ABSTRACT
Coronavirus disease 2019 (COVID-19) due to severe acute respiratory syndrome coronavirus 2 is a global pandemic that has resulted in over 1.5 million confirmed cases and close to 100,000 deaths. In the majority of symptomatic cases COVID-19 results in a mild disease predominantly characterised by upper respiratory tract symptoms. Reverse transcription polymerase chain reaction (RT-PCR), using a nasopharyngeal sample, is the mainstay of diagnosis, but there is an ~30% false negative rate early in the disease and in patients with mild disease. RT-PCR positivity can persist for several days after a resolution of symptoms. IgM and IgG antibody responses become positive several days after the onset of symptoms, and robust antibody responses are detectable in the second week of illness. Antibody-based immunoassays have a limited role in the diagnosis of early symptomatic disease. However, their incremental benefit over RT-PCR in the first 2 weeks of illness is currently being clarified in ongoing studies. Such assays may be useful for surveillance purposes. However, their role in potentially selecting individuals that may benefit from vaccination, or as a biomarker identifying persons that could be redeployed into essential employment roles are being investigated. Rapid antibody-based immunoassays that detect viral antigen in nasopharyngeal samples are being developed and evaluated.

INTRODUCTION
Coronavirus disease 2019 (COVID-19) due to a novel virus, severe acute respiratory syndrome coronavirus 2(SARS-CoV-2), is now a global pandemic. There are more than 1.5 million confirmed cases across almost every country in the world and at the time of writing (early April 2020) there were close to 100,000 recorded deaths.(1) The diagnosis of COVID-19 can be challenging and like any disease entity, a number of factors, including disease stage, disease prevalence, patient profile and sample type and quality, amongst other factors, can influence diagnostic test performance. In this review, we outline the performance outcomes of key tests used to diagnose COVID-19 and considerations that modulate performance. Safety of health-care workers collecting the samples, laboratory safety aspects and experimental approaches such as detection of volatile organic compounds in exhaled breath, mass spectrometry studies of different sample types, methods of signal amplification, and utility of other novel approaches are not discussed here.

Read the full article published by the Wits Journal of Clinical Medicine