64 Matching Annotations
  1. Apr 2022
    1. Payne, R. P., Longet, S., Austin, J. A., Skelly, D. T., Dejnirattisai, W., Adele, S., Meardon, N., Faustini, S., Al-Taei, S., Moore, S. C., Tipton, T., Hering, L. M., Angyal, A., Brown, R., Nicols, A. R., Gillson, N., Dobson, S. L., Amini, A., Supasa, P., … Zawia, A. A. T. (2021). Immunogenicity of standard and extended dosing intervals of BNT162b2 mRNA vaccine. Cell, 184(23), 5699-5714.e11. https://doi.org/10.1016/j.cell.2021.10.011

    1. Eric Feigl-Ding [@DrEricDing]. (2021, November 12). 💡BEST. VIDEO. ALL. YEAR. Please share with friends how the mRNA vaccine works to fight the coronavirus. 📌NOTA BENE—The mRNA never interacts with your DNA 🧬. #vaccinate (Special thanks to the Vaccine Makers Project @vaccinemakers of @ChildrensPhila). #COVID19 https://t.co/CrSGGo6tqq [Tweet]. Twitter. https://twitter.com/DrEricDing/status/1459284608122564610

    2. Eric Feigl-Ding [@DrEricDing]. (2021, November 12). 💡BEST. VIDEO. ALL. YEAR. Please share with friends how the mRNA vaccine works to fight the coronavirus. 📌NOTA BENE—The mRNA never interacts with your DNA 🧬. #vaccinate (Special thanks to the Vaccine Makers Project @vaccinemakers of @ChildrensPhila). #COVID19 https://t.co/CrSGGo6tqq [Tweet]. Twitter. https://twitter.com/DrEricDing/status/1459284608122564610

    1. Pérez-Then, E., Lucas, C., Monteiro, V. S., Miric, M., Brache, V., Cochon, L., Vogels, C. B. F., Cruz, E. D. la, Jorge, A., Santos, M. D. los, Leon, P., Breban, M. I., Billig, K., Yildirim, I., Pearson, C., Downing, R., Gagnon, E., Muyombwe, A., Razeq, J., … Iwasaki, A. (2021). Immunogenicity of heterologous BNT162b2 booster in fully vaccinated individuals with CoronaVac against SARS-CoV-2 variants Delta and Omicron: The Dominican Republic Experience (p. 2021.12.27.21268459). medRxiv. https://doi.org/10.1101/2021.12.27.21268459

    1. 🇺🇦 Meaghan Kall [@kallmemeg]. (2021, December 23). VACCINES Speaking of boosters, it’s not great news I’m afraid. Updated vaccine effectiveness analysis shows mRNA boosters beginning to wane from one month (week 5-9) for Omicron, and as low as 30-50% effective from 10 weeks post-booster. This effect is not seen with Delta. Https://t.co/g0tLxH3vLR [Tweet]. Twitter. https://twitter.com/kallmemeg/status/1474072056878804992

    1. Paul Bieniasz [@PaulBieniasz]. (2021, December 12). It is time to discard the notion that two doses of mRNA means “fully vaccinated” It is time to discard the notion that prior SARS-CoV-2 infection means you don’t need to be vaccinated. [Tweet]. Twitter. https://twitter.com/PaulBieniasz/status/1470041859053563906

    1. Brianna Wu. (2021, June 5). MRNA is unbelievably fragile. The enzymes that degrade it are literally everywhere. That’s why they had to develop specialized lipid nanoparticles to deliver it. It would last two seconds in a sewer system. Also, it gets separated from the delivery system after it’s injected. Https://t.co/35dZ6r6UAq [Tweet]. @BriannaWu. https://twitter.com/BriannaWu/status/1400998163968933888

  2. Mar 2022
    1. Lauring, A. S., Tenforde, M. W., Chappell, J. D., Gaglani, M., Ginde, A. A., McNeal, T., Ghamande, S., Douin, D. J., Talbot, H. K., Casey, J. D., Mohr, N. M., Zepeski, A., Shapiro, N. I., Gibbs, K. W., Files, D. C., Hager, D. N., Shehu, A., Prekker, M. E., Erickson, H. L., … Self, W. H. (2022). Clinical severity of, and effectiveness of mRNA vaccines against, covid-19 from omicron, delta, and alpha SARS-CoV-2 variants in the United States: Prospective observational study. BMJ, 376, e069761. https://doi.org/10.1136/bmj-2021-069761

  3. Feb 2022
    1. ReconfigBehSci on Twitter: “RT @Gab_H_R: Effectiveness of mRNA-1273 against-Omicron and Delta variants ⚠️ The 3dose VE was 71.6% and 47.4% against Omicron infection (…” / Twitter. (n.d.). Retrieved February 22, 2022, from https://twitter.com/SciBeh/status/1496032262177136642

