contributors to cancer overall, often more important than either hereditary or external environmental factors” is not supported by the data. They can only say that variations in life time risk of cancer across cancer types could be explained by differences in frequency of stem cell divisions as stated on page 79 of the paper. Fourth, the inclusion of oesophageal and head and neck cancers in the “Replicative” category is questionable, since risk factors are well-known for a large fraction of these cancers. The overall conclusion that a large proportion of cancers would not be preventable is not supported by the analyses contained in the paper.

      Paolo Vineis School of Public Health, Imperial College London, W2 1PG UK. e-mail - p.vineis@imperial.ac.uk Ahmedin Jemal American Cancer Society, Atlanta, GA 30303 USA

      1. Tomasetti C, Vogelstein B. Cancer etiology. Variation in cancer risk among tissues can be explained by the number of stem cell divisions. Science. 2015 Jan 2;347(6217):78-81
      2. Siegel RL, Miller KD, Jemal A. Cancer Statistics, 2015. CA Cancer J Clin. 2015 Jan 5. doi: 10.3322/caac.21254. [Epub ahead of PRINT
      3. Globocan 2012, International Agency for Reaserch on Cancer. Acessed on January 9, 2015. http://globocan.iarc.fr/Default.aspx


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    7. On 2015 Jan 15, Vladimir Kuznetsov commented:

      One of the main hallmarks of cancer is uncontrolled cell proliferation, ultimately leading to the death of the multicellular organism. The strong link between cell proliferation and cancer risk is well-known[1]. While studying this correlation in various human tissues, the scientists at Johns Hopkins University in the U.S. hypothesize that most of the genomic changes leading to human cancer "occur simply by chance during DNA replication rather than as a result of carcinogenic factors"[2]. According to their hypothesis, the authors observed correlation between the estimates of division rates of normal self-renewing tissue-specific cell population (termed as “normal stem cells”(NSC)) with the estimates of overall lifetime risk of cancers, studied across the USA population. In this comment, I point out that the lack of tissue-specific data quality and its incompleteness, population bias, and oversimplification of modeling can lead to ambiguity in the interpretation of the results and loss of confidence in the dichotomized classification of tissue-specific cancer risks in context of efficiency of 'primary prevention measures'. 1. The cell counts and division rates of NSC in normally slow-proliferative and non-proliferated tissues/cell subpopulation (in liver, brain, gallbladder, thyroid tissue, bone, and pancreas) might not be accurately estimated and extrapolate to CSC. 2. The correlation model does not consider directly the level of variation of the number of NSC divisions due to "random mutations arising during DNA replication in normal non-cancerous stem cells" in individuals. According to the authors, "random mutations arising during DNA replication in normal non-cancerous stem cells” leading eventually to occurrence of cancer stem cells (CSC) and tumors due to “many genomic changes occur simply by chance”, or “bad luck”. However, recent integrative genomics studies of somatic mutation spectra in different tumors defined tissue-associated non-random somatic mutation signatures, mutation clusters with specific sequence context and preferential location of the mutations in certain disease-associated chromosomal regions involved in the initiation and development tissue-origin tumor types and subtypes [3, 4]. 3. The model in [2] assumes that the proliferation rate of NSC in normal tissue and the proliferation rate of CSC are closely correlated, however the assumption may be not true [3]. 4. Based on "extra risk score"(ERS) cluster analysis, the authors provided a classification of the tumors into two classes, referred as R-tumors (occurred at random; relatively smaller ERS) and D-tumors (occurred via additional 'deterministic factors'). However, ERS did not include any additive and multiplicative factors which allow to estimate explicitly the effects of individual covariates and their interactions (for instance see [5]). Thus, clustering model does not allow in principle to estimate the significance of alternative factors due to absence of these covariates in the model risk assessment. 4.Variation of the total number of stem cell divisions during an individual’s lifetime is unknown. Therefore, the model reported in [2] says nothing about variation in the cancer risk between individuals and cannot say that ~70% of cancer cases are just "bad luck" only due to count of the rates of divisions in the limited number of normal stem cells. It was argued, that breast cancer stem cell-like cells arise de novo form non-stem-like tumor cells [3] and this could make cancer cell population more heterogeneous. Such plasticity indicates that the concept of CSC can be essentially different from that of NSC. It makes a linear correlation model proposed in [2] more difficult in context of its mechanistic interpretation.<br> 5.The authors considered the "ovarian cancer germ cell" as a representative precursor (“cell of origin”) of the cancer cells in ovaries. However, according to the literature, “ovarian cancer germ cells” (should be classified as D-tumors) and responsible for only a few percent of ovarian cancer cases. Furthermore, "ovarian cancer” can be mostly represented by some distinct secondary “cell of origin” due to migration (or metastasis) from source tissues/organs [6, 7]. Therefore, the estimations under their model assumptions become inappropriate.<br> 6.The authors used 31 normal tissues. The exclusion of the common cancers (breast, prostate and gastric cancers) and the inclusion of 5 times osteosarcomas (depended samples) could induce essential bias which further complicates result interpretation and ability to extrapolate the results into entire population in the USA. 7.Their analysis was not directly concerned with the variations of population-specific incidences or other environmental causes of cancers. For instance, according to published statistics, oral cancer (OrCa) is a heterogeneous group of cancers arising from different parts of the oral cavity, with well-defined and differentiated predisposing risk factors, prevalence, and treatment outcomes[8-10]. There is a significant difference in the incidence of OrCa in different regions of the world. In contrast with the U.S. population where oral cavity cancer represents only about 3% of occurring malignancies, it accounts for over 30% of all oral cancers in India. Due to these results, it is unlikely that these well-established observations can be explained with the prevalence of “oral cancer stem cells”[2] variations. It was estimated that 91% of OrCa cases in the U.K. are linked to lifestyle factors including smoking (57%), alcohol (30%), and infections (13%)[9]. Such knowledge provides oncologists and patients a real hope for prophylactic efforts and prevention via early detection of the OrCa in a near future[10,11]. However according to the prediction in [2], OrCa was classified as so-called R-tumors, of which “primary prevention measures are not likely to be very effective”[2]. 8. Comparison of Fig2 and Fig S1 in the main text and suppl. file, shows that so-called D class tumors includes 9 cancer types in Fig 2 whereas12 cancer types were represented in Figure S1. In Fig S1, head &neck, melanoma, and gallbladder tumors were included in the D-cluster. Also, for ovarian, testicular, and thyroid cancers which were classified by the authors[2] as R-tumors, the significance of the impact of lifestyle and diet in reducing the cancer risk has been reported[12]. For others such as pancreatic, laryngeal, lip and oral cancers which were also classified as R-tumors, the significance of smoking as significant risk factors has also been established. Therefore, there are several inconsistencies in the results of [2] when compared with current knowledge from the literature. 9.Summary: The classification of the tumors on the R (random) and D (deterministic) classes is based on indirect and unreliable measurements and to a certain extent, even inconsistent with well-established data. Risks of at least several of the R-tumor types of cancer can be significantly reduced by several environmental improvements, diets and prophylactic approaches. Therefore, the conclusion that "primary prevention measures are not likely to be effective..." for tumors arising in organs undergoing origin stem cells and their divisions could be misleading and inappropriate. The predictions of the models based on the U.S. data might not be scalable onto other countries and geographic regions. Direct detection of the NSC and CSC characteristics should be obtained and multivariate probabilistic models of cancer risk prediction should be developed and used.

      References: PMID: 1: 2174724; 2: 25554788; 3: 21854987; 4: 24132290;5: ISBN 978-0-205-45938-4; 6: 24879340; 7: 24265397; 8: 24408568; 9: http://www.cancerresearchuk.org/cancer-info/cancerstats/keyfacts/Allcancerscombined/;10: 16629526; 11: 15936419; 12: 24379012


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    8. On 2015 Jan 13, Mark Burkitt commented:

      The powerful correlation between the rate of stem cell proliferation and the incidence of cancer across a range of tissues, reported recently by Tomasetti and Vogelstein (1), provides important insight into the origins of cancer.

      From the findings of their study, the authors appear to make the case that random mutations, occurring during stem cell divisions, are responsible for the majority of cancers. Although many environmental agents (including dietary carcinogens and various forms of radiation) are able to cause mutation, Tomasetti and Vogelstein argue that the variation in the incidence of cancer across different tissues can be explained largely in terms of the differences in the rates of cell division between tissues: the greater the number of cell divisions, the greater the number of random mutations, hence the greater the incidence of cancer. There is, however, an alternative explanation for the statistical correlation revealed by Tomasetti and Vogelstein – an explanation in which environmental factors play a more important, underlying role.

      Consider the scenario in which an environmental agent (let’s say, a chemical carcinogen in the diet) causes a mutation in a stem cell. Whether or not this develops into a tumour depends on several factors, including whether the mutated (precancerous) cell undergoes proliferation before it can be destroyed by apoptosis and/or the immune system. There is also a window of opportunity for DNA repair enzymes to detect and repair the lesion before the cell divides. Therefore, from the moment a mutation arises, a race is on: can the cell be repaired or deleted before it divides? If the mutation occurs in a cell type having a high rate of cell division, it is more likely to lead to a clone of modified cells and, consequently, a tumour.

      Such a view of the origins of cancer is consistent with the statistical trend reported by Tomasetti and Vogelstein: an environmental ‘factor’ acting on a stem cell in, for example, the colon is more likely to result in a tumour than the same factor acting on a cell in the leg. The rate of cell proliferation correlates with the risk of cancer so convincingly precisely because cell division is needed to ‘fix’ the mutation caused by the environmental agent – to convert the mutated cell into a tumour clone before it is repaired or deleted by the various surveillance systems.

      The situation is not unlike that encountered in chemical kinetics, a central tenet of which is that the overall rate of a chemical reaction cannot be greater than the rate of its slowest step, the so-called rate-limiting step. No matter how many environmental mutagens you throw at the DNA of a cell, its rate of conversion to a tumour is determined by the rate-limiting step of the whole process – the rate of cell proliferation. If so, then environmental factors may play a greater (albeit ‘hidden’) role in the risk of cancer than might be suggested by Tomasetti and Vogelstein. It could be argued that the environmental component of cancer risk has evaded detection by the statistician’s radar.

      References 1. Tomasetti C, Vogelstein B. Variation in cancer risk among tissues can be explained by the number of stem cell divisions. Science 2015; 347:78-81. doi: 10.1126/science.1260825


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    9. On 2015 Jan 09, GEORGE BLANCK commented:

      Stochastic aspects of cancer development:

      The article by Tomasetti and Vogelstein (1) has helped add another dimension to the study of cancer development, most often driven by researching intracellular signaling pathway malfunctions and microenvironment effects, including inflammation. In fact, there are many molecular aspects cancer development that are governed by a random chance component of biological processes. First, genes that form cancer fusion genes are comparatively large (2, 3), presumably due to large introns providing for many opportunities for a productive recombination that leads to a chimeric protein, requiring of course intact exons, but in most cases, no particular retention of intron sequences. Interestingly, one of the smallest cancer fusion genes, EWSR1 (2), occurs in Ewing’s sarcoma, among the rarest cancers.

      The sequential order of mutations, originally thought to represent requirements for an ordered process of acquisition of cancer hallmarks, could also be (at least partially) explained on the basis of gene size (4), with metastasis suppressor genes, which cannot be readily distinguished from classical tumor suppressor genes via signal pathway exclusivity, being comparatively small (4) and thus potentially less likely to be mutated early in cancer development. It is not inconceivable that certain functions are required to precede others in cancer development. For example, lack of apoptosis remains a good candidate for preceding metastasis (4). However, stochastic functions are likely to be a major basis for sequential mutations, and this underlying factor is consistent with the more recent appreciation of signal pathway degeneracy in cancer, reflected in the many alternative pathways discovered in drug-resistant cells and by many other aspects of cancer research indicating pathway degeneracy. In short, there is less opportunity to argue for an ordered acquisition of cancer hallmarks if the underlying mechanisms do not credibly distinguish such hallmarks (4, 5).

      Interestingly, cytoskeletal related proteins represent some of the largest coding regions in the human genome, and not surprisingly cytoskeletal related protein coding regions are very commonly found mutated in the cancer genome atlas (6). Thus, mutant cytoskeletal proteins may be stochastically inevitable, which raises several interesting questions related to the mutational basis of cancer development and cell shape. First, do mutant cytoskeletal related proteins have a high propensity for a dominant negative impact on the cytoskeleton, as do mutant forms of collagen polypeptides in Osteogenesis imperfecta, where cartilage polymer formation is disrupted by a mutant collagen molecule from just one allele? Second, is the oft-reported, and decades-old connection between metastasis and spherical cells (7, 8) due to mutant forms of the cytoskeleton, which provide for cell rounding and detachment and thus distant circulation? And finally, is the oft-reported, but much more recent connection between spherical cells and drug resistance (9-11) due to common, mutant cytoskeletons that essentially lead to a decreased surface area to volume ratio, in turn leading to reduced intracellular drug concentrations?

      As noted (1), the more cell divisions, the more errors, due to intrinsic DNA replication error rates. It remains to be seen to what extent this conclusion is relevant to cancer development in specific settings. Cell division rates may vary with circumstance, particularly over a lifetime, due to such events as wound healing, surgery or radiation or accidents that remove replicative tissue, lymphocyte replication in infections and vaccinations, etc.

      The appreciation of probabilistic functions governing cancer development should lead to fresh research avenues, as did the understanding of the roles of signal pathway malfunctions and inflammation. Can screening be organized with more refined purposes and more cost-efficiency, when accounting for the stochastic aspect of mutation occurrence and cancer development? For example, it is likely that point mutations leading to an activating oncoprotein are relatively rare and will have a relatively high probability of being followed by a mutation in a large tumor suppressor gene. On the other hand, many (apparent) cancers that represent large gene mutations may not require aggressive treatment, because the chance of a single base change leading to an activating oncoprotein, needed for aggressive cancer, may be minimal (12).

      And, how do stochastic events compare to differences in DNA repair polymorphisms or other rate-limiting aspects of mutation occurrence, such as the differences in mutation rates between heterochromatin and transcriptionally active regions (13)? For example, are there long-term, disease-free smokers because of luck or because of highly efficient repair mechanisms?<br>   References to PubMed comment, January 9, 2015: 1. PMID: 25554788. 2. PMID: 19446742. 3. PMID: 23162078. 4. PMID: 22701759. 5. PMID: 25450826. 6. PMID: 25451318. 7. PMID: 6256751. 8. PMID: 7000337. 9. PMID: 24409314. 10. PMID: 24112388. 11. PMID: 24821384. 12. PMID: 25294886. 13. PMID: 25456125.


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    10. On 2015 Jan 06, Andrea Coletta commented:

      As other commentators before me, I find hard to accept the authors conclusions.

      Although the clustering shows a larger number of cancer types (22 vs 9) for which random mutations seems to be the major causing factor, this cannot directly lead to the conclusion that the majority of absolute number of cancers are caused by random mutations. If we compare Fig1 and Fig2 in the article we can see that the so called "minority" (9 cancer types) have an approximate average lifetime risk ~10E-1 while this is surely lower in the case of the "majority" (22 cancer types). I think that a simple weighted average would re-balance the presented figures of 1/3 vs 2/3 in "favor" of the genetic+environment causes, though I'm not sure this would be the most accurate way to follow (from a statistical point of view).


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    11. On 2015 Jan 05, Vincent Detours commented:

      No one denies that cancer initiation has a stochastic component, but the conclusion that "prevention measure are not likely to be effective" for tumors arising in organs undergoing many stem cell divisions could be dangerously broad if not misleading.

      The paper's investigation is limited to the variation of cancer incidence among organs within a single population. But the incidence of many cancers varies enormously among populations. For example, the incidence of esophagus cancer is 20-30 time higher in China than in the USA and 50-100 higher in subject with a history of Barett esophagus (http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3769895). Yet, this cancer is considered the result of 'bad luck' and unlikely to benefit from prevention measures (R-group) according to Tomasetti and Vogelstein who consider only the overall incidence in the USA. Their analysis is blind to the population-specific incidences and consequently to many environmental and genetics causes of cancer.

      The variation of cancer incidence among organs spans five orders of magnitudes. Hence, a one or two orders of magnitude difference due to, say, Barett esophagus, would presumably not affect drastically the overall correlation between organ-related incidence and stem cell division. The classification in the 'deterministic' vs. 'replicative' framework proposed in the paper, however, could change dramatically. This is in fact illustrated by a few cancers for which the authors stratify incidence according to etiology, e.g. virus-associated liver and head & neck cancers vs. their non virus-related counterparts and lung cancers of smokers vs. non smokers. Likely the same could have occurred with many other cancers provided a more detailed population stratification.

      Another possibility limiting the authors conclusions is that the total number stem cells divisions in an organ could itself vary from person to person under the influence of non-random genetic and/or environmental factors. A trivial example is age. It is hardly a preventable phenomenon, but other preventable factors could also play a role, tissue injury for example.

      A fully developped and extended version of this comment can be found here: http://biorxiv.org/content/early/2015/08/12/024497.


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    12. On 2015 Jan 03, William Grant commented:

      The paper by Tomasetti and Vogelstein reported that variation in cancer risk among tissues can be explained by the number of stem cell divisions (1). In addition, they divided cancer types into two categories: those more susceptible to environmental factors (D-tumors) and those more susceptible to stochastic effects associated with DNA replication of the tissues' stem cells (R-tumors). The authors concluded that primary prevention measures were not likely to be very effective for R-tumor types of cancer. In this comment, I point out that risk of cancers in this category can be reduced through primary prevention measures.

