Testy na SARS-CoV-2 (Polish Wikipedia)

Analysis of information sources in references of the Wikipedia article "Testy na SARS-CoV-2" in Polish language version.

refsWebsite

Global rank Polish rank

16nih.gov

4^th place

7^th place

16doi.org

2^nd place

6^th place

15worldcat.org

5^th place

2^nd place

3fda.gov

447^th place

1,118^th place

2cdc.gov

218^th place

561^st place

1centerforhealthsecurity.org

low place

1umn.edu

1,266^th place

1,455^th place

1nordiclifescience.org

low place

1researchgate.net

120^th place

180^th place

1bbc.com

20^th place

48^th place

1time.com

61^st place

183^rd place

1iaea.org

1,168^th place

733^rd place

1globenewswire.com

2,614^th place

8,128^th place

1technologynetworks.com

low place

1statnews.com

8,771^st place

low place

1nytimes.com

7^th place

29^th place

1web.archive.org

1^st place

1scientificamerican.com

896^th place

686^th place

1popsci.com

2,941^st place

5,712^th place

bbc.com

MarthaM. Henriques MarthaM., Coronavirus: Why death and mortality rates differ [online], BBC [dostęp 2021-05-17] (ang.).

cdc.gov

COVID-19 Testing Overview [online], Centers for Disease Control and Prevention, 11 lutego 2020 [dostęp 2021-05-17] (ang.).
Test for Past Infection [online], Centers for Disease Control and Prevention, 11 lutego 2020 [dostęp 2021-05-17] (ang.).

centerforhealthsecurity.org

Serology tests for COVID-19 [online], COVID-19 Testing Toolkit [dostęp 2021-05-17] (ang.).

