abstract

• The performance of real-time reverse transcription polymerase chain reaction (rRT-PCR) for SARS-CoV-2 varies with sampling site(s), illness stage, and infection site.Unilateral nasopharyngeal, nasal midturbinate, throat swabs, and saliva were simultaneously sampled for SARS-CoV-2 rRT-PCR from suspected or confirmed cases of COVID-19. True positives were defined as patients with at least 1 SARS-CoV-2 detected by rRT-PCR from any site on the evaluation day or at any time point thereafter, until discharge. Diagnostic performance was assessed and extrapolated for site combinations.We evaluated 105 patients; 73 had active SARS-CoV-2 infection. Overall, nasopharyngeal specimens had the highest clinical sensitivity at 85%, followed by throat, 80%, midturbinate, 62%, and saliva, 38%-52%. Clinical sensitivity for nasopharyngeal, throat, midturbinate, and saliva was 95%, 88%, 72%, and 44%-56%, respectively, if taken ≤7 days from onset of illness, and 70%, 67%, 47%, 28%-44% if >7 days of illness. Comparing patients with upper respiratory tract infection (URTI) vs pneumonia, clinical sensitivity for nasopharyngeal, throat, midturbinate, and saliva was 92% vs 70%, 88% vs 61%, 70% vs 44%, 43%-54% vs 26%-45%, respectively. A combination of nasopharyngeal plus throat or midturbinate plus throat specimen afforded overall clinical sensitivities of 89%-92%; this rose to 96% for persons with URTI and 98% for persons ≤7 days from illness onset.Nasopharyngeal specimens, followed by throat specimens, offer the highest clinical sensitivity for COVID-19 diagnosis in early illness. Clinical sensitivity improves and is similar when either midturbinate or nasopharyngeal specimens are combined with throat specimens. Upper respiratory specimens perform poorly if taken after the first week of illness or if there is pneumonia.© The Author(s) 2020. Published by Oxford University Press on behalf of Infectious Diseases Society of America.

authors

• Abdad, Mohammad Yazid
• Barkham, Timothy
• Cook, Margaret
• Cui, Jian
• Hakim, Shawn
• Lee, Pei Hua
• Leo, Yee-Sin
• Lin, Raymond T P
• Marimuthu, Kalisvar
• Mendis, Shehara M
• National Centre for Infectious Diseases COVID-19 Outbreak Research Team
• Ng, Oon T
• Rode, Marty
• Saha, Monica
• Sutjipto, Stephanie
• Tay, Jun Yang

collaborators

• Collaboration for Ang, Brenda Sze Peng 
• Collaboration for Chan, Yu Kit 
• Collaboration for Chen, Constance Yuan Yi 
• Collaboration for Chia, Jonathan W Z 
• Collaboration for Chia, Po Ying 
• Collaboration for Choy, Chiaw Yee 
• Collaboration for Dimatatac, Frederico 
• Collaboration for En Tan, Glorijoy Shi 
• Collaboration for Go, Chi Jong 
• Collaboration for Lee, Cheng Chuan 
• Collaboration for Lee, Lawrence 
• Collaboration for Lee, Tau Hong 
• Collaboration for Lim, Poh Lian 
• Collaboration for Lin, Ray 
• Collaboration for Ling Ng, Deborah Hee 
• Collaboration for Ling, Li Min 
• Collaboration for Lye, David Chien 
• Collaboration for Ong, Sean Wei Xiang 
• Collaboration for Rao, Pooja 
• Collaboration for Sadarangani, Sapna 
• Collaboration for Sadasiv, Mucheli 
• Collaboration for Santos, Isais Florante 
• Collaboration for Toh, Boon Kiat 
• Collaboration for Wen, Yeo Tsin 
• Collaboration for Wong, Chen Seong 
• Collaboration for Young, Barnaby Edward 

publication date

• September 2020

published in

• Open forum infectious diseases  Journal

Digital Object Identifier (DOI)

• https://doi.org/10.1093/ofid/ofaa335

PubMed ID

• 32964061

start page

end page

volume

• 7

number

• 9