      One way to reduce risk of many types of cancer is through higher solar UVB exposure. Many types of cancers have been found inversely correlated with indices of solar UVB doses in geographical ecological studies in the United States and several other countries including these types of R-tumor types of cancer:esophageal, gallbladder, ovarian, and pancreatic cancer (2). Also, these R-tumor types of cancer have been found inversely correlated with 25-hydroxyvitamin D [25(OH)D] concentrations in prospective observational studies: chronic lymphocytic leukemia (3), head and neck cancer (4), hepatocellular carcinoma (5), and pancreatic cancer (4). One D-tumor type of cancer has the strongest evidence for beneficial effects of UVB exposure and vitamin D: colorectal cancer.

      The findings with respect to UVB exposure are generally attributed to production of vitamin D. However, they may also include some effects from mechanisms other than vitamin D. For example, in a mouse model experiment on intestinal tumors, considered an R-tumor type of cancer, both UVB exposure and oral vitamin D reduced the progression of the tumors, with UVB being more effective than oral vitamin D at approximately the same 25(OH)D concentrations (6). However, neither approach reduced the incidence rate of intestinal tumors in this mouse model with a genetic propensity for intestinal tumors. The mechanisms whereby vitamin D reduces the risk of cancer include effects on cellular differentiation, progression, and apoptosis (2). Vitamin D also reduces progression of tumors by reducing angiogenesis around tumors, and reduces metastasis as well.

      Another very important risk factor for cancer is diet. In a multi-country ecological study of cancer incidence rates with respect to diet, smoking, latitude, gross domestic product, alcohol consumption, and life expectancy, high animal product consumption was a significant risk factor for three types of R-tumor cancers: ovarian, testicular, and thyroid cancer (7). Smoking was a significant risk factor for these types of R-tumor cancers: laryngeal, lip and oral, and pancreatic cancer. Animal product consumption is a risk factor for cancer in part through increasing insulin-like growth factor-I (IGF-I) (8), which increases growth tumors as shown for small cell lung cancer (9).

      Thus, risk of several of the R-tumor types of cancer can be reduced by several environmental approaches including higher UVB exposure and 25(OH)D concentrations, eating fewer animal products, and not smoking. So "bad luck" can be overcome by "healthy choices".

      References 1. Tomasetti C, Vogelstein B. Variation in cancer risk among tissues can be explained by the number of stem cell divisions. Science 2015;347:78-81. 2. Moukayed M, Grant WB. Molecular link between vitamin D and cancer prevention. Nutrients. 2013;5:3993-4023. http://www.mdpi.com/2072-6643/5/10/3993 3. Luczynska A, Kaaks R, Rohrmann S, et al. Plasma 25-hydroxyvitamin D concentration and lymphoma risk: results of the European Prospective Investigation into Cancer and Nutrition. Am J Clin Nutr. 2013;98:827-38 4. Afzal S, Bojesen SE, Nordestgaard BG. Low plasma 25-hydroxyvitamin D and risk of tobacco-related cancer. Clin Chem. 2013;59:771-80. 5. Fedirko V, Duarte-Salles T, Bamia C, et al. Pre-diagnostic circulating vitamin D levels and risk of hepatocellular carcinoma in European populations: A nested case-control study. Hepatology. 2014;60:1222-30. 6. Rebel H, der Spek CD, Salvatori D, et al. UV exposure inhibits intestinal tumour growth and progression to malignancy in intestine-specific Apc mutant mice kept on low vitamin D diet. Int J Cancer. 2015;136:271-7. 7. Grant WB. A multicountry ecological study of cancer incidence rates in 2008 with respect to various risk-modifying factors, Nutrients. 2014;6:163-189. http://www.mdpi.com/2072-6643/6/1/163 8. Larsson SC, Wolk K, Brismar K, Wolk A. Association of diet with serum insulin-like growth factor I in middle-aged and elderly men. Am J Clin Nutr. 2005;81:1163-7. 9. Warshamana-Greene GS, Litz J, Buchdunger E, et al. The insulin-like growth factor-I (IGF-I) receptor kinase inhibitor NVP-ADW742, in combination with STI571, delineates a spectrum of dependence of small cell lung cancer on IGF-I and stem cell factor signaling. Mol Cancer Ther. 2004;3:527-35.

      Disclosure I receive funding from Bio-Tech Pharmacal (Fayetteville, AR) and MediSun Technology (Highland Park, IL).


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    1. On 2015 May 02, Arthur Yin Fan commented:

      The original trial by Hinman's has many methodology flaws, please read the comments under the original trial report.


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    1. On 2015 Apr 14, RheumJC - Rheumatology Twitter-Based Journal Club commented:

      This article was discussed on January 29th, 2015 by participants of the inaugural session of #RheumJC, an international Twitter-based Rheumatology Journal Club. An engaging discussion on the science of the topic as well as the methodology of the study was had over 2 different one hour live "chats". There were 383 tweets (330 unique tweets, 53 retweets) by 38 unique participants from 5 different countries. Participants included 17 Rheumatologists, 7 Nephrologists, 6 Fellows in training/students, 1 Hospitalist, 1 Pharmacologist, and others.

      A storify summary of the sessions can be seen at http://rheumjc.com/2015/01/storify-inaugural-rheumjc/

      Interested individuals can track and join in future journal clubs by following @RheumJC or #RheumJC, or visit the webpage at rheumjc.com and sign up for announcements.


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    1. On 2016 Aug 23, Ben Goldacre commented:

      This trial has the wrong trial registry ID associated with it on PubMed: both in the XML on PubMed, and in the body of the text of the article. The ID given is NCT00137370. We believe the correct ID, which we have found by hand searching, is NCT00137670.

      This comment is being posted as part of the OpenTrials.net project<sup>[1]</sup> , an open database threading together all publicly accessible documents and data on each trial, globally. In the course of creating the database, and matching documents and data sources about trials from different locations, we have identified various anomalies in datasets such as PubMed, and in published papers. Alongside documenting the prevalence of problems, we are also attempting to correct these errors and anomalies wherever possible, by feeding back to the originators. We have corrected this data in the OpenTrials.net database; we hope that this trial’s text and metadata can also be corrected at source, in PubMed and in the accompanying paper.

      Many thanks,

      Jessica Fleminger, Ben Goldacre*

      [1] Goldacre, B., Gray, J., 2016. OpenTrials: towards a collaborative open database of all available information on all clinical trials. Trials 17. doi:10.1186/s13063-016-1290-8

      * Dr Ben Goldacre BA MA MSc MBBS MRCPsych<br> Senior Clinical Research Fellow<br> ben.goldacre@phc.ox.ac.uk<br> www.ebmDataLab.net<br> Centre for Evidence Based Medicine<br> Department of Primary Care Health Sciences<br> University of Oxford<br> Radcliffe Observatory Quarter<br> Woodstock Road<br> Oxford OX2 6GG


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    1. On 2015 Jan 06, Anthony Michael commented:

      Polyamine-replete rich growth medium Tryptic Soy Broth (TSB) has been used in this study for all growth and biofilm analyses. TSB contains extract from soybean, a leguminous plant closely related to alfalfa (Medicago sativa). Alfalfa is known to contain norspermidine (Rodriquez-Garay et al., 1989, “Detection of norspermidine and norspermine in Medicago sativa L. (Alfalfa)”, Plant Physiol 89(2): 525-9 Rodriguez-Garay B, 1989). The authors claim that the cell-free supernatant of the Staphylococcus epidermidis cell culture after 40 hours of growth contains self-produced norspermidine at a concentration of 326.7 micromolar. Presumably the conclusion that the norspermidine is self-produced is due to the fact that norspermidine was not detected in the supernatant after 4 hours of growth. However, no molecules were detected in the supernatant after four hours of growth, even though the growth medium is a complex rich medium (Fig. 2C). As no sequenced Staphylococcus species encodes either carboxynorspermidine dehydrogenase and carboxynorspermidine decarboxylase, or S-adenosylmethionine decarboxylase and spermidine synthase to make norspermidine or spermidine, respectively, the claim that S. epidermidis synthesizes norspermidine would be convincing only if the growth and biofilm experiments had been performed with a polyamine-free, chemically-defined growth medium.


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    1. On 2015 May 13, Hilda Bastian commented:

      Since writing this editorial, I have expanded on two of my central concerns here in blog posts. One of those is on women scientists making their opinions public. The other is a deep dive into the literature on anonymity and openness in publication review.


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    1. On 2015 Jan 01, Prashant Sharma, MD, DM commented:

      Flow cytometric immunophenotying is the standard of care in lymphoid malignancies, but may be omitted in resource-constrained settings if a confident diagnosis appears possible on morphology and cytochemistry. This case reminds us that such confidence may be misplaced, and could have resulted in inappropriate therapy.

      Would be happy to share the full text paper with anyone interested...


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    1. On 2015 Jul 14, Marco Weiergräber commented:

      A comment has been posted on Pubpeer on this publication in PLoS One. The authors use a transmitter out of its technical specifications, i.e. the transmitter bandwidth is 1-50Hz, the nominal sampling rate 250 Hz. Theoretically, frequency reconstruction is possible up to 125 Hz (see Nyquist-Shannon sampling limit). However, the authors analyze up to 500Hz. This is not possible and not correct.


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    1. On 2016 May 03, Suresh Panneerselvam commented:

      This is a very comprehensive and interesting review. I have learned few things from my experience and I hope some of the comments related to docking may help the beginners

      1. Experimental data about the protein is essential like site directed mutagenesis,active site,same protein but may be published using different organisms etc. One has to collect all the related experimental information before doing docking calculations in particular related to protein. Other computational studies related to the protein will also help.

      2. Use of consensus docking tools may help(in the case of very few compounds).

      3. Use of more than two structures of same protein (crystal structure from different groups or different protocol). If one doesn't have protein structural information, homology modeled protein must be in reasonable quality.

      4. Use of controls (known protein ligand crystal structure) can be redocked to see whether the experimental information (like active site) helps in predicting the correct docking pose (with less RMSD difference).

      5. Like the author said molecular dynamics (MD) helps but the timescale is not long enough to capture the accurate binding mode. Perhaps two or three different best modes can be chosen to do MD simulations and see whether it ends in a same binding pose. In some cases it helps. Otherwise one can use Random Acceleration Molecular Dynamics simulations (usuage of other methods than classical MD techniques).

      6. Active ligand conformers exists are to be considered (DOI:10.1186/1758-2946-3-4).

      7. It is to be important to consider active pH (atleast the protonation states for few residues like HIS)

      8. Usuage of protein flexibility in docking (active site residues)

      9. Try to use two or more different algorithms both in searching algoroithm as well as scoring function to see how the results are different.

      10. Read the tips from the published validation studies of the docking algorithms (DOI:10.1021/ci800293n) or for the particular protein (for eg; case studies of HEME containing protein or PMID: 15177081)


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    1. On 2015 Oct 03, Jan Tunér commented:

      The energy used here is 1 J per point (50 mW x 20 s = 1000 mJ = 1 J). For a muscle, this is far from the therapeutic window and a failure is to be expected. We found 6 J per point effective, but not necessarily optimal(Ahrari et al. 2013), even higher energies are sometimes clincally needed for reasonable results. Muscles are thick and contain a lot of hemoglobin, a major absorber of the light. Irradiation with or without pressure also changes to energy at target. The laser parameters here are well described but inadequate.


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    1. On 2015 Mar 20, Martine Crasnier-Mednansky commented:

      Sorbitol (also known as glucitol) is classified by the authors as a non-PTS sugar. However, for Escherichia coli it is a PTS sugar Lengeler J, 1975. Its transport causes PTS-linked regulations.


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    1. On 2015 Feb 15, William Grant commented:

      More reasons why breast cancer rates are higher in the United States than in Malaysia

      The paper by Horne and colleagues reported that breast cancer age-standardized incidence rates were much higher in the United States than in Malaysia for the period 2003-2011 [1]. From two SEER studies, the rates in the Unites States were 180.6 (SD, 0.31) cases/100,000/yr and 125.0 (SD, 0.68) cases/100,000/yr, while in Malaysia, the rate was 36.2 (SD, 20.3) cases/100,000/yr. Rates of ER+ breast cancer were six time higher in the United States while ER- breast cancer rates in the United States were about two times higher. Factors offered to explain the disparity in ER+ breast cancer rates were dietary fat intake, nulliparity, late age at first birth, and post-menopausal obesity, along with lower rates of mammography in Malaysia.

      This comment addresses dietary and smoking as important factors that may explain the disparity. In a recent multi-country ecological study involving 157 countries, it was found that there were three important factors that explained about 70% of the variance in breast cancer incidence rates in 2008: energy derived from animal products, gross domestic product (GDP), and smoking, with normalized regression coefficients for all countries of 0.49, 0.26, and 0.22 [2]. Since diet affects risk of breast cancer 15-30 years later, it was found that dietary supply data for 1990 gave the highest correlation between diet and breast cancer in that study. Mechanisms whereby animal products and GDP contribute to cancer risk are discussed in Ref. 2.

      Values for the two countries are as follows. In 1990, Malaysia obtained 484 kCal/d from animal products, while the United States obtained 968 kCal/d [3]. Fewer than 2% of women smoked in Malaysia in 2000 [4]. In 1990, 23% of women in the United States smoked [5]. In 2000, the GDP was $3380 per capita, while in the United States it was $35,040 per capita [6].

      Thus, lower dietary consumption of animal products, lower GDP, and lower smoking rates may explain much of the disparities, along with some mentioned in Ref. 1. Unfortunately, it does not seem likely that the risk factors will change soon in the United States, and even if they did, it would be many years before there would be dramatic effects on breast cancer rates.

      References 1. Horne HN, Beena Devi CR, Sung H, Tang TS, Rosenberg PS, Hewitt SM, Sherman ME, Anderson WF, Yang XR. Greater absolute risk for all subtypes of breast cancer in the US than Malaysia. Breast Cancer Res Treat. 2015;149(1):285-91. 2. Grant WB. A multicountry ecological study of cancer incidence rates in 2008 with respect to various risk-modifying factors, Nutrients. 2014;6(1):163-189. 3. http://faostat.fao.org/site/368/default.aspx#ancor (accessed Feb. 13, 2015) 4. http://www.tradingeconomics.com/malaysia/smoking-prevalence-females-percent-of-adults-wb-data.html 5. Centers for Disease Control (CDC). Cigarette smoking among adults--United States, 1990. MMWR Morb Mortal Wkly Rep. 1992;41(20):354-5, 361-2. 6. Encyclopedia Britannica Almanac 2004.

      Disclosure I receive funding from Bio-Tech Pharmacal, Inc. (Fayetteville, AR), MediSun Technology (Highland Park, IL), and the Vitamin D Council (San Luis Obispo, CA).


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    1. On 2016 Nov 07, Anne Niknejad commented:

      None


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    2. On 2016 Nov 07, Anne Niknejad commented:

      Note that 'survinin' does not exist...correct name is 'survivin' (BIRC5 gene) (this kind of error impacts text mining)


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    1. On 2015 Nov 23, Amanda Capes-Davis commented:

      MA-1, one of the cell lines used in this study, is misidentified and corresponds to Pfeiffer. MA-1 was originally thought to come from MALT lymphoma. As a derivative of Pfeiffer, MA-1 is actually derived from diffuse large B-cell lymphoma.

      A letter has been published in Genes, Chromosomes & Cancer on the origin of MA-1. Please refer to http://www.ncbi.nlm.nih.gov/pubmed/23907998 for more information.

      It should be noted that the authors refer to MA-1 broadly as a lymphoma cell line, which is true as far as it goes. So the question could well be asked: how much information needs to be given where the authenticity of a cell line has been called into question?

      This paper is focused on potential therapies for MALT lymphoma, amongst other lymphoma types, and examines both MA-1 and Pfeiffer. The origin of the cell line is therefore relevant, and a lack of transparency regarding the origin of the cell line may be misleading to the reader.

      Transparency could be much improved here by stating that MA-1 is a derivative of Pfeiffer and reporting the revised tissue of origin.

      A list of known misidentified cell lines is curated by the International Cell Line Authentication Committee (ICLAC) and can be found at http://iclac.org/databases/cross-contaminations/.


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    1. On 2015 Jan 07, William Grant commented:

      Differences in 25-hydroxyvitamin D concentrations may explain some of the black-white disparity in endometrial cancer prevalence in the United States

      The paper by Cote and colleagues examined risk factors for endometrial cancer in an effort to determine the cause of higher rates for blacks than for whites [1]. Overlooked in this paper was any discussion of the possible role of solar UVB exposure and vitamin D in reducing risk. This comment presents the evidence for solar UVB exposure in reducing risk of endometrial cancer, with the most likely mechanism being production of vitamin D.

      Geographical ecological studies provide the best evidence that solar UVB exposure reduces risk of endometrial cancer. An ecological study in the U.S. found a significant inverse correlation between July solar UVB doses and endometrial cancer mortality rates for white women in a multifactorial analysis [2]. (Maps of endometrial and other cancer mortality rates can be generated at http://ratecalc.cancer.gov/. A map of solar UVB doses for July 1992 can be found at www.sunarc.org. The maps for endometrial cancer for black women do not show the inverse correlation with respect to solar UVB doses, although there is a hint in that mortality rates are lowest in the southwest and higher in the east; the higher mortality rates in the southeast could be related to diet as well.) Ecological studies have also found inverse correlations between solar UVB and endometrial cancer in Spain [3] and France [4]. A study in Sweden found that women who used sunbeds or sunbathed in summer had significantly reduced risk of developing endometrial cancer [5].