doi.org

dx.doi.org

RobertR. Kubina RobertR., ArkadiuszA. Dziedzic ArkadiuszA., Molecular and Serological Tests for COVID-19 a Comparative Review of SARS-CoV-2 Coronavirus Laboratory and Point-of-Care Diagnostics, „Diagnostics (Basel, Switzerland)”, 10 (6), 2020, DOI: 10.3390/diagnostics10060434, PMID: 32604919, PMCID: PMC7345211 [dostęp 2021-05-18] (ang.).
JenniferJ. Abbasi JenniferJ., The Promise and Peril of Antibody Testing for COVID-19, „Journal of the American Medical Association”, 323 (19), 2020, s. 1881–1883, DOI: 10.1001/jama.2020.6170, ISSN 1538-3598, PMID: 32301958 [dostęp 2021-05-17] (ang.).
Michael J.M.J. Mina Michael J.M.J., RoyR. Parker RoyR., Daniel B.D.B. Larremore Daniel B.D.B., Rethinking Covid-19 Test Sensitivity - A Strategy for Containment, „The New England Journal of Medicine”, 383 (22), 2020, e120, DOI: 10.1056/NEJMp2025631, ISSN 1533-4406, PMID: 32997903 [dostęp 2021-05-17] (ang.).
ParhamP. Habibzadeh ParhamP. i inni, Molecular diagnostic assays for COVID-19: an overview, „Critical Reviews in Clinical Laboratory Sciences”, 2021, s. 1–20, DOI: 10.1080/10408363.2021.1884640, ISSN 1549-781X, PMID: 33595397, PMCID: PMC7898297 [dostęp 2021-05-17] (ang.).
Xiao-pingX. Kang Xiao-pingX. i inni, A duplex real-time RT-PCR assay for detecting H5N1 avian influenza virus and pandemic H1N1 influenza virus, „Virology Journal”, 7, 2010, s. 113, DOI: 10.1186/1743-422X-7-113, ISSN 1743-422X, PMID: 20515509, PMCID: PMC2892456 [dostęp 2021-05-17] (ang.).
CarolineC. Joyce CarolineC., Quantitative RT-PCR. A review of current methodologies, „Methods in Molecular Biology (Clifton, N.J.)”, 193, 2002, s. 83–92, DOI: 10.1385/1-59259-283-X:083, ISSN 1064-3745, PMID: 12325527 [dostęp 2021-05-17] .
ErikaE. Varkonyi-Gasic ErikaE., Roger P.R.P. Hellens Roger P.R.P., qRT-PCR of Small RNAs, „Methods in Molecular Biology”, 631, 2010, s. 109–122, DOI: 10.1007/978-1-60761-646-7_10, ISSN 1940-6029, PMID: 20204872 [dostęp 2021-05-17] (ang.).
SeanS. Taylor SeanS. i inni, A practical approach to RT-qPCR-Publishing data that conform to the MIQE guidelines, „Methods (San Diego, Calif.)”, 50 (4), 2010, S1–5, DOI: 10.1016/j.ymeth.2010.01.005, ISSN 1095-9130, PMID: 20215014 [dostęp 2021-05-17] (ang.).
GiorgiaG. Guglielmi GiorgiaG., Fast coronavirus tests: what they can and can't do, „Nature”, 585 (7826), 2020, s. 496–498, DOI: 10.1038/d41586-020-02661-2, ISSN 1476-4687, PMID: 32939084 [dostęp 2021-05-17] (ang.).
GeorgG. Bauer GeorgG., The variability of the serological response to SARS corona virus‐2: Potential resolution of ambiguity through determination of avidity (functional affinity), „Journal of Medical Virology”, 2020, DOI: 10.1002/jmv.26262, ISSN 0146-6615, PMID: 32633840, PMCID: PMC7361859 [dostęp 2021-05-17] (ang.).
NeerajaN. Ravi NeerajaN. i inni, Diagnostics for SARS-CoV-2 detection: A comprehensive review of the FDA-EUA COVID-19 testing landscape, „Biosensors & Bioelectronics”, 165, 2020, s. 112454, DOI: 10.1016/j.bios.2020.112454, ISSN 1873-4235, PMID: 32729549, PMCID: PMC7368663 [dostęp 2021-05-17] (ang.).
Ekaterini S.E.S. Goudouris Ekaterini S.E.S., Laboratory diagnosis of COVID-19, „Jornal De Pediatria”, 97 (1), 2021, s. 7–12, DOI: 10.1016/j.jped.2020.08.001, ISSN 1678-4782, PMID: 32882235, PMCID: PMC7456621 [dostęp 2021-05-17] (ang.).
Jonathan J.J.J. Deeks Jonathan J.J.J. i inni, Antibody tests for identification of current and past infection with SARS-CoV-2, „The Cochrane Database of Systematic Reviews”, 6, 2020, CD013652, DOI: 10.1002/14651858.CD013652, ISSN 1469-493X, PMID: 32584464, PMCID: PMC7387103 [dostęp 2021-05-17] (ang.).
WenlingW. Wang WenlingW. i inni, Detection of SARS-CoV-2 in Different Types of Clinical Specimens, „Journal of the American Medical Association”, 323 (18), 2020, s. 1843–1844, DOI: 10.1001/jama.2020.3786, ISSN 1538-3598, PMID: 32159775, PMCID: PMC7066521 [dostęp 2021-05-17] (ang.).
Lauren M.L.M. Kucirka Lauren M.L.M. i inni, Variation in False-Negative Rate of Reverse Transcriptase Polymerase Chain Reaction-Based SARS-CoV-2 Tests by Time Since Exposure, „Annals of Internal Medicine”, 173 (4), 2020, s. 262–267, DOI: 10.7326/M20-1495, ISSN 1539-3704, PMID: 32422057, PMCID: PMC7240870 [dostęp 2021-05-17] (ang.).

doi.org

Ward, D. (April 2020) "Sampling Bias: Explaining Wide Variations in COVID-19 Case Fatality Rates". WardEnvironment. doi: 10.13140/RG.2.2.24953.62564/1

fda.gov

Labcorp’s COVID-19 RT-PCR Test EUA Summary [online], 11 maja 2021 [dostęp 2021-05-17] .
Food and Drug Administration (FDA), qSARS-CoV-2 IgG/IgM Rapid Test, Cellex Inc. Authorisation [online], 12 czerwca 2020 [dostęp 2021-05-17] .
Food and Drug Administration (FDA), COVID-19 ELISA IgG Antibody Test, Mount Sinai Laboratory, Authorisation [online], 15 kwietnia 2020 [dostęp 2021-05-17] .

globenewswire.com

Curetis, Curetis Group Company Ares Genetics and BGI Group Collaborate to Offer Next-Generation Sequencing and PCR-based Coronavirus (2019-nCoV) Testing in Europe [online], GlobeNewswire News Room, 30 stycznia 2020 [dostęp 2021-05-17] (ang.).

iaea.org

How is the COVID-19 Virus Detected using Real Time RT-PCR? [online], www.iaea.org, 27 marca 2020 [dostęp 2021-05-17] (ang.).