  4. Jan 2022
    1. Home

      Zuo, F., Abolhassani, H., Du, L., Piralla, A., Bertoglio, F., Campos-Mata, L. de, Wan, H., Schubert, M., Wang, Y., Sun, R., Cassaniti, I., Vlachiotis, S., Kumagai-Braesch, M., Andréll, J., Zhang, Z., Xue, Y., Wenzel, E. V., Calzolai, L., Varani, L., … Pan-Hammarström, Q. (2022). Heterologous immunization with inactivated vaccine followed by mRNA booster elicits strong humoral and cellular immune responses against the SARS-CoV-2 Omicron variant (p. 2022.01.04.22268755). https://doi.org/10.1101/2022.01.04.22268755

  5. Dec 2021
    1. Garcia-Beltran, W. F., Denis, K. J. S., Hoelzemer, A., Lam, E. C., Nitido, A. D., Sheehan, M. L., Berrios, C., Ofoman, O., Chang, C. C., Hauser, B. M., Feldman, J., Gregory, D. J., Poznansky, M. C., Schmidt, A. G., Iafrate, A. J., Naranbhai, V., & Balazs, A. B. (2021). MRNA-based COVID-19 vaccine boosters induce neutralizing immunity against SARS-CoV-2 Omicron variant (p. 2021.12.14.21267755). https://doi.org/10.1101/2021.12.14.21267755

    1. Bert Hubert’s excellent and widely shared article about Reverse Engineering the source code of the Pfizer-BioNTech SARS-CoV-2 Vaccine

      These 2 articles form an informational island on covid19 mRNA vaccines.

    1. Translational kinetics of mRNA-LNP delivered by different routes in vivo. Quantification of the bioluminescent signal measured in BALB/c mice injected with (A) 0.1 μg, (B) 1.0 μg or (C) 5.0 μg mRNA-LNPs by intradermal (i.d.), intramuscu

      Diagrams of the presence of proteins versus time in various administration methods in mouse

    1. In this mouse model, the mRNA hit the hepatocytes and caused them to make plenty of luciferase, but not for long: at Day 1, the livers were lit up like a used car lot, but by Day 3, everything was gone. At that point, though, there was still some light coming from the sites of injection.

      Where does all the mRNA end up, according to this 2015 study on mice](https://www.ncbi.nlm.nih.gov/labs/pmc/articles/PMC4624045/)?

      Here we learn stuff not reorted in the paper.

  6. Nov 2021
  7. Oct 2021
    1. Tartof, S. Y., Slezak, J. M., Fischer, H., Hong, V., Ackerson, B. K., Ranasinghe, O. N., Frankland, T. B., Ogun, O. A., Zamparo, J. M., Gray, S., Valluri, S. R., Pan, K., Angulo, F. J., Jodar, L., & McLaughlin, J. M. (2021). Effectiveness of mRNA BNT162b2 COVID-19 vaccine up to 6 months in a large integrated health system in the USA: A retrospective cohort study. The Lancet, 398(10309), 1407–1416. https://doi.org/10.1016/S0140-6736(21)02183-8

    1. Following IM administration, the maximum concentration (Cmax) of the injection site muscle was 5,680 ng/mL, and the level declined with an estimated t1/2 of 18.8 hr

      Vaccine's halg-life was measured just below a day for mice muscles.

    2. The spleen and liver had a mean Cmax of 86.9 ng/mL

      Spleen & liver had x30 less mRNA concentration than Lymph nodes closest to the vaccine site, and x70 less the injected muscle.

    3. Proximal lymph nodes had the second highest concentration at 2,120 ng/mL (tmax of 8 hr with a relatively long t1/2 of 25.4 hr)

      Lymph-node mRNA half-life is a day.

    1. Lucas, C., Vogels, C. B. F., Yildirim, I., Rothman, J. E., Lu, P., Monteiro, V., Gelhausen, J. R., Campbell, M., Silva, J., Tabachikova, A., Peña-Hernandez, M. A., Muenker, M. C., Breban, M. I., Fauver, J. R., Mohanty, S., Huang, J., Shaw, A. C., Ko, A. I., Omer, S. B., … Iwasaki, A. (2021). Impact of circulating SARS-CoV-2 variants on mRNA vaccine-induced immunity. Nature, 1–9. https://doi.org/10.1038/s41586-021-04085-y

    1. Barros-Martins, J., Hammerschmidt, S. I., Cossmann, A., Odak, I., Stankov, M. V., Morillas Ramos, G., Dopfer-Jablonka, A., Heidemann, A., Ritter, C., Friedrichsen, M., Schultze-Florey, C., Ravens, I., Willenzon, S., Bubke, A., Ristenpart, J., Janssen, A., Ssebyatika, G., Bernhardt, G., Münch, J., … Behrens, G. M. N. (2021). Immune responses against SARS-CoV-2 variants after heterologous and homologous ChAdOx1 nCoV-19/BNT162b2 vaccination. Nature Medicine, 1–5. https://doi.org/10.1038/s41591-021-01449-9

  8. Sep 2021
  9. Aug 2021
    1. Hillus, David, Tatjana Schwarz, Pinkus Tober-Lau, Hana Hastor, Charlotte Thibeault, Stefanie Kasper, Elisa T. Helbig, et al. “Safety, Reactogenicity, and Immunogenicity of Homologous and Heterologous Prime-Boost Immunisation with ChAdOx1-NCoV19 and BNT162b2: A Prospective Cohort Study,” June 2, 2021. https://doi.org/10.1101/2021.05.19.21257334.