      The role of vitamin D in reducing risk of cancer in general is discussed in Ref. 6. In the U.S., the mean 25-hydroxyvitamin D [25(OH)D] concentrations for elderly black women in 2001-4 was 15 ng/mL while that for elderly white women was 25 ng/mL [7]. This difference was proposed as the explanation for black-white disparities in cancer survival rates after consideration of socioeconomic status, stage at diagnosis and treatment for 13 types of cancer including endometrial cancer [8]. Obesity, identified as a risk factor for endometrial cancer in Ref. 1, lowers 25(OH)D concentrations, and has been evaluated as a contributing risk factor for breast cancer in terms of lowering 25(OH)D concentrations [9]. However, it is noted that there is little direct evidence that vitamin D lowers risk of endometrial cancer [10]. On the other hand, there is a recent mouse model study of intestinal tumor growth and progression to malignancy finding that raising 25(OH)D concentrations to about 30 ng/mL by UVB exposure was more effective than doing the same with oral vitamin D [11].

      Thus, women wishing to reduce their risk of endometrial cancer could consider spending more time in the sun, especially during midday when the UVB doses are highest, but not so long as to develop erythema, and taking vitamin D3 to raise 25(OH)D concentrations to 30-40 ng/mL.

      References 1. Cote ML, Alhajj T, Ruterbusch JJ, Bernstein L, Brinton LA, Blot WJ, Chen C, Gass M, Gaussoin S, Henderson B, Lee E, Horn-Ross PL, Kolonel LN, Kaunitz A, Liang X, Nicholson WK, Park AB, Petruzella S, Rebbeck TR, Setiawan VW, Signorello LB, Simon MS, Weiss NS, Wentzensen N, Yang HP, Zeleniuch-Jacquotte A, Olson SH. Risk factors for endometrial cancer in black and white women: a pooled analysis from the epidemiology of endometrial cancer consortium (E2C2). Cancer Causes Control. 2014 Dec 23. [Epub ahead of print] 2. Grant WB, Garland CF. The association of solar ultraviolet B (UVB) with reducing risk of cancer: multifactorial ecologic analysis of geographic variation in age-adjusted cancer mortality rates. Anticancer Res. 2006;26(4A):2687-99. 3. Grant WB. An ecologic study of cancer mortality rates in Spain with respect to indices of solar UV irradiance and smoking. Int J Cancer. 2007;120(5):1123-7. 4. Grant WB. An ecological study of cancer incidence and mortality rates in France with respect to latitude, an index for vitamin D production. Dermatoendocrinol. 2010;2(2):62-7. 5. Epstein E, Lindqvist PG, Geppert B, Olsson H. A population-based cohort study on sun habits and endometrial cancer. Br J Cancer. 2009;101(3):537-40. 6. Moukayed M, Grant WB. Molecular link between vitamin D and cancer prevention. Nutrients. 2013;5(10):3993-4023. 7. Ginde AA, Liu MC, Camargo CA Jr. Demographic differences and trends of vitamin D insufficiency in the US population, 1988-2004. Arch Intern Med. 2009;169(6):626-32. 8. Grant WB, Peiris AN. Differences in vitamin D status may account for unexplained disparities in cancer survival rates between African and White Americans. Dermatoendocrinol. 2012;4(2):85-94. 9. Lagunova Z, Porojnicu AC, Grant WB, Bruland Ø, Moan JR. Obesity and increased risk of cancer: Does decrease of serum 25-hydroxyvitamin D level with increasing body mass index explain some of the association? Molec Nutr Food Res. 2010;54(8):1127-33. 10. Liu JJ, Bertrand KA, Karageorgi S, Giovannucci E, Hankinson SE, Rosner B, Maxwell L, Rodriguez G, De Vivo I. Prospective analysis of vitamin D and endometrial cancer risk. Ann Oncol. 2013;24(3):687-92. 11. Rebel H, der Spek CD, Salvatori D, van Leeuwen JP, Robanus-Maandag EC, de Gruijl FR.UV exposure inhibits intestinal tumour growth and progression to malignancy in intestine-specific Apc mutant mice kept on low vitamin D diet. Int J Cancer. 2015;136(2):271-7.

      Disclosure I receive funding from Bio-Tech Pharmacal (Fayetteville, AR) and MediSun Technology (Highland Park, IL).


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    1. On 2015 Jan 01, Vahid Rakhshan commented:

      The authors had clearly stated in their abstract and text that a linear regression had been used. So I wonder how Dr Sabour end up concluding that a Pearson correlation coefficient had been used for prediction purposes. There was no error in the first place.


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    1. On 2014 Dec 23, David Keller commented:

      Innovative antiviral delivery systems for patients non-compliant with pre-exposure prophylaxis

      Pre-exposure prophylaxis (PEP) is a reasonable option when adherence to condom use is imperfect. In order to improve compliance with PEP by reducing pill burden, antiviral medication could be incorporated into oral contraceptive pills prescribed to seronegative female partners in HIV-discordant couples. In cases where the discordant seronegative partner is male, other means of reducing the pill count required to deliver PEP could be used. For example, a seronegative older man with erectile dysfunction who engages in risky behaviors could be prescribed a phosphodiesterase inhibitor pill (such as sildenafil) which also includes the recommended antiviral PEP medications.


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    1. On 2015 Jul 24, Miguel Lopez-Lazaro commented:

      I agree with Dr. Baker that the SMT does not explain important aspects of the disease, and that new models of carcinogenesis should be explored. The “stem cell division theory of cancer” is a new model of carcinogenesis that integrates some features from existing theories (SMT, TOFT, and CSC model) and may provide a better framework for understanding the disease. It can explain, for instance, the cellular origin of cancer, the age distribution of the disease, the existence of metastatic cancers in the absence of primary tumors, or why a variety of factors that do not directly cause DNA alterations (e.g., mechanical, physical, chemical or neural factors) can induce cancer or modify cancer risk. http://www.ncbi.nlm.nih.gov/pubmed/26090957<br> http://www.ncbi.nlm.nih.gov/pubmed/26097879


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    1. On 2015 Jan 23, Donald Forsdyke commented:

      GC% DIFFERENCES NOT CAUSED BY CONVENTIONAL SELECTION

      Its average base composition (GC%) is a characteristic of a biological species. The present work questions the view that GC% differences between species reflect responses to conventional selective pressures on organism function. Thus, the result “challenges the causes and possible functional roles (if any) of GC content variations in grass and Monocot genomes” (1). Likewise, in earlier work, the authors noted that “it is not clear why GC content in introns should also be selected for. Thus, we think that selective hypotheses are not clearly established and are currently insufficient to explain all the data adequately” (2).

      To resolve this it would be interesting to examine the GC% values of sympatric, so-called “sibling species” (espèces jumelles, Geschwisterarten). Here phenotypic differences are minimal. Indeed, it has been shown that very small differences in GC% should suffice to spark speciation. These initiating GC% differences could later be obscured by pressures on the phenotype that affect GC%. But when such phenotypic differentiation was minimal, traces of these initiating events might remain (3).

      Speciation is still mainly studied in complex organisms. Virus species that infect the same host cell have less scope for developing phenotypic differences and can be construed as sibling species. Indeed, we might recall that the mid-20th century revolution in molecular biology owed much to physicists who studied the simplest living systems – viruses that infect bacteria.

      Considering the retroviruses HIV1 and HTLV1 that both infect CD4 T lymphocytes, we find that HIV1 has one of the lowest GC% values known and HTLV1 has one of the highest GC% values known. Large differences are also found when other related viral species share a host cell. Since minute GC% differences can initiate divergence into recombinationally isolated species, it can be assumed that, in the absence of major superceding phenotypic differences, these GC% differences have remained and expanded in HIV1 and HTLV1 (4).

      Viewed from a selective perspective, an ancestral retrovirus by virtue of avoiding recombinational blending with its cell-mates, should have been able to develop sufficient functional variation “in sympatry” to achieve full speciation while retaining phenotypic characters needed for the shared intracellular environment. All this harkens back to Romanes who in 1886 proposed that initiation of divergence into species could precede subsequent phenotypic changes (5).

      (1) Clément Y, Fustier M-A, Nabholz B, Glémin S. (2015) Genome Biology and Evolution. (In press) doi:10.1093/gbe/evu278

      (2) Glémin S, Clément Y, David J, Ressayre A. (2014) GC content evolution in coding regions of angiosperm genomes: a unifying hypothesis. Trends in Genetics 30, 263-270.

      (3) Forsdyke DR (2001) The Origin of Species Revisited. McGill-Queen’s University Press, Montreal.

      (4) Forsdyke DR (2014) Implications of HIV RNA structure for recombination, speciation, and the neutralism-selectionism controversy. Microbes and Infection 16, 96-103 doi: 10.1016/j.micinf.2013.10.017.

      (5) Romanes GJ (1886) Physiological selection: An additional suggestion on the origin of species. Journal of the Linnaean Society, Zoology 19, 337-411.


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    1. On 2015 Jan 29, GEANNCARLO LUGO commented:

      Nice work. I truly enjoyed reading it. Looking forward to see the cover page!


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    1. On 2016 Oct 03, Duke RNA Biology Journal Club commented:

      Overall, we were very impressed with the thoroughness of the paper - we rarely found an experiment that did not have orthogonal experimental validation along with the necessary controls. Leaving the discussion, we were convinced that NRAV plays a role in IAV host immune response and possibly a broader viral response, which control experiments hinted at.

      More critically, we felt the paper focused on creating a broad understanding of NRAV’s function in immunity while leaving many loose ends in mechanistic understanding. For instance, an undeveloped part of this paper was the role of ZONAB in NRAV transcriptional repression. While the pulldown assays in Fig 6 I and J suggest ZONAB acts as a transcription factor of MxA, it’s not clear how this is regulated in the presence of NRAV. Perhaps performing a mass spec analysis of all proteins interacting with NRAV, see Fig 6H, would help uncover the rest of the mechanism. Additionally, our group had concerns with Fig 7. The determination of such a long RNA with structure prediction software is risky since longer RNA is more likely to be predicted to fold into many different structures with similar free energy compared to a much smaller RNA, the general query molecules for these programs. We would prefer the authors confirm these predictions with biochemical assays such as RNAse protection and SHAPE-based assays. We were also curious why the NRAV truncation mutants were not used to determine the ZONAB interaction site using pulldown methods.

      To summarize, this paper scratches the surface of NRAV’s role in viral host immunity. We hope the authors continue to provide more depth to the story by determining how NRAV is regulated, how NRAV changes histone methylation patterns at ISG transcription sites and how ZONAB specifically fits into this response. We look forward to learning more about the role of lncRNA in the immune response and will be interested to see how the other lncRNAs from Fig 1A fit into this emerging field.


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    1. On 2015 Jan 06, IGSJC - The International General Surgery Journal Club commented:

      First author Adil Haider will be joining IGSJC to discuss "Incremental Cost of Emergency Versus Elective Surgery" on Twitter January 14-15, 2015. For the month of January, Annals of Surgery has opened access to the article (available at http://bit.ly/IGSJC_Jan15), and all are welcome to contribute to the discussion.

      For tips on getting started, read http://igsjc.wordpress.com/guide-for-new-twitter-users/. Then, read the article, and return to Twitter on January 14 to take part!

      Search on Twitter for #IGSJC (https://twitter.com/hashtag/igsjc) for the latest info and to join the chat.


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    1. On 2014 Dec 30, William Grant commented:

      Here are some papers not included in this review showing benefits of vitamin D testing. Peiris AN, Bailey BA, Grant WB, Mascitelli L. Vitamin D testing. Lancet 2012 May 5;379:1699-1701.

      Der T, Bailey BA, Youssef D, Manning T, Grant WB, Peiris AN.,Vitamin D and prostate cancer survival in veterans. Military Med. 2014;179 (1) :81–84.

      Peiris AN, Bailey BA, Manning T. Relationship of vitamin D monitoring and status to bladder cancer survival in veterans. South Med J. 2013 Feb;106(2):126-30.

      Bailey BA, Manning T, Peiris AN. Vitamin D testing patterns among six Veterans Medical Centers in the Southeastern United States: links with medical costs. Mil Med. 2012 Jan;177(1):70-6.

      Of course some may have been published after your literature search was completed. However, they do support the benefits of vitamin D testing among hospital patients.

      Also, this paper is supportive in that it found that patients in the ICU with very low 25OHD concentrations benefited from vitamin D supplementation. Amrein K, Schnedl C, Holl A, Riedl R, Christopher KB, Pachler C, Urbanic Purkart T, Waltensdorfer A, Münch A, Warnkross H, Stojakovic T, Bisping E, Toller W, Smolle KH, Berghold A, Pieber TR, Dobnig H. Effect of High-Dose Vitamin D3 on Hospital Length of Stay in Critically Ill Patients With Vitamin D Deficiency: The VITdAL-ICU Randomized Clinical Trial. JAMA. 2014 Oct 15;312(15):1520-30.

      One of the impediments to acceptance of vitamin D seems to be the lack of supportive trials. The trials have not supported the ecological and observational studies largely because the trials have not been properly designed. Too often, people with normal to high 25OHD concentrations are enrolled and given a small amount of vitamin D. The proper way to conduct such trials was outlined recently in this paper: Heaney RP. Guidelines for optimizing design and analysis of clinical studies of nutrient effects. Nutr Rev. 2014 Jan;72(1):48-54.

      Disclosure I receive funding from Bio-Tech Pharmacal (Fayetteville, AR) and Medi-Sun Engineering, LLC (Highland Park, IL).


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    1. On 2017 Feb 20, Stuart MacGregor commented:

      Thank you for the bug report Christoph. Following your bug report (January 2016), the bug was fixed on the VEGAS2 web-based version in January 2016 but unfortunately not until January 2017 on the VEGAS2 offline version. Users who ran the top % test (not the default option) using VEGAS2 prior to these dates (or using the now retired VEGAS1) should re-run their analysis using VEGAS2. There is an FAQ item on this at https://vegas2.qimrberghofer.edu.au


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    2. On 2017 Jan 18, CHRISTOPH LANGE commented:

      The VEGAS/VEGAS2 software can provide p-values for the top-percentage statistic that are anti-conservative, as the computation of the null-distribution is incorrect. In our technical report, we discuss the issue and provide code that, if included in VEGAS/VEGAS2, will provide correct p-values.

      http://biorxiv.org/content/early/2017/01/17/101014


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    1. On 2015 Feb 10, Diederik W J Dippel commented:

      Dear dr Radecki, in my view the best way to synthesize evidence is the Cochrane collaboration's approach. They have done this for IV thrombolytic treatment and will quite likely update the review of intra-arterial treatment. I would highly recommend reading that report which will undoubtedly offer more insight and detail. Diederik Dippel


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    2. On 2015 Feb 06, Ryan Radecki commented:

      Post-publication commentary: "MR-CLEAN & the New Golden Age"

      I, among many others, have been highly skeptical of thrombolytic therapy and its role in the treatment of acute ischemic stroke. As has been well-documented, a few trials were positive, many were neutral, and a few were stopped early for harm or futility. To most of us, this indicates a therapy for whom only a small subset of those treated are ideal candidates for benefit, and the margin between benefit and harm is razor thin.

      In my previous posts, I’ve sighed wistfully at the hope of The Next Big Thing in stroke treatment – local endovascular therapy, akin to percutaneous coronary intervention. However, each major endovascular trial published in the New England Journal last year failed to demonstrate benefit.

      MR-CLEAN is different. MR-CLEAN is rather unambiguously positive. To be zero or minimally disabled? The endovascular intervention is favored 12% to 6%. “Functionally independent”, a modified Rankin Scale of 0-2, favors endovascular intervention 33% to 19%. A number needed to treat of, apparently, ~8 for independence is nothing to scoff at.

      But why?...

      http://www.emlitofnote.com/2014/12/mr-clean-new-golden-age.html


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    1. On 2015 Feb 02, NephJC - Nephrology Journal Club commented:

      This study was discussed on Jan 20th and 21st in the open online nephrology journal club, #NephJC, on twitter.

      Introductory comments are available at the NephJC website. The discussion was quite detailed, with more than 45 participants, including nephrologists, fellows and residents with great insight provided by participation of the first author, Areef Ishani.

      A transcript and a curated (i.e. Storified) version of the tweetchat are available at the NephJC website.

      The highlights of the tweetchat were:

      • The authors have undertaken a meticulous and well conducted epidemiological study to explain the risks of parathyroidectomy in the dialysis population, with research funding from the manufacturer of cinacalcet (which is an alternative to surgical parathyroidectomy).

      • There were concerns raised about the lack of matched controls who did not undergo surgery (especially given the contrasting result from the previous study using USRDS data, generalizability of the post surgical hospitalization data and the lack of long term follow up. However, this study does represent a solid estimate of the immediate and 1-year mortality following parathroidectomy in this population. The discussion, and the comments from the author, also helped to explain the steps taken and the reasons behind these design decisions.

      • The final question of the optimal management of secondary hyperparathyroidism still remains unanswered. Opinion was widely divided on the ideal study: most likely a randomized trial of surgical versus medical treatment of uncontrolled secondary hyperparathyroidism with clinically relevant outcomes, but with possible comparator arms being calcimimetic therapy, surgical parathyroidectomy or even placebo, suggesting a lack of consensus.

      Interested individuals can track and join in the conversation by following @NephJC or #NephJC, or visit the webpage at NephJC.com.