nih.gov

ncbi.nlm.nih.gov

RobertR. Kubina RobertR., ArkadiuszA. Dziedzic ArkadiuszA., Molecular and Serological Tests for COVID-19 a Comparative Review of SARS-CoV-2 Coronavirus Laboratory and Point-of-Care Diagnostics, „Diagnostics (Basel, Switzerland)”, 10 (6), 2020, DOI: 10.3390/diagnostics10060434, PMID: 32604919, PMCID: PMC7345211 [dostęp 2021-05-18] (ang.).
JenniferJ. Abbasi JenniferJ., The Promise and Peril of Antibody Testing for COVID-19, „Journal of the American Medical Association”, 323 (19), 2020, s. 1881–1883, DOI: 10.1001/jama.2020.6170, ISSN 1538-3598, PMID: 32301958 [dostęp 2021-05-17] (ang.).
Michael J.M.J. Mina Michael J.M.J., RoyR. Parker RoyR., Daniel B.D.B. Larremore Daniel B.D.B., Rethinking Covid-19 Test Sensitivity - A Strategy for Containment, „The New England Journal of Medicine”, 383 (22), 2020, e120, DOI: 10.1056/NEJMp2025631, ISSN 1533-4406, PMID: 32997903 [dostęp 2021-05-17] (ang.).
ParhamP. Habibzadeh ParhamP. i inni, Molecular diagnostic assays for COVID-19: an overview, „Critical Reviews in Clinical Laboratory Sciences”, 2021, s. 1–20, DOI: 10.1080/10408363.2021.1884640, ISSN 1549-781X, PMID: 33595397, PMCID: PMC7898297 [dostęp 2021-05-17] (ang.).
Xiao-pingX. Kang Xiao-pingX. i inni, A duplex real-time RT-PCR assay for detecting H5N1 avian influenza virus and pandemic H1N1 influenza virus, „Virology Journal”, 7, 2010, s. 113, DOI: 10.1186/1743-422X-7-113, ISSN 1743-422X, PMID: 20515509, PMCID: PMC2892456 [dostęp 2021-05-17] (ang.).
CarolineC. Joyce CarolineC., Quantitative RT-PCR. A review of current methodologies, „Methods in Molecular Biology (Clifton, N.J.)”, 193, 2002, s. 83–92, DOI: 10.1385/1-59259-283-X:083, ISSN 1064-3745, PMID: 12325527 [dostęp 2021-05-17] .
ErikaE. Varkonyi-Gasic ErikaE., Roger P.R.P. Hellens Roger P.R.P., qRT-PCR of Small RNAs, „Methods in Molecular Biology”, 631, 2010, s. 109–122, DOI: 10.1007/978-1-60761-646-7_10, ISSN 1940-6029, PMID: 20204872 [dostęp 2021-05-17] (ang.).
SeanS. Taylor SeanS. i inni, A practical approach to RT-qPCR-Publishing data that conform to the MIQE guidelines, „Methods (San Diego, Calif.)”, 50 (4), 2010, S1–5, DOI: 10.1016/j.ymeth.2010.01.005, ISSN 1095-9130, PMID: 20215014 [dostęp 2021-05-17] (ang.).
GiorgiaG. Guglielmi GiorgiaG., Fast coronavirus tests: what they can and can't do, „Nature”, 585 (7826), 2020, s. 496–498, DOI: 10.1038/d41586-020-02661-2, ISSN 1476-4687, PMID: 32939084 [dostęp 2021-05-17] (ang.).
Eric W.E.W. Tang Eric W.E.W., April M.A.M. Bobenchik April M.A.M., ShaoleiS. Lu ShaoleiS., Testing for SARS-CoV-2 (COVID-19): A General Review, „Rhode Island Medical Journal”, 103 (8), 2020, s. 20–23, ISSN 2327-2228, PMID: 32900007 [dostęp 2021-05-17] (ang.).
GeorgG. Bauer GeorgG., The variability of the serological response to SARS corona virus‐2: Potential resolution of ambiguity through determination of avidity (functional affinity), „Journal of Medical Virology”, 2020, DOI: 10.1002/jmv.26262, ISSN 0146-6615, PMID: 32633840, PMCID: PMC7361859 [dostęp 2021-05-17] (ang.).
NeerajaN. Ravi NeerajaN. i inni, Diagnostics for SARS-CoV-2 detection: A comprehensive review of the FDA-EUA COVID-19 testing landscape, „Biosensors & Bioelectronics”, 165, 2020, s. 112454, DOI: 10.1016/j.bios.2020.112454, ISSN 1873-4235, PMID: 32729549, PMCID: PMC7368663 [dostęp 2021-05-17] (ang.).
Ekaterini S.E.S. Goudouris Ekaterini S.E.S., Laboratory diagnosis of COVID-19, „Jornal De Pediatria”, 97 (1), 2021, s. 7–12, DOI: 10.1016/j.jped.2020.08.001, ISSN 1678-4782, PMID: 32882235, PMCID: PMC7456621 [dostęp 2021-05-17] (ang.).
Jonathan J.J.J. Deeks Jonathan J.J.J. i inni, Antibody tests for identification of current and past infection with SARS-CoV-2, „The Cochrane Database of Systematic Reviews”, 6, 2020, CD013652, DOI: 10.1002/14651858.CD013652, ISSN 1469-493X, PMID: 32584464, PMCID: PMC7387103 [dostęp 2021-05-17] (ang.).
WenlingW. Wang WenlingW. i inni, Detection of SARS-CoV-2 in Different Types of Clinical Specimens, „Journal of the American Medical Association”, 323 (18), 2020, s. 1843–1844, DOI: 10.1001/jama.2020.3786, ISSN 1538-3598, PMID: 32159775, PMCID: PMC7066521 [dostęp 2021-05-17] (ang.).
Lauren M.L.M. Kucirka Lauren M.L.M. i inni, Variation in False-Negative Rate of Reverse Transcriptase Polymerase Chain Reaction-Based SARS-CoV-2 Tests by Time Since Exposure, „Annals of Internal Medicine”, 173 (4), 2020, s. 262–267, DOI: 10.7326/M20-1495, ISSN 1539-3704, PMID: 32422057, PMCID: PMC7240870 [dostęp 2021-05-17] (ang.).