  10. Jul 2021
    1. Collier, D. A., Ferreira, I. A. T. M., Kotagiri, P., Datir, R., Lim, E., Touizer, E., Meng, B., Abdullahi, A., Elmer, A., Kingston, N., Graves, B., Gresley, E. L., Caputo, D., Bergamaschi, L., Smith, K. G. C., Bradley, J. R., Ceron-Gutierrez, L., Cortes-Acevedo, P., Barcenas-Morales, G., … Gupta, R. K. (2021). Age-related immune response heterogeneity to SARS-CoV-2 vaccine BNT162b2. Nature, 1–9. https://doi.org/10.1038/s41586-021-03739-1

  11. Jun 2021
  12. May 2021
    1. Eric Topol. (2021, May 1). Downgrading the concern on B.1.617, the poorly named ‘double mutant’—98% effectiveness of mRNA vaccine in an Israeli outbreak @CT_Bergstrom https://t.co/tGbuwPUmAL —Lab studies: Minimal immune evasion, expected full protection from vaccine @GuptaR_lab https://t.co/AIp24G0ROK https://t.co/AK20UWlDBD [Tweet]. @EricTopol. https://twitter.com/EricTopol/status/1388539223230140422

    1. Dr. Tom Frieden. (2021, April 30). Globally, the end of the pandemic isn’t near. More than a million lives depend on improving our response quickly. Don’t be blinded by the light at the end of the tunnel. There isn’t enough vaccine and the virus is gathering strength & speed. Global cooperation is crucial. 1/ [Tweet]. @DrTomFrieden. https://twitter.com/DrTomFrieden/status/1388172436999376899

  13. Apr 2021
    1. Kustin, T., Harel, N., Finkel, U., Perchik, S., Harari, S., Tahor, M., Caspi, I., Levy, R., Leschinsky, M., Dror, S. K., Bergerzon, G., Gadban, H., Gadban, F., Eliassian, E., Shimron, O., Saleh, L., Ben-Zvi, H., Amichay, D., Ben-Dor, A., … Stern, A. (2021). Evidence for increased breakthrough rates of SARS-CoV-2 variants of concern in BNT162b2 mRNA vaccinated individuals. MedRxiv, 2021.04.06.21254882. https://doi.org/10.1101/2021.04.06.21254882

  14. Feb 2021
    1. Andrew💙Croxford. (2020, December 3). NEW THREAD: possible development of anti-Syncytin responses after immunization with the SARS-CoV-2 spike protein-coding mRNA vaccines, based on a ‘homologous’ region shared between these proteins. [Tweet]. @andrew_croxford. https://twitter.com/andrew_croxford/status/1334593606196187136

  15. Jan 2021
    1. mRNA vaccines are a new type of vaccine to protect against infectious diseases. To trigger an immune response, many vaccines put a weakened or inactivated germ into our bodies. Not mRNA vaccines. Instead, they teach our cells how to make a protein—or even just a piece of a protein—that triggers an immune response inside our bodies. That immune response, which produces antibodies, is what protects us from getting infected if the real virus enters our bodies.
    1. the mRNA in the vaccine contains instructions to tell our body how to build a coronavirus spike protein. As soon as we do that, our immune system freaks out, as it’s supposed to, and creates antibodies to the spike protein. The mRNA is destroyed shortly after the injection, but the antibodies stick around. They can then recognize the real virus if we ever encounter it in the wild.
  16. Nov 2020
  17. Aug 2020
    1. Corbett, K. S., Edwards, D. K., Leist, S. R., Abiona, O. M., Boyoglu-Barnum, S., Gillespie, R. A., Himansu, S., Schäfer, A., Ziwawo, C. T., DiPiazza, A. T., Dinnon, K. H., Elbashir, S. M., Shaw, C. A., Woods, A., Fritch, E. J., Martinez, D. R., Bock, K. W., Minai, M., Nagata, B. M., … Graham, B. S. (2020). SARS-CoV-2 mRNA vaccine design enabled by prototype pathogen preparedness. Nature, 1–8. https://doi.org/10.1038/s41586-020-2622-0

  18. Jul 2020