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    1. On 2014 Dec 18, Tom Kindlon commented:

      None


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    2. On 2014 Dec 18, Tom Kindlon commented:

      The evidence is not there to recommend CBT and GET to improve employment outcomes in CFS

      For over a decade now, some individual patients with Chronic Fatigue Syndrome (CFS)* in Great Britain and Ireland (and probably elsewhere) have been pressurised by insurance companies and occupational health professionals into undertaking graded exercise therapy (GET) and the form of cognitive behaviour therapy (CBT) that is based on scheduling increases in activity. This seems to have been largely due to hype around the efficacy of GET and CBT and extrapolations from subjective measures, as the evidence that such interventions are efficacious in restoring the ability to work is week.

      Based on the information in Tables 1, 3 and the qualitative results from this paper, CBT and GET have again been recommended to occupational professionals in these workshops.

      A lot of the evidence regarding CBT and GET and their effect on occupational outcomes in CFS has been summarised in a review (1). For some reason this is quoted sometimes as justifying claims it is evidence-based to say that GET and CBT have been shown to restore the ability to work in CFS. However the data is far less impressive. It is summarised in table 6 of that paper. The accompanying text says: "Among the 14 interventional trials with work or impairment results after intervention, there were too few of any single intervention with any specific impairment domain to allow any assessment of association."

      The PACE Trial is by far the biggest trial of these therapies in the field. It shows neither CBT nor GET led to an improved rate of days of lost employment [Means (sds): APT: 148.6 (109.2); CBT: 151.0 (108.2); GET: 144.5 (109.4); SMC (alone): 141.7 (107.5)] (Table 2) (2). Neither CBT nor GET led to improvements in numbers receiving welfare benefits or other financial payments (Table 4). These results are in contrast to the self-reported improvements in fatigue, physical functioning and some other measures (3).

      A major audit of Belgian CFS rehabilitation (CBT & GET) centres also gives real-world data on the issue (4). The sample size was large, with over 600 patients with a confirmed diagnosis of CFS (using the Fukuda et al. criteria (5)) taking part. It "comprised on average per patient 41 to 62 hours of rehabilitation" It found that "physical capacity did not change; employment status decreased at the end of the therapy." Again improvements were found in some self-reported measures.

      It should be noted that a large assortment of abnormalities have been found in terms of the exercise response in CFS, with high rates of adverse reactions have been reported in patient surveys from CBT and GET, particularly with the latter, again putting in to question any recommendations of CBT and GET for CFS (6,7).

      All in all, I question suggestions that occupational health professionals should be recommending CBT and GET to individuals with CFS.

      • I'll use the term for consistency.

      References:

      (1) Ross SD, Estok RP, Frame D, Stone LR, Ludensky V, Levine CB. Disability and chronic fatigue syndrome: a focus on function. Arch Intern Med. 2004 May 24;164(10):1098-107. http://archinte.ama-assn.org/cgi/content/full/164/10/1098 or http://archinte.ama-assn.org/cgi/reprint/164/10/1098

      (2) McCrone P, Sharpe M, Chalder T, Knapp M, Johnson AL, et al. (2012) Adaptive Pacing, Cognitive Behaviour Therapy, Graded Exercise, and Specialist Medical Care for Chronic Fatigue Syndrome: A Cost-Effectiveness Analysis. PLoS ONE 7(8): e40808. doi:10.1371/journal.pone.0040808

      (3) White PD, Goldsmith KA, Johnson AL, Potts L, Walwyn R, et al. (2011) Comparison of adaptive pacing therapy, cognitive behaviour therapy, graded exercise therapy, and specialist medical care for chronic fatigue syndrome (PACE): a randomised trial. Lancet 377: 823-836.

      (4) [Fatigue Syndrome: diagnosis, treatment and organisation of care] KCE Reports 88. (with summary in English). Accessed: 6th August, 2012. https://kce.fgov.be/publication/report/fatigue-syndrome-diagnosis-treatment- and-organisation-of-care

      (5) Fukuda K, Straus SE, Hickie I, Sharpe MC, Dobbins JG, Komaroff A. The chronic fatigue syndrome: a comprehensive approach to its definition and study. International Chronic Fatigue Syndrome Study Group. Ann Intern Med. 1994 Dec 15;121(12):953-9.

      (6) Twisk FN, Maes M. A review on cognitive behavorial therapy (CBT) and graded exercise therapy (GET) in myalgic encephalomyelitis (ME) / chronic fatigue syndrome (CFS): CBT/GET is not only ineffective and not evidence-based, but also potentially harmful for many patients with ME/CFS. Neuro Endocrinol Lett. 2009;30(3):284-99. Review.

      (7) Kindlon T. Reporting of Harms Associated with Graded Exercise Therapy and Cognitive Behavioural Therapy in Myalgic Encephalomyelitis/Chronic Fatigue Syndrome Bulletin of the IACFS/ME. 2011;19(2):59-111. http://www.iacfsme.org/BULLETINFALL2011/Fall2011KindlonHarmsPaperABSTRACT/ta bid/501/Default.aspx


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    1. On 2016 Jun 02, David Keller commented:

      Information Theory versus FDA regulations governing colon cancer screening

      The ColoGuard colorectal cancer screening test is composed of 7 different sub-tests, including an assay for occult fecal hemoglobin, 5 assays for specific DNA changes associated with malignancy, and an assay for normal DNA to standardize the sample. The results of these seven subtests are combined using complex equations to yield a Composite Score ("CS") ranging from 0 to 1000 and directly related to the likelihood of colon neoplasia. A CS of 183 was established as the threshold for further screening with colonoscopy; If the CS is larger than or equal to 183, the patient is sent for colonoscopy, and if the CS is lower than 183, the patient is spared further testing. [1,2]

      The FDA prohibits the release of any of the test data generated by the ColoGuard system except the single bit of information in the final result: positive or negative, over or under the threshold, yes or no to colonoscopy, 1 or 0. This one bit of information represents the distillation of the combined results from the seven sub-tests, but much of the information in those test results is lost in the process of determining the value of that single bit.

      Now, consider the composite score, which can vary from 0 to 1000. How many bits of information does the CS convey? The answer is nearly 10 bits of information, because 10 bits can represent 0 through 1023 in decimal numeral, or 000000000 through 111111111 in binary. So, we start with a composite score which requires 10 bits of information to quantify the patient's risk of colon cancer, and we finish by distilling the result down to a single bit of information: positive or negative. In so doing, we have thrown away 9 perfectly good bits of information.

      A negative ColoGuard result conveys just one bit of information about the status of the patient's colon epithelium, informing us only that the composite score was in the range of 0 to 182, a range which requires almost 8 more bits to specify precisely. The FDA forces Exact Sciences to throw away almost 7 perfectly good bits of information about the patient's colon epithelium. These discarded 7 bits tell the patient whether his composite score was 0 or 182 or somewhere in between, given an overall negative screening result.

      The purpose of the FDA regulation is to force clinicians to adhere strictly to the decision threshold for colonoscopy of 183, which has been validated in a large clinical trial. But what of the patient who develops "soft" or borderline indications for colonoscopy some time later. The clinician may be undecided whether the patient's borderline signs and symptoms warrant a diagnostic colonoscopy or not. Knowing that the patient's recent composite score had been 17 or 170 could help tip the decision one way or the other.

      We may learn over time that composite scores can exhibit informative trends over time. What is the significance of a composite score rising from 15 to 160 over 3 years? We will never know if we throw away the 7 bits that let us quantify the composite score with precision.

      We have discussed the loss of clinical information which occurs when the ColoGuard composite score is distilled down to one bit. There is also substantial loss of information when the Cologuard sub-test results are crushed together to derive the composite score. In my next comment, I will discuss some effects of the loss of information which occurs related to ColoGuard's fecal hemoglobin concentration sub-test. [3] We will learn how the FDA's prohibition of patient access to Cologuard's internal sub-test results could be harmful to patients.

      References

      1: Imperiale TF, Ransohoff DF, Itzkowitz SH, Turnbull BA, Ross ME; Colorectal Cancer Study Group. Fecal DNA versus fecal occult blood for colorectal-cancer screening in an average-risk population. N Engl J Med. 2004 Dec 23;351(26):2704-14. PubMed PMID: 15616205.

      2: Imperiale TF et al. Online Supplement to the above print article, accessed on 4/18/2016. http://www.nejm.org/doi/suppl/10.1056/NEJMoa1311194/suppl_file/nejmoa1311194_appendix.pdf

      3: PubMed Commons comment: http://www.ncbi.nlm.nih.gov/pubmed/27235008#cm27235008_15979


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    1. On 2016 Mar 13, Tamir Tuller commented:

      We (and everyone) know that correlation on binning may be misleading if reported in a non-transparent way; specifically binning tends to increase the correlation (but usually has a much weaker effect on the p-value). However, we frankly do not understand why this ‘lecturing’ about the topic appears here (next to our study). Our study includes various sophisticated statistical tests, the binning procedure is described at the beginning in a coherent manner, the correlation for various bin sizes is also reported (one can learn about the relation between binning and correlation simply by looking at figure S5 without the need for this unnecessary correspondence :-)), etc. Thus, we believe that the nature of the signal and the challenging data should be very clear to readers who thoroughly read the paper (but we guess that it may be misleading, as any other paper would, if you do not bother to read all the details :-)).

      The statistical analysis in papers in our field (if they are performed accurately) should consider various aspects including non-trivial biases in the data, discretization, various confounding variables/explanations, various aspects of molecular evolution, huge datasets, etc. Thus, the reader and not only the author should consider them when evaluating the results; specifically, the strength of a correlation should be evaluated in the light of all these aspects. The aim of mentioning other papers and ‘top statisticians’ was to demonstrate that there are many people (as opposed to Plotkin/Shah/Cherry) that do understand this point.

      If the number of points in a typical systems biology study is ~300, the number of points analyzed in our study is 1,230,000-fold higher (!); a priori, a researcher with some minimal experience in the field should not expect to see similar levels of correlations in the two cases. Everyone also knows that increasing the number of points, specifically when dealing with non trivial NGS data, also tends to very significantly decrease the correlation. The aim of the binning was to align our signal to previously reported signals in the field (in terms of number of points), and as mentioned the paper includes many other analyses that give the reader a greater context for the signal (including an explicit graph reporting the relation between bin size and the correlation); in addition the non-binned correlation (0.02-0.07) is comparable to the level of correlation between two Hi-C measurements (~0.05) from different labs (!). It is clear that a typical signal in our field (e.g. higher than the correlation of 0.12 or even the “high” 0.38 mentioned in your paper Weinberg DE, 2016) if transferred via such a noisy/biased ‘channel’ with increased number of points will be order of magnitudes lower than our non-binned data.

      We, of course, do not expect that further back-and-forth will convince Plotkin and Shah of our points. But hopefully this exchange will at least have some value to the field for scientists who work to draw inferences from genomic datasets; specifically, we hope that other scientists will learn to thoroughly consider all the aspects mentioned above and below when reading/writing a scientific paper.

      BTW: regarding the correlation 0.12 that was improved to 0.38 in the new study. In the new study (Weinberg DE, 2016) you still did not perform many of the required statistical controls (among others control for Kozak sequence and AA bias) according to our review [http://www.cs.tau.ac.il/~tamirtul/Shah_et_al_review.pdf].

      Tamir Tuller & Alon Diament, Tel-Aviv University, March 13, 2016


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    2. On 2016 Mar 09, Joshua Plotkin commented:

      Hopefully this exchange now illustrates that correlations on binned data are terribly misleading. In the paper by Diament et al 2014, the authors never reported the actual correlation (r = 0.022) between two genomic measurements; instead they reported correlations on binned data (r = 0.86). As a result, the amount of variation in 3D position explained by codon usage, which is the central claim of the study, was inflated by 1,500-fold.

      There is no need to consult “top professional statisticians” to understand the obvious fact that binning data tends to inflate correlations, and that it has no scientific justification regardless of the size of a dataset.

      Diament and Tuller offer one non-scientific justification in their reply: that previous publications in “top journals” have done the same thing, citing Ghaemmaghami S, 2003 and Shah P, 2013 as examples. Even if this were true, appealing to journal name is not a strong justification for repeating statistical errors. Moreover, in fact, both cited studies used binning only to graph the data, showing also the variation within each bin, whereas the correlations were calculated on the unbinned data.

      We agree with Diament and Tuller that r = 0.12 should not have been described as a “strong” correlation by Shah P, 2013. (The same analysis on an improved experimental dataset yields r = 0.38, Weinberg DE, 2016). However, unlike Diament and Tuller, we maintain that scientists must nonetheless report the actual correlations between measured quantities, instead of inflating correlations by binning, which would have produced a misleading r = 0.62 in the case of Shah et al. 2013.

      We do not expect that further back-and-forth will convince Diament and Tuller of these points. But hopefully this exchange will have some value to the field of scientists who work to draw inferences from genomic datasets.

      --Joshua Plotkin & Premal Shah, University of Pennsylvania, March 9 2016


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    3. On 2016 Mar 05, Tamir Tuller commented:

      Plotkin couldn’t (and shouldn’t) be a reviewer of our paper simply since he was in our list of reviewers to exclude when the paper was submitted (unfortunately, indeed Plotkin’s & Shah’s comment here demonstrates that many of the details in our paper were completely overlooked by them in the biased ‘review’ they provide here, as all the raised issues were thoroughly answered in the original manuscript). Specifically in our data there were 369,000,000 initial points that were binned to up to 64,000 (!) bins (not 2 points! :-) ). The comment and answer to Cherry actually include all the important details regarding Plotkin’s & Shah’s comment. As noted, the other reviewers (and bio-statisticians that were presented the study) were, of course, aware of the binning process and found the paper interesting, correct and worthy of publication. We think that a discussion about binning (that it seems that Plotkin & Shah would like to promote) should actually include their own recent study (Shah P, 2013): there you can learn among others that in Shah P, 2013 Plotkin & Shah report in the abstract a correlation which is in fact very weak (according to their definitions here), r = 0.12, without controlling for relevant additional fundamental variables, and include a figure of binned values related to this correlation. This correlation (0.12) is reported in their study as “a strong positive correlation”. It is also important to mention that the number of points used for computing this correlation is more than one order of magnitude lower than the number of points/bins related to some of the correlations we report.

      Given their comment here, it is probable that Poltkin & Shah’s paper would not have been published (at least in its current form) had they reviewed it themselves. :-)

      Our full critical comment on (Shah et al., 2013) can be found here: Shah P, 2013 (or here http://www.cs.tau.ac.il/~tamirtul/Shah_et_al_review.pdf ).

      A point by point answer to Plotkin’s & Shah’s ‘review’ can be found here http://www.cs.tau.ac.il/~tamirtul/Plotkin__reply.pdf

      Our full answer to Cherry’s, Plotkin’s & Shah’s claims regarding binning can be found here: http://www.cs.tau.ac.il/~tamirtul/Cherry_reply.pdf

      Tamir Tuller & Alon Diament, Tel-Aviv University, March 5, 2016


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    4. On 2016 Feb 04, Joshua Plotkin commented:

      Weak effects made to appear strong by inflated correlation coefficients (reply)

      The titular claim of this paper is that codon usage and gene function are “strongly correlated” with physical proximity within the cell. To support this claim, the authors report correlations between various features of genes, such as codon usage, expression level etc, with 3D genomic organization data. Unfortunately, as Joshua Cherry has pointed out on PubMed commons (Nov 24, 2015), these correlations are all based on binned datasets. By systematically binning the data, the authors remove noise and artificially inflate the strength of the correlation, so that the resulting correlation coefficient does not reflect the actual strength of correlation in the data. In the extreme case of n=2 bins, for example, all the correlations would be r=1.

      We raised these concerns — the exact same ones Joshua Cherry expressed post-publication — in our original review of the submitted manuscript. We submitted our review to Nature Communications on May 21, 2014, and we never heard back from the journal or saw a revised version of the manuscript. It is now clear that our concerns were ignored both by the authors and by editors at Nature Communications.

      Artificially inflating correlations by binning data is a serious issue in ongoing biological studies. By posting our original review of this manuscript, alongside Cherry's post-publication critique, we hope to draw awareness and open discussion regarding this scientific issue.

      Joshua Plotkin & Premal Shah, University of Pennsylvania, February 4, 2016

      ----ORIGINAL REFEREE REPORT SUBMITTED May 21 2014----

      Remarks to the Author:

      The manuscript by Diament et al. aims to understand how the three dimensional arrangement of a eukaryotic genome is organized. The natural hypothesis is that functionally related genes are positionally closer to each other in space -- a hypothesis that has been proposed earlier but with limited empirical support. Here, the authors claim that earlier studies failed to identify a strong relationship between position and function due to lack of appropriate metrics to assess functional similarity between genes. The authors propose a "novel" metric based on patterns of codon usage and they demonstrate a putatively strong relationship between functionally related genes and their proximity in 3-D.

      The manuscript is severely flawed from both biological and statistical stand-points, and is not fit for publication. Following are my detailed comments:

      1) The "novel" CUBS method proposed by the authors is not novel at all. There is a rich literature of using Kullback-Liebler based distance metrics for studying patterns of codon usage, which the authors have completely ignored. Although, their metric is a symmetric version of KL-distance, the entire basis of this metric is not novel.

      2) The entire analysis is predicated on the assumption that functionally similar genes have similar patterns of codon usage. The only work cited in support of this notion is De Bivort et al 2009, where those authors found that amino acid metabolism might play a role in affecting protein composition for certain functionally related proteins in yeast. However, even there the extent of this effect was found to be limited to 20,000-60,000 residues, which constitutes less that 2% of the entire genome. To say that this pattern holds not only across the entire genome but also across four other species demands quite a stretch of imagination.