nordiclifescience.org

COVID-19: First results of the voluntary screening in Iceland [online], Nordic Life Science – the leading Nordic life science news service, 22 marca 2020 [dostęp 2021-05-17] (ang.).

nytimes.com

ApoorvaA. Mandavilli ApoorvaA., KatieK. Thomas KatieK., Will an Antibody Test Allow Us to Go Back to School or Work?, „The New York Times”, 10 kwietnia 2020 [dostęp 2021-05-17] (ang.).

popsci.com

COVID-19 tests are far from perfect, but accuracy isn’t the biggest problem [online], Popular Science, 7 maja 2020 [dostęp 2021-05-17] (ang.).

researchgate.net

Ward, D. (April 2020) "Sampling Bias: Explaining Wide Variations in COVID-19 Case Fatality Rates". WardEnvironment. doi: 10.13140/RG.2.2.24953.62564/1

scientificamerican.com

StaceyS. McKenna StaceyS., What Immunity to COVID-19 Really Means [online], Scientific American [dostęp 2021-05-17] [zarchiwizowane z adresu 2020-04-28] (ang.).

statnews.com

The next frontier in coronavirus testing: Identifying the outbreak's full scope [online], STAT, 27 marca 2020 [dostęp 2021-05-17] (ang.).

technologynetworks.com

Developing Antibodies and Antigens for COVID-19 Diagnostics [online], Diagnostics from Technology Networks [dostęp 2021-05-17] (ang.).

time.com

Why More Younger People Are Testing Positive for COVID-19 [online], Time [dostęp 2021-05-17] .

umn.edu

cidrap.umn.edu

Mary VanM.V. Beusekom Mary VanM.V., Italian doctors note high COVID-19 death rate, urge action [online], CIDRAP [dostęp 2021-05-17] (ang.).

web.archive.org

StaceyS. McKenna StaceyS., What Immunity to COVID-19 Really Means [online], Scientific American [dostęp 2021-05-17] [zarchiwizowane z adresu 2020-04-28] (ang.).

