Abstract
Timely diagnosis of COVID-19 infected individuals and their prompt isolation are essential for controlling the transmission of SARS-CoV-2. Though quantitative reverse transcriptase PCR (qRT-PCR) is the method of choice for COVID-19 diagnostics, the resource-intensive and time-consuming nature of the technique impairs its wide applicability in resource-constrained settings and calls for novel strategies to meet the ever-growing demand for more testing. In this context, a pooled sample testing strategy was evaluated in the setting of emerging disease outbreak in 3 central Indian districts to assess if the cost of the test and turn-around time could be reduced without compromising its diagnostic characteristics and thus lead to early containment of the outbreak. From 545 nasopharyngeal and oropharyngeal samples received from the three emerging districts, a total of 109 pools were created with 5 consecutive samples in each pool. The diagnostic performance of qRT-PCR on pooled sample was compared with that of individual samples in a blinded manner. While pooling reduced the cost of diagnosis by 68% and the laboratory processing time by 66%, 5 of the 109 pools showed discordant results when compared with induvial samples. Four pools which tested negative contained 1 positive sample and 1 pool which was positive did not show any positive sample on deconvolution. Presence of a single infected sample with Ct value of 34 or higher, in a pool of 5, was likely to be missed in pooled sample analysis. At the reported point prevalence of 4.8% in this study, the negative predictive value of qRT-PCR on pooled samples was around 96% suggesting that the adoption of this strategy as an effective screening tool for COVID-19 needs to be carefully evaluated.
Highlights
The transmission of COVID-19 is difficult to contain owing to the dual factors of high transmissibility of SARS-CoV-2 (R0 = 2.1–3.3) and asymptomatic/ mildly symptomatic individuals serving as sources of infection [1,2,3,4]
In this study we report that the pooled sample analysis strategy, if applied in the scenario of an emerging outbreak of COVID-19, offers a significant reduction of laboratory turn-around time and reagent requirement at the cost of compromised diagnostic sensitivity
Since PCR-positivity is a function of the net viral load in the pooled sample, we understand that the success of the pooling strategy as a sensitive screening tool would be dependent on the number of infected patients in the pool and the viral load in the individual samples
Summary
Extensive testing of suspected cases and asymptomatic direct and high-risk contacts is, recommended as key to controlling the ongoing pandemic [5]. From the second week of April 2020, cases started being reported from district Dhar (A1), which borders District A, and from districts Raisen (B1) and Hoshangabad (B2), both of which are adjacent to District B (Fig 1). This prompted massive contact tracing in each of these 3 districts in an effort to contain the spread of infection
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