      3) More importantly, every single correlation reported in the paper is based on binned data. Although it is sometimes appropriate to bin the data for visualization purposes, it is entirely without merit to report correlation coefficients (and associated p-values) on binned data. This fact id demonstrated by comparing figures 3D and S2A, where changing the bin-size effects the apparent "correlation". All the correlation calculated should be based on the raw data and "improving statistical accuracy" is not a vlid justification for arbitrarily binning data. This problem of correlation-inflation due to binning the data is quite serious (eg Kenny & Montanari J Comput Aided Mol Des. 2013). Based on their own figures 3D and S2A, it seems clear that their results either have very small effect or do not at hold at all when analyzing the actual raw data.

      4) This statistical problem (#3) is further compounded by the fact that each data point in the correlations is based on a pair of genes, and hence the points are not independent of each other -- whereas t-tests used to assess significance assume independence. The standard way to deal with such data is to use Mantel's test or one of its several derivatives. The authors also need to take into account issues related to multiple regressions. Its likely that several of the gene features used as proxies for function are, again, highly correlated with each other. Once again, the nominal statistical significance of the results is inflated by failing to account for these dependencies.

      5) Finally, the authors make no attempt to explain why the data in their plots are so non-linear and even non-monotonic? Its clear that in several of the plots the relationship between CUBS and the predictor is highly non-linear, and that the linear fit is extremely poor. However, the authors make no effort to explain or even understand these patterns. Could they be an artifact of the data? If so, how does it affect the results?

      6) Moreover, the correlation coefficients reported in most of their plots make no sense whatsoever. For instance, in Fig1B, the best-fit regression line of CUBS vs PPI barely passes through the bulk of the data, and yet the authors report a perfect correlation of R=1.

      The issues above are so severe (starting from the unjustified assumption that similar codon usage implies similar gene function, which underlies the entire study) that revision cannot possible rectify these problems.

      Remarks to the Editor: none


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    5. On date unavailable, commented:

      None


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    6. On 2016 Mar 08, Joshua L Cherry commented:

      In their response to my comment, Diament and Tuller not only attempt to defend their use of a procedure that dramatically inflates correlation coefficients, but advocate for its wider use, which would be most unfortunate. Nothing in their response justifies this procedure or refutes the warnings against it that I cited. I address their points briefly below, and in more detail here.

      Statistical Significance vs. Effect Size

      The response makes much of the high statistical significance of the correlations. This does nothing to address my comment, which was about effect size. A weak correlation, however statistically significant, is not a strong correlation.

      Large Sample Size

      The response emphasizes the large number of data points in the authors’ data set, but this in no way justifies their correlation-inflating procedure. The large size of the dataset only allowed the authors to bin and average large numbers of data points, which only exacerbated the problem by leading to a more dramatic inflation of the correlation coefficients. The response also seems to imply that a large sample size will cause a strong correlation to yield a low correlation coefficient, which is incorrect.

      Other Evidence

      The response claims that "The conclusions of our paper have also been tested in a recent study (Diament A, 2015), where we showed that 3D distances predicted by CUFS can be employed to reconstruct an improved 3D model of the yeast genome." If CUFS data did improve estimates of 3D distance, this would not justify or vindicate the inflation of correlation coefficients by binning and averaging. Furthermore, as explained in my more detailed response, there is little evidence that the 3D distance estimates were actually improved.

      Measurement Errors

      The response repeats the article’s argument about measurement noise, but this argument is flawed. It is true that a strong underlying correlation coupled with sufficient measurement error could produce a weak apparent correlation with the observed properties. It does not follow that a weak correlation with these properties implies a strong underlying correlation. Counterexamples are common--probably the rule rather than the exception--and include Francis Galton’s classic studies of height among relatives. Galton and Pearson could easily have arrived at larger “correlation coefficients” through binning, but doing so would have defeated their purpose and been a great setback for statistics and quantitative genetics.

      Diament and Tuller claim, based on the low correlation coefficient between two sets of yeast 3D distances (r=0.05), that the maximum possible CUFS/3DGD correlation is 0.05. Were this correct, it would only argue for an underlying correlation of 0.022/0.05=0.44 for yeast, far short of the reported r=0.86. The claimed maximum is in fact incorrect, for several reasons:

      • If the correlation coefficient between replicate datasets were 0.05, the correct maximum would be sqrt(0.05)=0.22 (the inferred correlation of either replicate with reality), from which one can argue only for an underlying r=0.1.

      • Diament and Tuller did not analyze data from replicates, but compared the data that they used in the article to values derived from an older experiment based on a different technique. The low correlation between the datasets may be due mainly to noise in the other dataset.

      • The original response submitted by Diament and Tuller included two other comparisons that did not suffer from the above problem, and these yielded much higher estimates of reliability: r=0.39 and r=0.54. This information was omitted from the version of the response posted by Tuller.

      Diament and Tuller argue that r=0.05 for the two datasets, calculated as Spearman intended, absurdly implies that "any attempt to study 3D genomic organization using Hi-C...is futile”. In reality it implies only that these particular datasets are not very similar, which is not absurd, and undoubtedly true. Their apparently preferred alternative--binning the data to obtain a high correlation coefficient and concluding that the measurements are very similar--is clearly incorrect.

      Concluding Remarks

      The correlations between 3DGD and CUFS, though statistically significant, are quite weak, and should have been reported as such. The available information does not support the contention that they reflect strong correlations made weak by measurement noise. That others have committed or overlooked a "common error" is not an argument in its favor. That correlations coefficients in a field are often weak is no reason to inflate them or describe weak correlations as strong. It would be one thing to argue that a correlation coefficient of 0.022 tells us something important, but it is quite another to report an inflated correlation coefficient of 0.86 and describe the correlation as strong, as done by the authors.


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    7. On 2016 Feb 27, Tamir Tuller commented:

      We are happy to report that the paper, including the binning procedure, was presented to top professional statisticians who found the paper very interesting. The comment by Cherry was submitted to Nature Communications as a comment, and was reviewed by at least two professional reviewers. Based on the review the decision was that the comment is not required as it does not teach us anything new and is irrelevant/incorrect in this context. Specifically, it is known that binning tends to increase the correlation; however, the opposite is also true, when there are more points the correlations tend to be lower. In the analyzed data, the binning procedure was described very clearly and mentioned at the beginning of the paper; there were 369,000,000 initial points that were binned to up to 64,000 (!) bins (not 2 points!) so that the correlations will be comparable to correlations reported in all previous systems biology studies in recent years (actually the number of points is still orders of magnitudes (!) higher than previous systems biology studies that we know of). As described in the link to the detailed reply (see below) the obtained correlations with raw data are similar to the ones obtains between two Hi-C measurements, demonstrating that indeed given the nature of the data the correlations are very high. A detailed reply to Cherry’s comment can be found here: http://www.cs.tau.ac.il/~tamirtul/Cherry_reply.pdf. In this link, we further explain why Cherry’s claims were thoroughly addressed in the original manuscript, and that the methods and results were presented in a transparent manner. Most importantly, we reiterate that the relation between variables has been subject to stringent statistical tests, and that the observed signals are indeed strong with respect to expected and previously reported ones in large-scale genomic studies. In addition, we illustrate again that the reported correlations are comparable to the maximal correlation expected when comparing large scale noisy data after quantization. Finally, we show that the correlations reported in our study are similar to the correlations obtained between two Hi-C experiments; thus, if we follow Cherry’s line of thought, we actually should absurdly conclude that the Hi-C protocol in general is problematic. We discuss the generality of our conclusion to systems biology analysis of Next Generation Sequencing (NGS) data.


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    8. On 2015 Nov 24, Joshua L Cherry commented:

      Weak effects made to appear strong by inflated correlation coefficients

      Diament et al. claim that the three-dimensional distances between eukaryotic genes are strongly correlated with differences in codon usage and gene function. These claims are based on correlation coefficients calculated by an illegitimate procedure that grossly inflates their magnitude. The correlations are in reality very weak, and the article’s conclusions are therefore unjustified.

      Diament et al. report high values (0.74-0.96) for Spearman’s rank-order correlation between measures of codon usage dissimilarity (CUFS) and 3D distance between genes (3DGD). These impressive values, however, are not the true correlation coefficients between the variables. Rather, they are the correlation coefficients of average values for bins of thousands of data points with similar values of CUFS. This binning and averaging procedure can be expected to yield high values in the presence of very weak correlations. The authors describe the process as "reducing biological noise through averaging". In reality it suppresses much of the variation in one variable that is not explained (in the statistical sense) by the other, making it appear as though the explained variation is a larger fraction of the total, and inflating the correlation coefficient accordingly. A miniscule correlation can be made to look like a strong correlation with this procedure, so long as the expected value of one variable mainly increases with the value of the other. Computing correlations based on averages is described by one textbook [1] as a “common error” that “can easily lead to an inflated correlation coefficient”, and correlations inflated in this way have been criticized elsewhere [2,3].

      Supplementary Fig. 5 of the article suggests that the true correlations between CUFS and 3DGD, corresponding to one data point per bin, are quite weak. Using data provided by the authors, I have found that they are very weak indeed: the Spearman’s correlation coefficients are 0.019, 0.022, 0.025, 0.071, and 0.034 for S. pombe, S. cerevisiae, A. thaliana, M. musculus, and H. sapiens respectively. The central claims of the article are therefore unfounded, as the reported strong correlations are an artifact of the binning procedure.

      The weakness of the correlations is evident in the meager sensitivity of averaged 3DGD to CUFS, which is apparent in Fig. 2 of the article. For example, for S. cerevisiae, for which a correlation coefficient of 0.85 was reported, averaged values of 3DGD vary only from ~3.0 for the lowest CUFS values to ~3.1 for the highest (a few outliers approach 3.3, but, as the authors argue, these are not meaningful). This is only a small fraction of the variation in 3DGD values, which range from 1 to 13 with a standard deviation of 0.72.

      Another perspective is provided by the distributions of CUFS values for different 3D distances. Distributions in S. cerevisiae are shown in here for distances between 1 and 5, which encompass 99.8% of the gene pairs (for larger distances the distributions vary more widely but are dominated by pairs involving one or a few genes). These distributions are quite similar to one another. Indeed, for 3DGD < 5 (encompassing 98% of the gene pairs), the distributions are difficult to distinguish, and the only distinguishing feature for 3DGD = 5 is due to effects of just a few genes (see figure legend). Differences between the means of the distributions (shown graphically in the plot) are quite small compared to the variation of CUFS within each 3D distance category. Clearly CUFS is not strongly associated with 3D distance.

      The weakness of the correlations is in no way negated by the fact that the authors’ binning procedure yields high values. Most correlation coefficients will be inflated by this procedure, including the prototypical coefficients calculated by Galton and Pearson. For samples drawn from a bivariate normal distribution with a correlation coefficient of just 0.03, this procedure, with the relevant bin and sample sizes, yields Spearman’s correlation coefficients greater than 0.9. It would be absurd to describe such variables as strongly correlated, and reporting a Spearman’s correlation of >0.9 would be grossly misleading.

      Large data sets can give us the statistical power to detect very weak correlations, revealing what has been called the “crud factor”: that “everything correlates to some extent with everything else.”[4] Weak correlations are easily produced in the absence of a direct or otherwise interesting connection between the variables. Weak correlations are sometimes enlightening, but exaggerating their strength only obscures.

      References

      1. Triola, M. F. Elementary Statistics. Addison-Wesley, Reading, MA (1992)

      2. Kenny, P. W. & Montanari C. A. Inflation of correlation in the pursuit of drug-likeness. J. Comput. Aided Mol. Des. 27:1-13 (2013).

      3. Brand, A. & Bradley M. T. More voodoo correlations: when average-based measures inflate correlations. The Journal of General Psychology. 139(4):260-272 (2012).

      4. Meehl, P. E. Why summaries of research on psychological theories are often uninterpretable. Psychological Reports. 66:195-244 (1990).


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    1. On 2015 Jan 22, Yuriy Pankratov commented:

      This discussion could be more enlightening and even reach a consensus of some sort if our respected opponents, instead of making ungrounded accusations and avoiding inconvenient facts, tried to address the most serious issues, raised in our comments at PubMed Common and JNS website. These issues include: stark contradiction between the EGFP and LacZ expression phenotypes shown in Fujita et al. and data shown in previous publications (all of which went through rigorous peer review by the way); lack of direct evidence of notable impairment of synaptic transmission in dnSNARE mice and existence of clear evidence of the opposite; large pool of evidence supporting physiological role of astroglial exocytosis which does not rely on the dnSNARE mice at all. Neither paper itself nor Authors’ responses to comments (which basically repeats what was said in the article) address these issues.

      Still, we think that some consensus might be found. Before going to that point, we would like to clarify points raised by our opponents in their last post. 1) For the sake of unbiased discussion, citing one paper showing a lack of VAMP2 expression in astrocytes (Schubert et al.2011) one might mention at least one paper from the large pool showing the opposite (Martineau et al 2013).

      More importantly, one should not swap between quantitative and “all-or-none” kind of reasoning to one’s convenience. If we assume that level of astrocytic expression of VAMP2 of tenth of that in neurons is low enough to make VAMP2 non important for function of astrocyte, than we have to assume the existence of certain level of expression below which dnSNARE transgene will not significantly affect neuronal function as compared to astrocytes. OK, it may be not tenth but hundredth fraction, dose not matter.

      We thankful to our opponents for bringing up an example of tetanus and botulinum toxins. Even theses deadliest toxins act in dose-dependent manner. Both on the levels of whole organism and single presynaptic terminals, smaller doses of these toxins (as compared to LD50 and IC50) have milder effects. So, it is very likely that effects of dnSNARE expression are dose-dependent (if not to believe in homeopathy, of course).

      The same is applicable to the action of doxycycline, which is also dose-dependent. So one could not expect 100% inhibition of transgenes, especially at oral administration of Dox. To answer first part of opponents comment 2), the Figure 1O-R from Halassa et al. shows efficient, but incomplete suppression by Dox, rather than “leaky” EGFP expression. To what extent the same is applicable to Fig.2C of Fujita et al, let the reader to decide. Of course, non-complete suppression by Dox is a downside of tetO/tetA system but this can be easily remedied by comparing On-Dox and Off-Dox data.

      2) Theoretically speaking, concern that “neurons express the dnSNARE transgene at all “ may be applicable to any glia-specific transgenic mice. One could not a priori expect an absolute specificity of expression of neuronal and glial genes, the data of Cahoy et al. 2008 are the good illustration. This, rather philosophical, question goes far beyond the current discussion. There is no molecular genetic tool to ensure 100% glial specificity. On practice, one could only expect to obtain a negligible (again, in relative sense) level of neuronal transgene expression and verify the lack of significant impact on neuronal function.

      3) Regarding the putative “dramatic and unpredictable “ effects of neuronal dnSNARE expression, the TeNTx and BoNT give a good indication of what to expect. However, dnSNARE mice do not show any notable deficit of motor or respiratory function. On a level of synapses, there was no evidence of any significant decrease (not saying about complete inhibition) of vesicular release of main neurotransmitters (Pascual et al. 2005; Lalo et al. 2014). On contrary, our data show an impairment of signals triggered by activation of Ca2+-signalling selectively in astrocytes (Lalo et al. 2014; Rasooli-Nejad et al. 2014). Let it to the reader to decide, to what extent available functional data support the opponents’ notion that “synaptic transmission may directly be suppressed by dnSNARE expression in neurons “ and that “Even very low levels of expression of dnSNARE in neurons invalidate any conclusion based on this transgenic mouse “.

      One might argue that dnSNARE transgene could be expressed only in the certain subset of neurons or in some specific brain region thus strongly affecting some specific function rather than causing general, milder, functional deficit. However, this is unlikely for the supposed basal leakiness of the tet-off system and further experiments would be required to identify such regions/neuronal subsets.

      4) Addressing the second half of the point 2) – One can only wonder why, in 2012, already knowing that their results contradict to data presented by that time by several studies, our respected opponents did not contact authors of those publications to request mice from them? Again, one might only wonder why PCR data generated from 2 batches of mice have sample size of n = 3 – 4 (meaning 1-2 tissues per batch) ?

      5) Regarding the intrinsic limitations of dnSNARE mice, anyone working with them is aware of fact that EGFP, LacZ, and dnSNARE genes were inserted independently. However, their expression is controlled by the same factors so their expression probabilities depend on the same set of parameters and therefore are not truly independent, from mathematical point of view. The correlation in expression of these transgenes is supported by the co-inheritance. Furthermore, data of Halassa et al. show that 97% of cells expressing the dnSNARE, also express EGFP. We would like to emphasize that the opposite - the presence of true mosaic expression pattern in dnSNARE mice, i.e. existence of number of individual cells expressing dnSNARE and not expressing EGFP and number of EGFP-only cells, has not be shown so far; Fig.3 from Fujita et. al 2014 does not show this either.

      Thus, even assuming the leakiness of the “tet-off” system, one might expect probability of EGFP expression to be of the same order of magnitude as that of dnSNARE, this is also agrees with data of Fujita et al. So, in case of absence of EGFP expression in a large population of neurons, the presence of even small fraction of neurons expressing dnSNARE is very unlikely. From mathematical point of view, the probability of certain population of neurons to express only dnSNARE will fall exponentially with the expected size of population.