worldcat.org

JenniferJ. Abbasi JenniferJ., The Promise and Peril of Antibody Testing for COVID-19, „Journal of the American Medical Association”, 323 (19), 2020, s. 1881–1883, DOI: 10.1001/jama.2020.6170, ISSN 1538-3598, PMID: 32301958 [dostęp 2021-05-17] (ang.).
Michael J.M.J. Mina Michael J.M.J., RoyR. Parker RoyR., Daniel B.D.B. Larremore Daniel B.D.B., Rethinking Covid-19 Test Sensitivity - A Strategy for Containment, „The New England Journal of Medicine”, 383 (22), 2020, e120, DOI: 10.1056/NEJMp2025631, ISSN 1533-4406, PMID: 32997903 [dostęp 2021-05-17] (ang.).
ParhamP. Habibzadeh ParhamP. i inni, Molecular diagnostic assays for COVID-19: an overview, „Critical Reviews in Clinical Laboratory Sciences”, 2021, s. 1–20, DOI: 10.1080/10408363.2021.1884640, ISSN 1549-781X, PMID: 33595397, PMCID: PMC7898297 [dostęp 2021-05-17] (ang.).
Xiao-pingX. Kang Xiao-pingX. i inni, A duplex real-time RT-PCR assay for detecting H5N1 avian influenza virus and pandemic H1N1 influenza virus, „Virology Journal”, 7, 2010, s. 113, DOI: 10.1186/1743-422X-7-113, ISSN 1743-422X, PMID: 20515509, PMCID: PMC2892456 [dostęp 2021-05-17] (ang.).
CarolineC. Joyce CarolineC., Quantitative RT-PCR. A review of current methodologies, „Methods in Molecular Biology (Clifton, N.J.)”, 193, 2002, s. 83–92, DOI: 10.1385/1-59259-283-X:083, ISSN 1064-3745, PMID: 12325527 [dostęp 2021-05-17] .
ErikaE. Varkonyi-Gasic ErikaE., Roger P.R.P. Hellens Roger P.R.P., qRT-PCR of Small RNAs, „Methods in Molecular Biology”, 631, 2010, s. 109–122, DOI: 10.1007/978-1-60761-646-7_10, ISSN 1940-6029, PMID: 20204872 [dostęp 2021-05-17] (ang.).
SeanS. Taylor SeanS. i inni, A practical approach to RT-qPCR-Publishing data that conform to the MIQE guidelines, „Methods (San Diego, Calif.)”, 50 (4), 2010, S1–5, DOI: 10.1016/j.ymeth.2010.01.005, ISSN 1095-9130, PMID: 20215014 [dostęp 2021-05-17] (ang.).
GiorgiaG. Guglielmi GiorgiaG., Fast coronavirus tests: what they can and can't do, „Nature”, 585 (7826), 2020, s. 496–498, DOI: 10.1038/d41586-020-02661-2, ISSN 1476-4687, PMID: 32939084 [dostęp 2021-05-17] (ang.).
Eric W.E.W. Tang Eric W.E.W., April M.A.M. Bobenchik April M.A.M., ShaoleiS. Lu ShaoleiS., Testing for SARS-CoV-2 (COVID-19): A General Review, „Rhode Island Medical Journal”, 103 (8), 2020, s. 20–23, ISSN 2327-2228, PMID: 32900007 [dostęp 2021-05-17] (ang.).
GeorgG. Bauer GeorgG., The variability of the serological response to SARS corona virus‐2: Potential resolution of ambiguity through determination of avidity (functional affinity), „Journal of Medical Virology”, 2020, DOI: 10.1002/jmv.26262, ISSN 0146-6615, PMID: 32633840, PMCID: PMC7361859 [dostęp 2021-05-17] (ang.).
NeerajaN. Ravi NeerajaN. i inni, Diagnostics for SARS-CoV-2 detection: A comprehensive review of the FDA-EUA COVID-19 testing landscape, „Biosensors & Bioelectronics”, 165, 2020, s. 112454, DOI: 10.1016/j.bios.2020.112454, ISSN 1873-4235, PMID: 32729549, PMCID: PMC7368663 [dostęp 2021-05-17] (ang.).
Ekaterini S.E.S. Goudouris Ekaterini S.E.S., Laboratory diagnosis of COVID-19, „Jornal De Pediatria”, 97 (1), 2021, s. 7–12, DOI: 10.1016/j.jped.2020.08.001, ISSN 1678-4782, PMID: 32882235, PMCID: PMC7456621 [dostęp 2021-05-17] (ang.).
Jonathan J.J.J. Deeks Jonathan J.J.J. i inni, Antibody tests for identification of current and past infection with SARS-CoV-2, „The Cochrane Database of Systematic Reviews”, 6, 2020, CD013652, DOI: 10.1002/14651858.CD013652, ISSN 1469-493X, PMID: 32584464, PMCID: PMC7387103 [dostęp 2021-05-17] (ang.).
WenlingW. Wang WenlingW. i inni, Detection of SARS-CoV-2 in Different Types of Clinical Specimens, „Journal of the American Medical Association”, 323 (18), 2020, s. 1843–1844, DOI: 10.1001/jama.2020.3786, ISSN 1538-3598, PMID: 32159775, PMCID: PMC7066521 [dostęp 2021-05-17] (ang.).
Lauren M.L.M. Kucirka Lauren M.L.M. i inni, Variation in False-Negative Rate of Reverse Transcriptase Polymerase Chain Reaction-Based SARS-CoV-2 Tests by Time Since Exposure, „Annals of Internal Medicine”, 173 (4), 2020, s. 262–267, DOI: 10.7326/M20-1495, ISSN 1539-3704, PMID: 32422057, PMCID: PMC7240870 [dostęp 2021-05-17] (ang.).