Skip to content

MITOchondrial DYNamics variation portal

The ACO2 gene homepage – Variation OPA1 mutation database

Menu
  • Home
  • Polyclonal
  • Isotype
  • Medium
  • Distributors
  • Serum
  • Vector
  • antigen
  • Assay
  • Contact Us
Menu

Tag: enzymedica repair gold

mitolab

Evaluation of rapid SARS-CoV-2 antigen tests, AFIAS COVID-19 Ag and ichroma COVID-19 Ag

Posted on May 24, 2021May 4, 2021 by Jordan

Analysis of fast SARS-CoV-2 antigen checks, AFIAS COVID-19 Ag and ichroma COVID-19 Ag, with serial nasopharyngeal specimens from COVID-19 sufferers We evaluated the diagnostic accuracy of two newly developed, point-of-care, fast antigen checks (RATs) for detecting SARS-CoV-2, the AFIAS COVID-19 Ag and the ichromaTM COVID-19 Ag, and investigated antigen kinetics. A complete of 200 serially collected nasopharyngeal (NP) specimens… Continue reading

Recent Posts

  • Compare Pcr lab reagents for research
  • Compare Pcr lab reagents for research
  • recombinant Lab Reagents for Research
  • Comparison of seven commercial SARS-CoV-2 rapid point-of-care antigen tests
  • Performance characteristics of five antigen-detecting rapid diagnostic test

Recent Comments

    Categories

    • antigen
    • Assay
    • Enzyme
    • ethidium
    • Isotype
    • Medium
    • Polyclonal
    • Recombinant
    • rna
    • Uncategorized
    March 2023
    M T W T F S S
     12345
    6789101112
    13141516171819
    20212223242526
    2728293031  
    « Dec    

    Categories

    • antigen
    • Assay
    • Enzyme
    • ethidium
    • Isotype
    • Medium
    • Polyclonal
    • Recombinant
    • rna
    • Uncategorized

    Recent Posts

    • Compare Pcr lab reagents for research
    • Compare Pcr lab reagents for research
    • recombinant Lab Reagents for Research
    • Comparison of seven commercial SARS-CoV-2 rapid point-of-care antigen tests
    • Performance characteristics of five antigen-detecting rapid diagnostic test
    © 2023 MITOchondrial DYNamics variation portal | Powered by Superbs Personal Blog theme