      Finally, one could hardly deny the large difference in the phenotype of the cohort of dnSNARE mice, described by Fujita et al. and the cohort of mice used by other groups. The point of some consensus could be that in some, still unidentified conditions, the tetA/tetO system may suddenly became leaky, causing some level of expression GFAP-driven transgenes dnSNARE, EGFP and lacZ genes in neurons. So, in experiments with dnSNARE mice extra care should be done to verify the lack of neuronal dnSNARE expression. This can be done by showing the absence of surrogate reporters EGFP or lacZ in neuronal populations of interest combined with electrophysiological data showing the lack of deficit of synaptic neurotransmitter release. This could be a good practice for any glia-specific inducible transgene.


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    2. On 2015 Jan 13, Maiken Nedergaard commented:

      With all respect to the commentator, the misleading posted arguments and evident lack of insight into the biology and construction of the dnSNARE mice underscores the danger of such unsolicited and unreviewed posting, not subject to peer review. That said, we have clarified several points below, and will leave it to the reader to evaluate our data as published in Fujita et al., J Neurosci, 2014 and to form an unbiased opinion.

      1) Our immunolabeling data does not show that astrocytes fail to express VAMP2, nor did we ever make such a claim. Rather, our analysis documents that astrocytes express VAMP2 at much lower levels than neurons, both in vitro and in vivo. Besides our own data, this notion is supported by independent sets of data – transcriptional analysis showed that astrocytic expression of Vamp2 is a tenth that of neurons (Cahoy JD, 2008), while an immunohistochemical analysis showing that VAMP2 is enriched in presynaptic terminals, and is not detectable in astrocytes (Schubert V, 2011).

      The dnSNARE mice express the 3 genes (EGFP, LacZ, and dnSNARE) independently of one another; their expression cassettes were injected in the oocyte as separate genes. Thus, a mosaic pattern of expression is to be expected, and that is what Fig. 3 documents. We certainly agree that astrocytes express all 3 transgenes at higher levels than neurons do; we documented precisely this point in Fig. 2D. However, the key element of our study is to demonstrate that leaky neuronal expression, and hence low levels of dnSNARE expression in neurons, may significantly impact synaptic transmission, since VAMP2 is essential for the fusion of synaptic vesicles with the presynaptic membrane.

      Incidentally, the best example of the damage that may be wrought by any neuronal expression of dnSNARE is the acute mortality associated with nanogram quantities of botulinum toxin. Botulinum toxin’s actions are analogous to those of dnSNARE; the functional consequences of both derive from the necessity of the SNARE complex to the release of synaptic vesicles.

      2) We will leave it to the reader to evaluate the immunohistochemical analysis, but will note that the leaky expression of EGFP was also displayed in Halassa MM, 2009, Fig. 1O-R. Unfortunately, EGFP expression has no predictive value for expression of the dnSNARE transcript, since as noted, the genes are independently expressed. We received the dnSNARE mice from Dr. McCarthy, rather than one of the groups using the mice, because Dr. McCarthy made the dnSNARE mice. We have analyzed two independent shipments (received in 2007 and 2012) and identified neuronal expression of EGFP in both sets of mice.

      3) This comment reveals a basic misunderstanding of the inherent limitation of the dnSNARE mice. Direct inhibition of vesicular fusion in neurons is expected to interfere - in dramatic and unpredictable ways - with neuronal activity in the intact animals. It is not a matter of the relative expression of dnSNARE expression in neurons versus astrocytes. Even very low levels of expression of dnSNARE in neurons invalidate any conclusion based on this transgenic mouse. Moreover, we document in Fig. 2H that neurons express the dnSNARE transgene in the presence of doxycycline, and that transgene expression is increased after removal of doxycycline. In other words, the expression of the dnSNARE transgene is also controlled by doxycycline in neurons.

      4) Again, it is not a matter of the relative leakiness of dnSNARE expression in neurons. The fact that neurons express the dnSNARE transgene at all is the fundamental concern. Interfering with synaptic release is one of the most powerful manipulations that may be executed upon a neuronal network.

      5) Once again, the point of our study is not to show predominant neuronal dnSNARE expression. We document that cortical neurons do express the dnSNARE transgene, and that the expression of dnSNARE in neurons is regulated by doxycycline. These observations invalidate the use of dnSNARE transgenic mice in the study of neuroglia signaling: It is not possible to attribute change in neuronal activity to gliotransmitter release, since synaptic transmission may directly be suppressed by dnSNARE expression in neurons.

      6) Unfortunately, exchange speaks as much to the deficiencies of the PubMed Comment mechanism as to the self-defensive but ultimately unsupportable arguments of the commentator, as it invites a Reddit-like forum, in which informed and uniformed commentary are admixed into an unenlightening whole.

      Commented by Maiken Nedergaard, Takumi Fujita, Michael J. Chen


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    3. On 2015 Jan 05, Yuriy Pankratov commented:

      Article by Fujita et al. aims to put under question an importance of SNARE-dependent vesicular gliotransmission basing on their observation of “widespread “ neuronal expression of dnSNARE transgene. However, there are several inconsistences and misinterpretations in the data which seriously undermines the main conclusion on the paper.

      1) The immunocitochemical analysis (Figure 3A-D), which is supposed to show “widespread neuronal expression” of b-Gal and EGFP in dnSNARE mice actually gives merely an anecdotal evidence of their expression in minor population of neurons. Neither Figure 3 nor the description of results in the text provides any statistical data. In Fig.3A, white arrows are used to draw attention to the correlation of green VAMP2- and orange MAP2-staining in neurons which is a trivial result. However, careful inspection of these images reveals a number of green puncta not associated with orange staining which might be as well located in astrocytes. To rule this out, the quantitative data on correlation of VAMP2 with neuronal and glial markers are essential. The lack of VAMP2 staining in cultured astrocytes (Fig3) is in controversy with data of Pascual et al (2005). This fast was ignored by the Authors, as well as other evidences of VAMP2 expression in astrocytes (Parpura 1995, Maienschein 1999, Montana 2004, Martineau 2013).

      Similarly, careful inspection of images shown in Fig 3C,D shows that most of cells stained for NeuN do not show b-Gal signal for and EGFP fluorescence; only few cells show co-localisation of the tetO transgenes with neuronal marker. As it is, Fig.3 does not strongly support the conclusion of “widespread neuronal expression” and I have a doubt that quantitative analysis of correlation of b-Gal and EGFP signal with neuronal and glial markers will show predominance of their neuronal localisation. Authors themselves admit this implicitly, saying about strong EGFP expression in astrocytes and “low to moderate level” of EGFP expression in neurons (p.16597). Also, there is no reproducibility in the shape of cells stained for NeuN across the four columns in Fig.3C which might be an indication for the lack of specificity of antibodies.

      2) Talking about reproducibility, the immunocytochemistry and EFGP data in Fig.3 are in striking controversy with previous data shown by the P. Haydon’s group (Pascual 2005; Halassa e2009, Lalo 2014). We observed more than hundred of brain slices from dn-SNARE mice and dnSNARE-negative littermates and did not see any neuronal EGFP fluorescence like that one shown in Fig3. Also, the pattern on astroglial EGFP-signals shown in Figure 3C (mainly diffuse staining with rare bright somata) is different from previous reports, showing numerous bright somata with bright bushy processes. Comparing EGFP-images shown by Fujita et al. with previous reports, one might wonder whether these images were obtained in the same strain of mice at all. The possible explanations of the discrepancy and reported “leakiness” of GFAP-tTA promoter might be a founder effect in the cohort of mice used by Fujita et al. or influence of epigenetic factors. It was reported that level of DNA methylation can strongly affect the GFAP expression in neurons and astrocytes (Barresi 1999; Hatada PLoS One 2008; Takizawa Dev Cell 2001). Again, one might only wonder why Authors imported the dn-SNARE mice not from P. Haydon’s lab, but from Ken McCarthy’s who did not publish any major paper on dn-SNAREs apart from his earlier collaboration with P. Haydon.

      3) Analysis of basal leakiness of tet-Off system in Figure 3E may be misleading since qPCR data on transgenes expression are compared to the “clear” wild-type mice. No wonder that such comparison showed large, statistically significant difference. However, in physiological and behavioural experiments data recorded in dnSNARE Dox-Off mice are usually compared to the data from dnSNARE Dox-On mice or from the dnSNARE-negative littermates (Pascual et al. 2005; Halassa et al. 2009; Lalo et al. 2014). When compared in such way, the data in Fig.3E shows a different picture. Firstly, expression of dnSNARE transgene in Dox-On and GFAP-tTA/dnSNARE negative mice is much less than in Dox-Off. Secondly, expression of dnSNARE transgene in GFAP-tTA/dnSNARE negative mice is much less than Lac-Z and EGFP transgenes. Also, one can see from Fig.3C that characteristic astrocytic EGFP staining patterns disappear in the Dox-On and GFAP-tTA/dnSNARE negative mice. Combined, these data suggest that putative leakiness of tet-Off system under GFAP promoter affects mainly basal neuronal expression of transgenes whereas level of glial dnSNARE expression is much less in non-dnSNARE mice as compared to dnSNARE-Dox Off. So, even if GFAP promoter can be leaky, it can be mitigated by using the dnSNARE-negative littermates as a control.

      4) Putting aside putative explanations of problems with cohort of dn-SNARE mice used by Authors, the data shown in Figures 2 and 3 are in some agreement that neuronal dnSNARE expression does not prevail even in that particular cohort. As shown in Fig.2E and stated in the Discussion, the cortical neuronal dn-SNARE expression reaches only 32% of glial level in 8-day old mice which is hardly big news since it is widely known that GFAP promoter can also be active in neurons as this stage of development. Furthermore, level of neuronal dn-SNARE expression was much less in the adult age. Although Authors do not provide a direct comparison of neuronal and glial fractions, estimation could be done using neuronal marker Rbfox3 as a reference. Comparing Figs.2 G-G, one could estimate the fraction of dn-SNARE expressing neurons as 1/16, i.e 8%. Even taking 20% as an “optimistic” estimate, one cannot draw a definitive conclusion about predominantly neuronal expression of dn-SNARE transgene in the adult mice without direct evidence of impairment of neurotransmitter release. Such evidence could be provided by demonstrating the significant decrease in the frequency of mIPSCs or mEPSCs or at least the decrease in the baseline fEPSPs in the neurons of off-DOX mice.

      5) So, the paper lacks crucial evidence of “the profound suppression of synaptic transmission in Off-Dox dnSNARE mice”. In contrast, previous works on dnSNARE mice showed up-regulation of excitatory synaptic transmission in hippocampus (Pascual 2005) and up-regulation of inhibitory synaptic transmission in the neocortex (Lalo 2014) of dnSNARE mice. Thus, the dnSNARE mice (at least used in the previous work) do not have a major deficit in presynaptic release of neurotransmitters, strongly arguing against abundant neuronal dnSNARE expression. This inconvenient fact was ignored.

      Authors show that removal of Dox induces the suppression of the EEG signal amplitude but attribute this effect to the neuronal expression of dnSNARE. Since Authors do no provide a convincing evidence of predominant dnSNARE expression in neurons as compared to glia (and show some evidence of the opposite) and do not provide any direct evidence of impaired synaptic signalling in neurons, this conclusion is unconvincing if not incorrect. One could argue that suppression of the EEG signal might be due to profound astrocytic dnSNARE expression, which was also observed in the present paper, causing an impairment of gliotransmitter release and changes in glial modulation of synaptic transmission. Actually, the up-regulation of GABAergic synaptic transmission, that we observed in dnSNARE mice (Lalo 2014) is an good agreement with this hypothesis.

      6) Lastly, I would like to stress that in the former article we provide a several lines of evidence of exocytotic gliotransmission which cannot be affected by putative neuronal expression of dnSNARE transgene at all, in particular “sniffer-cell” detection of ATP release from isolated astrocytes and perfusion of individual astrocytes in situ


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    1. On 2015 Feb 11, Radboudumc Psycho-Oncology Journal Club commented:

      A well-written, very informative and interesting paper with good clinical value. We believe it’s important to overcome barriers to accepting psychosocial services; not only for distress but other mental health problems as well. During the plenary discussion of this paper, our Journal Club generated the following comments:

      1) 3070 patients completed the QUICATOUCH assessment of whom 10% scored above the threshold for distress (n = 310). We know from literature that psychological distress affects around 30% of all cancer survivors*. This percentage is substantially higher than the 10% found in current sample. We are wondering if there’s an explanation for this finding.

      2) In the results section, table 1. Four of the big five cancer types (and Lymphoma are mentioned as seperate categories, complemented by a category named “other”. Because this “other” category is the largest one in actual number of patients, it would be interesting to know which cancer types it represents.

      3) In the results section, we believe that the percentages for ‘Prefer to manage myself’, as portrayed in figure 1, do not match with the percentages mentioned in text. The figure displays a higher % of patients with a self-management preference for distress score 8-10 (53%) than distress score 4-5 (43%). In text, it’s the other way round.

      *Mehnert A, 2014,Mitchell AJ, 2007,Zabora J, 2001


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    1. On 2015 Jun 02, Pierre Lindenbaum commented:

      This article has been retracted (via Antoine Blanchard ‏@Enroweb ). An Expression of Concern has been published for this article "Expression of Concern on LaCour and Green, Science 346 (6215) 1366-1369." http://www.sciencemag.org/content/early/2015/05/20/science.aac6184


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    1. On 2015 Feb 15, William Grant commented:

      The effect of diet on risk of Alzheimer's disease is very strong; vitamin D also reduces risk

      The paper by Deckers and colleagues used the Delphi consensus approach to rank the target risk factors for dementia [1]. Diet was ranked 6th out of 11 factors in the Delphi ranking round 2, behind depression, diabetes, cognitive ability, physical activity, and midlife hypertension.

      Ref. 1 relied primarily on prospective observational studies. While such studies are valuable, they are not the only way to assess risk. Another way is through ecological studies, either geographical or temporal. The first study to identify diet as an important risk factor for Alzheimer's disease was a multi-country ecological study [2]. It was discussed in two subsequent papers [3,4]. The most dramatic application of the ecological approach to studying the effect of diet on risk of Alzheimer's disease was in analyzing trends of Alzheimer's disease rates in Japan. The increase in Alzheimer's disease rates for elderly people in Japan from 1% in 1985 to 7% in 2008 was attributed to the nutrition transition from the traditional Japanese diet to the Western diet [5]. In addition, dietary advanced glycation end products from food cooked at high temperatures or aged as in hard cheese have been identified as an important risk factor for Alzheimer's disease [6, 7]. Diet is also a well known risk factor for diabetes.

      A factor not mentioned but one that is gaining acceptance is low 25-hydroxyvitamin D [25(OH)D] concentrations [8]. Low 25(OH)D concentrations have been reported as a risk factor for Alzheimer's disease and dementia [9], diabetes mellitus [10], and cognitive dysfunction [11].

      References 1. Deckers K, van Boxtel MP, Schiepers OJ, de Vugt M, Muñoz Sánchez JL, Anstey KJ, Brayne C, Dartigues JF, Engedal K, Kivipelto M, Ritchie K, Starr JM, Yaffe K, Irving K, Verhey FR, Köhler S. Target risk factors for dementia prevention: a systematic review and Delphi consensus study on the evidence from observational studies. Int J Geriatr Psychiatry. 2015;30(3):234-46. 2. Grant WB. Dietary links to Alzheimer's disease. Alz Dis Rev. 1997;2:42-55. http://www.sunarc.org/JAD97.pdf) 3. Grant WB. Dietary links to Alzheimer’s disease: 1999 update. J Alz Dis. 1999;1197-201. 4. Grant WB, Campbell A, Itzhaki RF, Savory J, The significance of environmental factors in the etiology of Alzheimer’s disease. J Alz Dis. 2002;4:179-89. 5. Grant WB. Trends in diet and Alzheimer’s disease during the nutrition transition in Japan and developing countries. J Alzheimers Dis. 2014;38(3):611-20. 6. Cai W, Uribarri J, Zhu L, Chen X, Swamy S, Zhao Z, Grosjean F, Simonaro C, Kuchel GA, Schnaider-Beeri M, Woodward M, Striker GE, Vlassara H. Oral glycotoxins are a modifiable cause of dementia and the metabolic syndrome in mice and humans. Proc Natl Acad Sci U S A. 2014;111:4940-5. 7. Perrone L, Grant WB. Observational and ecological studies of dietary advanced glycation end products in national diets and Alzheimer’s disease incidence and prevalence. J Alzheimers Dis. 2015 Jan 29. [Epub ahead of print] 8. Grant WB. Does vitamin D reduce the risk of dementia? J Alzheimers Dis. 2009;17(1):151-9. 9. Littlejohns TJ, Henley WE, Lang IA, Annweiler C, Beauchet O, Chaves PH, Fried L, Kestenbaum BR, Kuller LH, Langa KM, Lopez OL, Kos K, Soni M, Llewellyn DJ. Vitamin D and the risk of dementia and Alzheimer disease. Neurology. 2014;83(10):920-8. 10. Song Y, Wang L, Pittas AG, Del Gobbo LC, Zhang C, Manson JE, Hu FB. Blood 25-hydroxy vitamin D levels and incident type 2 diabetes: a meta-analysis of prospective studies. Diabetes Care. 2013;36(5):1422-8. 11. Annweiler C, Dursun E, Féron F, Gezen-Ak D, Kalueff AV, Littlejohns T, Llewellyn DJ, Millet P, Scott T, Tucker KL, Yilmazer S, Beauchet O. 'Vitamin D and cognition in older adults': updated international recommendations. J Intern Med. 2015;277(1):45-57.


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    1. On 2015 Jan 12, Larry Parnell commented:

      This paper was my selection for Paper of the Week for 8-12 Dec 2014.


