6 Matching Annotations
  1. Jul 2018
    1. On 2014 Mar 12, Allison Stelling commented:

      While SERS gives an advantage in depth penetration, I would be more comfortable with not using any labels in medical diagnostics. Raman spectroscopy can be done without needing any nanoparticles. For a newer study that uses Raman and florescence to do non-invasive, non-destructive tumor border margin assessment on-line during surgeries, see Kong K, 2013.

      As to the depth penetration, spatially offset Raman studies are being done that address this question. Labels and dyes may always have a place at the diagnostic table- however, I think they should be a last resort after less expensive and invasive tests; for a review see: Matousek P, 2013.


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    2. On 2014 Mar 12, George W Hinkal commented:

      None


      This comment, imported by Hypothesis from PubMed Commons, is licensed under CC BY.

    3. On 2014 Feb 27, George W Hinkal commented:

      The National Cancer Institute has been investing in the development of an online webportal of curated cancer nanotechnology data called caNanoLab. The numerical data, nanomaterial characterizations and composition information for the ten nanoparticles related to this publication have been added to the database and can be found at:

      https://cananolab.nci.nih.gov/caNanoLab/characterization.do?dispatch=summaryView&sampleId=36601870&page=0&tab=ALL

      https://cananolab.nci.nih.gov/caNanoLab/characterization.do?dispatch=summaryView&sampleId=36601871&page=0&tab=ALL

      https://cananolab.nci.nih.gov/caNanoLab/characterization.do?dispatch=summaryView&sampleId=36601872&page=0&tab=ALL

      https://cananolab.nci.nih.gov/caNanoLab/characterization.do?dispatch=summaryView&sampleId=36601873&page=0&tab=ALL

      https://cananolab.nci.nih.gov/caNanoLab/characterization.do?dispatch=summaryView&sampleId=36601874&page=0&tab=ALL

      https://cananolab.nci.nih.gov/caNanoLab/characterization.do?dispatch=summaryView&sampleId=36601875&page=0&tab=ALL

      https://cananolab.nci.nih.gov/caNanoLab/characterization.do?dispatch=summaryView&sampleId=36601876&page=0&tab=ALL

      https://cananolab.nci.nih.gov/caNanoLab/characterization.do?dispatch=summaryView&sampleId=36601877&page=0&tab=ALL

      https://cananolab.nci.nih.gov/caNanoLab/characterization.do?dispatch=summaryView&sampleId=36601878&page=0&tab=ALL

      https://cananolab.nci.nih.gov/caNanoLab/characterization.do?dispatch=summaryView&sampleId=36601879&page=0&tab=ALL

      The left navigation links on these pages provide information about each sample (under Navigation Tree).

      For general information on how to use caNanoLab, please visit https://cananolab.nci.nih.gov/caNanoLab/home.jsp


      This comment, imported by Hypothesis from PubMed Commons, is licensed under CC BY.

  2. Feb 2018
    1. On 2014 Feb 27, George W Hinkal commented:

      The National Cancer Institute has been investing in the development of an online webportal of curated cancer nanotechnology data called caNanoLab. The numerical data, nanomaterial characterizations and composition information for the ten nanoparticles related to this publication have been added to the database and can be found at:

      https://cananolab.nci.nih.gov/caNanoLab/characterization.do?dispatch=summaryView&sampleId=36601870&page=0&tab=ALL

      https://cananolab.nci.nih.gov/caNanoLab/characterization.do?dispatch=summaryView&sampleId=36601871&page=0&tab=ALL

      https://cananolab.nci.nih.gov/caNanoLab/characterization.do?dispatch=summaryView&sampleId=36601872&page=0&tab=ALL

      https://cananolab.nci.nih.gov/caNanoLab/characterization.do?dispatch=summaryView&sampleId=36601873&page=0&tab=ALL

      https://cananolab.nci.nih.gov/caNanoLab/characterization.do?dispatch=summaryView&sampleId=36601874&page=0&tab=ALL

      https://cananolab.nci.nih.gov/caNanoLab/characterization.do?dispatch=summaryView&sampleId=36601875&page=0&tab=ALL

      https://cananolab.nci.nih.gov/caNanoLab/characterization.do?dispatch=summaryView&sampleId=36601876&page=0&tab=ALL

      https://cananolab.nci.nih.gov/caNanoLab/characterization.do?dispatch=summaryView&sampleId=36601877&page=0&tab=ALL

      https://cananolab.nci.nih.gov/caNanoLab/characterization.do?dispatch=summaryView&sampleId=36601878&page=0&tab=ALL

      https://cananolab.nci.nih.gov/caNanoLab/characterization.do?dispatch=summaryView&sampleId=36601879&page=0&tab=ALL

      The left navigation links on these pages provide information about each sample (under Navigation Tree).

      For general information on how to use caNanoLab, please visit https://cananolab.nci.nih.gov/caNanoLab/home.jsp


      This comment, imported by Hypothesis from PubMed Commons, is licensed under CC BY.

    2. On 2014 Mar 12, George W Hinkal commented:

      None


      This comment, imported by Hypothesis from PubMed Commons, is licensed under CC BY.

    3. On 2014 Mar 12, Allison Stelling commented:

      While SERS gives an advantage in depth penetration, I would be more comfortable with not using any labels in medical diagnostics. Raman spectroscopy can be done without needing any nanoparticles. For a newer study that uses Raman and florescence to do non-invasive, non-destructive tumor border margin assessment on-line during surgeries, see Kong K, 2013.

      As to the depth penetration, spatially offset Raman studies are being done that address this question. Labels and dyes may always have a place at the diagnostic table- however, I think they should be a last resort after less expensive and invasive tests; for a review see: Matousek P, 2013.


      This comment, imported by Hypothesis from PubMed Commons, is licensed under CC BY.