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    1. On 2015 Jan 11, Donald Forsdyke commented:

      CONTINUING SUPPORT FOR GRANTHAM'S GENOME HYPOTHESIS

      Richard Grantham (1980), after examination of a mere 160 short sequences, proposed his ‘genome hypothesis.’ For nucleic acids he envisaged ‘manifold constraints and adaptations, of both structural and functional natures.’ These ‘could exist, independently of protein coding.’ Thus, there was ‘protein-independent molecular evolution of a non-neutral character.’ The distinctive ‘coding strategy of an organism’ was ‘at the heart of the problem of molecular evolution,’ and was likely to prove of fundamental importance for ‘speciation and systematics in general’ (Grantham et al. 1986).

      These observations won extensive support when thousands of much longer sequences became available, even though many were incomplete (Forsdyke and Mortimer 2000; Mortimer and Forsdyke 2003; Lee et al. 2004). The data, consistent with the early base compositional studies of Chargaff, Sueoka and Szybalski, are now further affirmed by this comprehensive new work involving thousands of entirely complete sequences (Goncearenco and Berezovsky 2014).

      However, while there is little disagreement on data and the need for evolutionary trade-offs (‘mutual adjustment of the nucleotide and amino acid compositions’), readers should note that there remains disagreement over interpretations (see my comments on a previous paper and my textbook; Zeldovich et al. 2007, Forsdyke 2011). Readers should also note that the present text (p. 3) has proline (P) listed in both the high GC% saturation group and the low GC% saturation group. In error, phenylalanine (F) was replaced by P in the latter. The GC% low and medium groups have amino acids listed in order of increasing codon GC% saturation, but the GC% high group has amino acids listed (p. 3) in decreasing order of codon GC% saturation (see Fig. S3). And it is puzzling that Figures 1a and 1b appear the same, with just axis labels interchanged, yet some points seem incorrectly interchanged. The rectilinear interpretations of obvious curvilinear relationships (Figs. 8, S9) are also problematic, as noted by Reviewer 2.

      The notion that aspartate and glutamate (with purine-rich codons GAY and GAR) ‘cannot be used for the efficient tuning of the nucleotide composition,’ does not hold for the tuning of AG%. Furthermore, it should be noted that as GC% increases, the decline of A and T does not affect both bases equally. While G% and T% tend to remain constant, C increases at the expense of A. Likewise, when GC% decreases, A increases at the expense of C (Mortimer and Forsdyke 2003). This A-for-C transversional trading, most evident at extreme GC% values (Fig. S10), should decrease the probabilities of G-quadruplexes and thymine dimers. Finally, noting for example the high AG% in thermophiles, it may be premature to conclude that tradeoffs are a ‘purely compositional phenomenon, linking the realms of nucleic and amino acids in prokaryotes regardless of their life styles, environments, and phylogeny.’ Grantham’s admonition regarding speciation and systematics should not go unheeded.

      Forsdyke DR: Evolutionary Bioinformatics. 2nd edition. New York: Springer, 2011.

      Forsdyke DR, Mortimer JR: Chargaff’s legacy. Gene 2000, 261:127-137.Forsdyke DR, 2000

      Goncearenco A, Berezovsky IN: The fundamental trade-off in genomes and proteomes of prokaryotes established by the genetic code, codon entropy, and physics of nucleic acids and proteins. Biology Direct 2014, 9:29.Goncearenco A, 2014

      Grantham R: Workings of the genetic code. Trends Biochem Sci 1980, 5:327-331.

      Grantham R, Perrin P, Mouchiroud D: Patterns in codon usage of different kinds of species. Oxford Surv Evol Biol 1986, 3:48-81.

      Lee S-J, Mortimer JR, Forsdyke DR: Genomic conflict settled in favour of the species rather than of the gene at extreme GC% values. Applied Bioinformatics 2004, 3:219-228.Lee SJ, 2004

      Mortimer JR, Forsdyke DR: Comparison of responses by bacteriophage and bacteria to pressures on the base composition of open reading frames. Applied Bioinformatics 2003, 2:47-62.Mortimer JR, 2003

      Zeldovich KB, Berezovsky IN, Shakhnovich EI: Protein and DNA sequence determinants of thermophilic adaptation. PLoS Comput Biol 2007, 3(1):e5.Zeldovich KB, 2007


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    1. On 2015 Mar 29, Geriatric Medicine Journal Club commented:

      The full version of study of the American Geriatrics Society Clinical Practice Guideline for Postoperative Delirium in Older Adults was reviewed at the March 2015 Geriatric Medicine Journal Club (follow #GeriMedJC on Twitter). The full discussion can be found at: http://gerimedjc.blogspot.com/2015/03/gerimedjc-march-27-2015.html?spref=tw This is an important document as surgical specialists identified delirium as “essential" more than any other topic in the care of older adults. While the #GeriMedJC discussion noted there were no real surprises in this data synthesis, hopefully this guideline will serve to fill a knowledge gap.


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    1. On 2014 Dec 13, David Keller commented:

      The grandfathered internists had 20% more experience in practice than the MOC'ed internists

      The "grandfathered" internists in this study were certified in 1989, while the "MOC'ed" internists (those forced to undergo Maintenance of Certification) were certified in 1991. The study was conducted in 2001, so the grandfathered internists had 12 years in practice, while the MOC'ed internists had only 10 years in practice. The difference of 20 percent more practice experience could account for much of the difference between the two groups; for example, the fact that the more experienced internists spent more money on patient care might reflect their increased experience in billing Medicare and insurance companies, which is knowledge not taught during the MOC process; rather, skill at billing is acquired through years in practice.


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    1. On 2016 May 23, Heidi Schulz commented:

      The p.T4I mutation had been previously published by Kinnick et al. 2011 (PMID21273940).


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    1. On 2015 Jan 20, Donald Forsdyke commented:

      HYPOTHESES OF SPECIATION As hinted at by one of the reviewers, hypotheses on the initiation of speciation are broadly categorized as genic and chromosomal (Nevo, 2012). The possibility that their intriguing observations on putatively sterile hybrids between certain mouse subspecies might be explained in chromosomal (non-genic) terms is not considered by Turner and Harr. Yet, from studies of hybrids of the same subspecies, Bhattacharyya et al. (2013; 2014) infer that “meiotic asynapsis of heterospecific homologous chromosomes is the primary mechanistic basis of hybrid sterility.” This indicates a role for “a fast-evolving subset of the noncoding genomic sequence important for chromosome pairing and synapsis.” Thus, any observed genic differences would be secondary to this (Page and Orr-Weaver, 1997).

      Furthermore, it is incorrectly implied by Turner and Harr that the work of Bateson (1909) supports the genic viewpoint to which the names of Dobzhansky and Muller are attached (“DM incompatibilities”). This is not a minor point, since Bateson consistently favored a non-genic viewpoint that is today best equated with the chromosomal hypothesis (Nei and Nozawa, 2011; Forsdyke, 2011).

      Bhattacharyya T, Gregorova S, Mihola O, Anger M, Sebestova J, Denny P, Simecek P, Forejt J. 2013. Mechanistic basis of infertility of mouse intersubspecific hybrids. Proceedings of the National Academy of Sciences, U S A 110: E468–477. doi:10.1073/pnas.1219126110.

      Bhattacharyya T, Reifova R, Gregorova S, Simecek P, Gergelits V, Mistrik M, Martincova I, Pialek J, Forejt J. 2014. X chromosome control of meiotic chromosome synapsis in mouse inter-subspecific hybrids. PLoS Genetics 10: e1004088. doi:10.1371/journal.pgen.1004088

      Forsdyke DR. 2011. The ‘B’ in BDM. William Bateson did not advocate a genic speciation theory. Heredity 106:202. doi:10.1038/hdy.2010.15.

      Nei M, Nozawa M. 2011. Roles of mutation and selection in speciation: from Hugo de Vries to the modern genomic era. Genome Biology and Evolution 3,812–829. doi:10.1093/gbe/evr028.

      Nevo E. 2012. Speciation: chromosomal mechanisms. In: eLS. Chichester: John Wiley & Sons. doi: 10.1002/9780470015902.a0001757.pub3.

      Page AW, Orr-Weaver TL. 1997. Stopping and starting the meiotic cycle. Current Opinion in Genetics and Development 7:23–31. doi: 10.1016/S0959-437X(97)80105-0.


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    1. On 2014 Dec 20, Rafael Najmanovich commented:

      Readers of this article may find interesting our large-scale rare codon cluster analysis across Pfam protein families (Chartier M, 2012).


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    1. On 2016 Jun 29, Bill Noble commented:

      Hi Zhibin, thank you for your comment. Yes, as we describe on p. 1148 in the paragraph beginning "Our primary goal in this article ...", there are many methods described in the literature for obtaining approximately calibrated scores. These are variously referred to as E-values or p-values, though the precise semantics of any such score depends on the method used to generate it. One of the main points of our article is to introduce an independent method to help evaluate the calibration properties of these types of scores. For example, Figure 3 shows the calibration properties of the MS-GF+ E-value. --Bill Noble & Uri Keich


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    2. On 2016 Jun 24, Zhibin Ning commented:

      Actually, quite a few search engine and downstream workflows do not use "score" to rank the peptide, instead, p-value is more appropriate to do the "second job" claimed in this manuscript. P value (or E value), in some sense, is the calibrated "score".


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    1. On 2014 Dec 11, David Keller commented:

      Congress gave health insurers the right to violate patient privacy - this must end

      Physicians insert “boilerplate text", defined as words which convey no meaningful medical information or insights, into their clinical notes mainly to satisfy documentation requirements imposed by the Medicare Evaluation and Management (E&M) Services Guide. Medicare and nearly all private health insurers adhere to the E&M Guide to determine their payments to physicians. These E&M service definitions largely dictate the format and content of physicians’ progress notes.

      There is a natural tension between physicians, who want to be paid in full for their efforts, and payers, who want to minimize payments to physicians. Payers enforce physician adherence to E&M documentation and billing regulations by hiring clerical employees called “coders” to audit patients’ clinical charts for documentation deficiencies. To avoid fines and prosecution, physician notes are usually generated first and foremost to fulfill the requirements of these coder audits, rather than the needs of their fellow clinicians.

      Coders determine whether a progress note meets the billing requirements mainly by checking how many elements of defined data are present. Most physicians are not completely familiar with the complex, confusing, and arcane E&M requirements, so they load up their notes with as much computer-generated boilerplate as they can, hoping it will include an overlooked element of data needed to satisfy a coder’s audit.

      This whole system must be discarded, or there can never be any hope of having progress notes that communicate clearly and concisely between clinicians. A quick and sure way to end this “tyranny of the coders” is for Congress to terminate the exemption granted to payers by the patient privacy laws, including HIPAA. This would eliminate inspection of the clinical chart by payers and their coders. Payers would no longer need battalions of coders, who could be relieved of their duties and retrained to perform more productive tasks.

      Payers should not be allowed to read, inspect, or audit patients’ clinical charts; this is a violation of patients’ medical privacy. It harms patients by causing physicians to spend more of their limited time generating progress notes, leaving less time for interacting with patients. Payers must verify physician billings in some way which does not violate the privacy of patient charts. Payments could be determined by the average amount of physician time required to treat the patient’s illnesses and manage their chronic conditions, as determined from the submitted diagnosis codes. Physicians could submit attestations for any required variations. In a world without E&M coding requirements, the clarity and efficiency of clinical documentation could be improved enormously, with more time for physicians to actually examine and treat patients.


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    1. On 2017 Jul 13, Randi Pechacek commented:

      Holly Ganz mentioned this paper on microBEnet as part of a larger discussion on antibiotic use in raising livestock.


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    1. On 2014 Dec 12, David Keller commented:

      Parkinsonian constipation & altered gut microbiota: suggestions for further study

      It has long been known that constipation due to autonomic dysfunction is an early pre-motor finding in Parkinson disease (PD). Other bowel motility disorders have been causally linked with alterations in gut flora; for example, opioid-induced constipation is a known risk factor for C. Difficile overgrowth (1,2), which in turn can cause diarrhea. If Parkinsonian constipation promotes changes in gut flora, it is reasonable to ask whether these changes in gut flora might alter the course of PD itself.

      Do toxins produced by gut microbes contribute to CNS neurodegeneration in susceptible individuals? The serum levels of these toxins should be tracked in a study designed to measure their effects in PD. If overgrowth of certain toxigenic bacterial species appears to cause accelerated neurodegeneration, then treatment with antibiotics or probiotics (or both) should be tested in selected individuals, in an attempt to slow the progression of their PD.

      References

      1: Keller DL. Opioid use and clostridium difficile infection. Am J Med. 2013 Apr;126(4):e13. doi: 10.1016/j.amjmed.2012.08.024. PubMed PMID: 23507210.

      2: Mora AL, Salazar M, Pablo-Caeiro J, Frost CP, Yadav Y, DuPont HL, Garey KW. Moderate to high use of opioid analgesics are associated with an increased risk of Clostridium difficile infection. Am J Med Sci. 2012 Apr;343(4):277-80. doi: 10.1097/MAJ.0b013e31822f42eb. PubMed PMID: 21934595.


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    1. On 2017 Mar 23, University of Kansas School of Nursing Journal Club commented:

      Team Members: Jason Tracy, Abigail Spare, Julia Damman, Laura Thompson, Sophie Bono, Maeve Markey. [Class of 2017]

      Background

      In our class, we took time to study shared governance in acute care organizations and looked at the importance of shared governance in regards to all nursing positions. This article not only touches on the importance of shared governance, but also explores the processes needed to help direct patient care nurses transition their knowledge, skills, and attitudes into the leadership role that would facilitate shared governance. Our team was especially interested in the idea of shared governance, and liked how this particular article discussed an intervention to increase shared governance by empowering nurses with leadership. This is an interesting, practical intervention that could be implemented with nurses.

      Methods

      This was a descriptive qualitative study that took place at a university medical center hospital with 300 adult beds in southeastern U.S. Through partnership, the CNO and CON faculty developed a Frontline Innovations (FI) group that help mentor frontline nurses with leadership skills, problem solving strategies, and evidence based to fix identified operational failures. The group included 12 frontline nurses from 4 different medical surgical units chosen by the CNO based on their leadership potential. Frontline nurses are extremely important to include in change process because they have direct impact to patients outcomes.

      Interviews were conducted to reveal the steps of process improvement, and analysis of interviews determine recurring themes which were divided into process and outcome measures describing staff, administration, and faculty interaction. Engagement was identified as a component of the process theme and was observed through both verbal and nonverbal communication with the CNO, as well as focused role playing activities with interprofessional groups. The nurses that engaged in these group activities were then responsible for sharing what they learned with their peers on the unit (Dearmon et al. 2015).

      The study ultimately affected nursing administration and executives as well because of their influence in the structures and processes of various units. This influence carried over to the care delivery of frontline nurses give. Shared governance distributes power, resources, and information as equally as possible, so it is important that both administration and frontline nurses work together (Dearmon et al. 2015).

      Findings

      Outcome measures included collaboration, empowerment, confidence, and lifelong learning. Collaboration was found to be important for the creation of the organization’s new shared governance model. It allowed members to work together to achieve a common goal, strengthen group morale, and improve the credibility of decisions making process. Nurses began to feel empowered when they felt their voices were heard by the CNO and changes were made. Nurses who were given the opportunity to visit other facilities that has shared governance model returned to their own organization feeling empowered to brought back shared governance model in their unit. In order to instill confidence that the new shared governance model would work for the organization, Frontline Innovations group members coached nurses through the new project and allowed them to use the process to see success for themselves (Dearmon et al. 2015).

      Creating the Frontline Innovations group proved to be an effective way to influence change at the bedside through the implementation of a shared governance model. All disciplines involved learned to trust each other and this transferred to practice, improving collaboration in patient care. Nurses became more enthusiastic about the care they provided because they felt their voices were being heard and thus began to realize they had the ability to change practice when gaps were seen. The transition from a culture of administrative decision-making to one of staff engagement and shared decision-making forged an organization with all members willing to take responsibility for workplace obstacles (Dearmon et al. 2015).

      Nursing Implications

      The healthcare industry continues to become more complex as new discoveries are made. As these complexities expand the nursing practice becomes more specialized, making it more difficult for the executives in charge to understand the needs of the individual environments. Only by including the nurses that work in direct patient care areas can executives get a full picture of the operations and needs of the units. The literature shows that although both executive and front line nurses desire to collaborate, there is a gap to be filled before this can occur. The literature shows that there are means by which this gap can be bridged by developing mentorship programs, from which front line nurses can gain the knowledge needed to participate in counsels that effect change within the organization. This also helps nurses find their voice and the desire to work independently with their executive mentors to make quality improvements within their units. The end result was better working relationships between the two groups and more productive initiatives in providing better patient care (Dearmon et al. 2015). This means the healthcare industry is able to provide more efficient services and better patient outcomes due to changes made by the people involved in doing the work. As new nurses getting ready to enter the healthcare system, it is reassuring to know that our point of view is just as important as that of a nurse executive. Stepping into a new organization, we bring a fresh set of eyes that can see things to which others have become accustomed to. Being able to affect change within an organization is an important factor when choosing a career, and this article helps support this initiative. The section that discussed nurses being able to work independently gave rise to the idea of working and improving within specific system. Individually both systems can do a certain amount of work, but without collaboration they can ultimately fail. However, this also requires leadership to be in place in both systems. This means that although the executive officers may be the faces of the organization, nurse leaders in each system are called to step up to the task of effecting change.

      If the literature is found to be valid and reliable, then many changes are sure to come. There is already a push for hospitals to obtain Magnet status. The evidence found in this article supports the Magnet program and the need for more nurses stepping into leadership roles. This may also change how nurses are integrated into an organization by mandating new employees to be trained in the organization's leadership development program. The end product would include more staff educated in how to effectively work within their unit’s structure and how their unit collaborates best with other units. This alone can provide a multitude of solutions to decrease expenses and the amount of waste, provide more efficient care, and increase employee morale.

      Reference

      Dearmon, V., Riley, H., Mestas, G., & Buckner, B. (2015). Bridge to shared governance: Developing leadership of frontline nurses. Nursing Administration Quarterly, 39(1), 69-77. doi: 10.1097/NAQ.0000000000000082


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    1. On 2014 Dec 05, David Mage commented:

      This has been known for a long time as described by Sudden unexpected infant deaths in Dundee, 1882-1891: overlying or SIDS?

      Williams FL, Lang GA, Mage DT.

      Scott Med J. 2001 Apr;46(2):43-7.

      PMID: 11394337


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    1. On 2015 Apr 02, University of Lausanne Genomics, Ecology and Evolution Journal Club commented:

      The article nicely highlights the need for a reference genome panel consisting of African variants and understanding African population history. This is a summary of the discussion at our journal club. Gurdasani et al. offer evidence for B the antu expansion, although the sample distribution came mostly from the coast rather then inside of the African continent where the Bantu expansion occurred. Moreover, the article lacks discussion of the gene flow effects other then the impact of Euroasian admixture on the differentiation among the African populations. It would be interesting to see are some effects due to allele surfing or allele fixation. In the article, the highest proportion of Euroasian ancestry is observed in the Ethiopian population. The authors hypothesize that Euroasian ancestry is responsible for the differentiation in African populations, rather than adaptation to selective forces. But, the highly differentiated SNPs between Euroasian and African populations showed evidence of differentiation within genes of malaria susceptibility and osmoregulation, which makes the previous statement imprecise. Also, the results of population admixture shows an overlap both in Euroasian and HG ancestry in East Africa without any further explanation of how it happened. The last part of the article is probably the most valuable one, since it shows the improvement of imputation accuracy of African populations variants by using different reference genome panel. Although finding the optimal array design for capturing most of African variation is admirable, in the current state of sequencing technology it might not be necessary anymore. A final remark is that the visualization of the results in extended and supplementary data was sometimes hard to decipher.


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    1. On 2014 Dec 04, Rafael Najmanovich commented:

      We predicted back in 2012 (Chartier M, 2012) as part of a large scale analysis of rare codon cluster that such clusters may play a role in molecular recognition whereby translational pauses in the nascent protein would permit its interaction with other proteins to permit intracellular targeting and membrane insertion. It is unfortunate that the authors were not aware of our publication.


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    1. On 2015 Jun 20, Arnaud Chiolero MD PhD commented:

      Beliefs are pervasive in the epidemiology of nutrition, whose scientific credibility is seriously questioned. This paper offers some solutions to this major issue.


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    1. On 2014 Dec 10, Jim Woodgett commented:

      There is no direct evidence in this paper that the effects of lithium on kidney function are specifically via GSK-3beta. The GSK-3alpha isoform, which was not investigated, is equally inhibited by this ion and the following statement is erroneous: "lithium, a selective inhibitor of GSK3β". As an aside, dominant negative GSK-3beta (kinase-dead), interferes with both GSK-3alpha and beta.


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    1. On 2015 Feb 06, Ryan Radecki commented:

      Post-publication commentary: "More Futility for Mechanical CPR"

      A few weeks ago we reported on the use of the LUCAS-2 for crushing the thorax, resulting in significant internal injuries. None of these injuries were judged to have contributed to any patient’s demise – but, still, concerning. This could be more forgivable if there were other advantages, say, survival.

      Unfortunately, yet again, mechanical CPR fails to demonstrate superiority....

      http://www.emlitofnote.com/2014/12/more-futility-for-mechanical-cpr.html


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    1. On 2015 Jan 22, Larry Parnell commented:

      This paper was my selection for Paper of the Week for 12-16 Jan 2015.

      We have it rather interesting to map onto the network described in this article (Fig 2) those genes carrying variants that associate with obesity anthropometrics. Some regions of the network are sparsely populated or entirely devoid of such obesity GWAS genes, while others have a great concentration of such genes.

      We were surprised not to see FTO or extracellular remodeling genes/proteins displayed in this network. The FTO/IRX3 locus has much evidence linking it to obesity. As adipose expands, much remodeling of the extracellular matrix takes place.


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    1. On 2015 Aug 10, NephJC - Nephrology Journal Club commented:

      This study was discussed on July 28 and 29th 2015 in the open online nephrology journal club, #NephJC, on twitter .

      Introductory explanatory comments, written by Matt Sparks, are available at the NephJC.

      There was a very lively discussion, which included about 50 participants, enriched by the active engagement by two of the authors, Ben Humphreys and Rafael Kramann, and was complete with many citations to related research articles.

      A transcript and a curated (i.e. Storified) version of the tweetchat are available from the NephJC website.

      The highlights of the tweetchat discussion were:

      • The study does help establish that Gli1+ perivascular ('pericytes') MSC-like cells are the source of ~70% of myofibroblasts after organ injury, and are key players in the subsequent fibrosis.

      • Successful/effective targeting of this pathway leads to less fibrosis in preservation of heart function after transverse aortic banding (a heart failure model), however substantial hurdles still exist in terms of delivering a potential therapeutic intervention to lessen fibrosis but ensuring the protective effects of fibrosis are not inhibited.

      • The authors' did remarkable work in leveraging elegant techniques such as lineage tracing, multiple organ injury models, parabiosis and diphtheria toxin/Gli1 knockout.

      Interested individuals can track and join in the conversation by following @NephJC or #NephJC, or visit the webpage at NephJC.com.


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    1. On 2017 Jul 14, Randi Pechacek commented:

      Amy Pruden, co-author of this paper, wrote an entertaining blog post on microBEnet providing background.


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    1. On 2016 Jul 01, Nicholas J L Brown commented:

      Our reanalysis of the data from the article by Vedhara et al. (2015) showed that their results are fragile and ambiguous and depend on (a) the inclusion or exclusion of two study participants missing values for one of the control variables and (b) the accumulation of statistical suppression effects in the regression analyses. See 10.1016/j.paid.2015.11.055.


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    1. On 2014 Dec 23, GEANNCARLO LUGO commented:

      This is a timely review article addressing the role of the STAT3-dependen signaling pathway in Tuberculosis. I find it easy to read, well structured, and quite helpful in summarizing everything that is known about these factor in the context of TB.


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    1. On 2016 Aug 05, Zvi Herzig commented:

      Adding to Bates' comments below, here are some specific misrepresentations of the primary evidence by the Pisinger and Døssing review, relating to almost every major issue in e-cigarette toxicology (not an exhaustive list):

      • “Some studies found high maximum concentrations of total TSNA”, citing studies showing TSNAs 100-200 times below cigarette smoke levels [1-3].
      • “Exposure to formaldehyde was comparable with smoking", referring to a study calculating formaldehyde levels nine times below that from tobacco smoke [1].
      • “Propylene glycol has been found to exacerbate and/or induce multiple allergic symptoms in children”, citing a study stating that "apparently… outcomes were not driven by propylene glycol” [4].
      • “Values below the threshold limit don't necessarily protect against the health effect of 200–300 daily inhalations over decades”, referring to safety limits calculated for 8 hours exposures “day after day, over a working lifetime” [5].
      • “These metals appear on the U.S. Food and Drug Administration's 'Harmful and Potentially Harmful Chemicals' list”, referring to metals detected below levels acceptable to the FDA for chronic inhalation [6-8].

      [1] Goniewicz ML, Knysak J, Gawron M et al. Levels of selected carcinogens and toxicants in vapour from electronic cigarettes. Tob Control 2014

      [2] Kim HJ, Shin HS. Determination of tobacco-specific nitrosamines in replacement liquids of electronic cigarettes by liquid chromatography-tandem mass spectrometry. J Chromatogr A 2013

      [3] Farsalinos KE, Romagna G, Voudris V. Authors miss the opportunity to discuss important public health implications. J Chromatogr A 2013

      [4] Choi H, Schmidbauer N, Spengler J et al. Sources of propylene glycol and glycol ethers in air at home. Int J Environ Res Public Health 2010

      [5] ACGIH. Chemical Substances Introduction. acgih.org 2016. http://www.acgih.org/tlv-bei-guidelines/tlv-chemical-substances-introduction

      [6] Siegel M. Metals in Electronic Cigarette Vapor are Below USP Standards for Metals in Inhalation Medications. The Rest of the Story: Tobacco News Analysis and Commentary. 2013.http://tobaccoanalysis.blogspot.com/2013/04/metals-in-electronic-cigarette-vapor.html .

      [7] Farsalinos K. Metals and nanoparticles in e-cigarettes. 2013.http://www.ecigarette-research.com/web/index.php/2013-04-07-09-50-07/2013/89-metals-and-nanoparticles-i n-e-cigarettes-commentary.

      [8] Farsalinos K, Voudris V, Poulas K. Are Metals Emitted from Electronic Cigarettes a Reason for Health Concern? A Risk-Assessment Analysis of Currently Available Literature. International Journal of Environmental Research and Public Health 2015


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    2. On 2016 Aug 05, Zvi Herzig commented:

      None


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    3. On 2016 Aug 16, Clive Bates commented:

      Note: The focus on conflicts of interests (COI) received criticism both for exaggeration and for the tacit assumption that a COI declaration somehow invalidates the scientific merit of the work. See Kosmider L, 2016 Ideology versus evidence: Investigating the claim that the literature on e-cigarettes is undermined by material conflict of interest and the reply from the authors Pisinger C, 2016 Reading the conflict of interest statement is as important as reading the result section: Response to the letter by Dr. Kosmider.

      COI declaration is not intended as a form of self-invalidation, but for transparency. It is absurd to assert that it is as important as the substance of the work itself. COI tends to focus on conflicts arising from commercial interests, but many researchers in this field have undisclosed conflicts relating to funders, regulators, employers' prior policy positions, and their long-held beliefs. If these authors want to investigate COI (not the ostensible purpose of this work), then they should do it rigorously, and with a broader view of COI.


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    4. On 2016 Aug 05, Clive Bates commented:

      Despite the title, the review does not address the "health effects of electronic cigarettes". Or perhaps to the extent that it does, it does not find anything negative to report. This may explain the diversionary conclusion, which resorts to an argument about competing interests rather than a critique of actual scientific findings [see note appended below].

      It does, however, attempt to summarise various proxies for health effects but does this very poorly. Throughout the substance of the article, it fails to internalise the most basic concept in toxicology:

      "the dose makes the poison" (attributed to Paracelsus, 1538).

      The assessment of e-cigarette science by the Royal College of Physicians (London), Nicotine without smoke: tobacco harm reduction, 28 April 2016 included this review but passed over it in the following terms:

      Recent reviews of the health effects of toxins inhaled during normal use of e-cigarettes have expressed concerns over potential adverse effects based on the presence of these contaminants, but not their levels, which are generally the more important determinant of toxicity.

      The danger of a review that approaches toxicology in this way is that plays into public fears inspired by chemical names and may deter smokers, who are at well-established serious risk from high exposures to harmful agents, from switching to the much safer vapour products. In doing so, the careless framing of scientific findings can cause actual harm.

      In addition, such work provides a citable source for irresponsible activism, and so can entrench misunderstanding in regulatory bureaucracies like the WHO, FDA and European Commission - further amplifying the harm through ill-conceived regulation.

      For any future work, these authors or others should carefully distinguish between the following:

      • The detection of the presence of a hazardous agent in vapour, recognising a de minimis level for which there is no material concern - see Burstyn I, 2014 for an approach that adopts occupational exposures as a frame of reference.

      • Human exposure to a hazardous agent that may or may not present a risk to health recognising that magnitude of exposure and materiality matter. For an insight into how to approach this, see Farsalinos KE, 2014. These authors provide a good example in Table 3, showing e-cigarette nitrosamine exposure to be about 1,000 times lower than in cigarette smoke and comparable to the residual levels found in regulated medicinal NRT.

      • Observed damage to cells found in vitro following exposure to vapour that may have no bearing on human exposure or risk. See criticism of the extreme misinterpretation of one cell study finding in PubMed Commons on Yu V, 2016. This study provides a good example of what not to do.

      • Observed impacts in animal studies, which are rarely a reliable proxy for human experience - see discussion by the Laura and John Arnold Foundation of the weakness of animal studies: Why journalists should stop publishing mouse studies

      • The illusion of risks induced by operating vaping equipment in a way that no human user will ever experience other than momentarily. The Jensen RP, 2015 study on 'hidden formaldehyde' is a case in point and has been severely and appropriately criticised (Bates CD, 2015) for running equipment too hot and in 'dry puff' conditions, and then sensationalising the findings as if they showed a cancer risk, and suggesting these may be greater than for smoking.

      • Observed changes to the human body that are not necessarily an indication of harm to health. Nicotine and coffee both create changes to the cardiovascular system, but neither is a direct cause of material harm - see PubMed Commons review of Carnevale R, 2016.

      • Signs of immediate health gains when e-cigarettes are used as an alternative to smoking - for examples see Polosa R, 2015 and Polosa R, 2014 for examples of 'harm reversal' in chronic respiratory patients.

      Finally, given that almost all e-cigarette users are former or current smokers, then any attempt to provide useful information on e-cigarette risk should always use cigarette smoking and related risk as a point of reference, not only the risks compared to complete abstinence. To avoid this comparison is to miss the value of harm reduction as a strategy in tobacco control. There are many examples of this failure - to take just four:

      • Allen JG, 2016 raised the alarm about an additive, diacetyl, but failed to point out that, as one critic put it, "average diacetyl exposure from vaping is 750 times lower than from smoking".

      • Yu V, 2016 despite concluding that "e-cigarette vapor, both with and without nicotine, is cytotoxic to epithelial cell lines and is a DNA strand break-inducing agent", the study showed that cells exposed to the e-cigarette vapour medium were still alive after 8 weeks but all were dead in the tobacco smoke extract within 24 hours. This important comparison was buried in the paper, not mentioned in the abstract, and not included in the authors' publicity statements about the study.

      • Schweitzer KS, 2015 attempted to show that nicotine causes "dose-dependent loss of lung endothelial barrier function, which is associated with oxidative stress and brisk inflammation". But this study has been criticised for using nicotine exposures 500-50,000 times higher than nicotine concentrations in the blood of typical smokers or vapers: Cell studies on e-cigarettes: don’t waste your time reading (at least most of) them

      • Paley GL, 2016 concluded that e-cigarette battery fires and explosions were a "significant public health risk", based on six reported incidents. The authors asserted this without noting that in 2011 there were 90,000 smoking-material fires in the U.S. resulting in an estimated 540 civilian deaths, 1,640 civilian injuries and $621 million in direct property damage. To the extent vaping replaces smoking it will reduce this toll and result in a significant public health win.


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    1. On 2015 Jan 25, Reuben Strayer commented:

      If anyone wants the full (not truncated) version of the manuscript, contact me at the email address above.


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    1. On 2017 Jul 09, Jeffrey Ross-Ibarra commented:

      In our manuscript exploring the population genetics of local adaptation (Tiffin and Ross-Ibarra 2014) we included a discussion about the potential uses of reduced representation data (e.g. RAD-seq, GBS). To provide a sense of the probability of using reduced representation data to identify targets of selection, we included a figure showing the probability of having a SNP included in a region of the genome in which diversity had been severely reduced due to a recent selective sweep. Unfortunately this figure is not correct; an error in the code inadvertently used centimorgans as morgans, causing the recombination rate to be off by a factor of 100.

      To correct this we have generated a new figure (see http://rpubs.com/rossibarra/257207; raw code is available at https://gist.github.com/rossibarra/be44cc3b3796f45840d942ad11c01ba1) that corrects this error and presents a more realistic model. Our previous model assumed SNPs were distributed evenly across the genome and the presence of a single SNP near a sweep was sufficient for detection. Instead, here we explicitly model sequence “tags” coming from RAD-seq or GBS, and incorporate information about the variation in diversity expected among tags in neutral regions of the genome. The figure clearly shows that with dense marker coverage and strong selection, the probability of detecting reductions in diversity due to recent selective sweeps from new beneficial mutations can be relatively high. We emphasize, however, that the purpose of the figure is solely to develop an intuition of the likelihood of detecting a recent selective sweep. The many simplifying assumptions made in generating the figure (no recent demographic change, both sequence tags and recombination occur uniformly along the genome, selection is on a novel beneficial mutation with additive effect that has recently swept to fixation), as well as the specific mutation rates, sample size, sequence length, and recombination rates assumed will all affect the actual probability of a tag being included in a selective sweep. Moreover, this figure does not touch on many other relevant issue such as multiple testing, complex demography, background selection, or other modes of positive selection (e.g. from standing variation, balancing selection, or selection on polygenic traits).

      We have submitted a correction to the journal.

      We thank Eric Johnson for drawing our attention to the error, and Eric Johnson, Kathleen Lotterhos, and Graham Coop for kindly reviewing previous versions of the code and assumptions we have used in generating this new figure.


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    1. On 2014 Dec 03, Paolo Tieri commented:

      This article is one of the "Multi-omic Data Integration" Research Topic in Frontiers, which focuses on data integration approaches and methods of any type and extent, their application in understanding the pathogenesis of specific diseases or in identifying candidate biomarkers, in order to exploit the full benefit of multi-omic datasets and their intrinsic information content. For more information about multi-omic data integration check http://journal.frontiersin.org/ResearchTopic/2280


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