ABSTRACT
BackgroundAntigen lateral flow devices (LFDs) have been widely used to control SARS-CoV-2. Changes in LFD sensitivity and detection of infectious individuals during the pandemic with successive variants, vaccination, and changes in LFD use are incompletely understood. MethodsPaired LFD and PCR tests were collected from asymptomatic and symptomatic participants, across multiple settings in the UK between 04-November-2020 and 21-March-2022. Multivariable logistic regression was used to analyse LFD sensitivity and specificity, adjusting for viral load, LFD manufacturer, setting, age, sex, assistance, symptoms, vaccination, and variant. National contact tracing data were used to estimate the proportion of transmitting index cases (with [≥]1 PCR/LFD-positive contact) potentially detectable by LFDs over time, accounting for viral load, variant, and symptom status. Findings4131/75,382 (5.5%) participants were PCR-positive. Sensitivity vs. PCR was 63.2% (95%CI 61.7-64.6%) and specificity 99.71% (99.66-99.74%). Increased viral load was independently associated with being LFD-positive. There was no evidence LFD sensitivity differed between Delta vs. Alpha/pre-Alpha infections, but Omicron infections were more likely to be LFD positive. Sensitivity was higher in symptomatic participants, 68.7% (66.9-70.4%) than in asymptomatic participants, 52.8% (50.1-55.4%). 79.4% (68.6-81.3%) of index cases resulting in probable onward transmission with were estimated to have been detectable using LFDs, this proportion was relatively stable over time/variants, but lower in asymptomatic vs. symptomatic cases. InterpretationLFDs remained able to detect most SARS-CoV-2 infections throughout vaccine roll-out and different variants. LFDs can potentially detect most infections that transmit to others and reduce risks. However, performance is lower in asymptomatic compared to symptomatic individuals. FundingUK Government. Research in contextO_ST_ABSEvidence before this studyC_ST_ABSLateral flow devices (LFDs; i.e. rapid antigen detection devices) have been widely used for SARS-CoV-2 testing. However, due to their imperfect sensitivity when compared to PCR and a lack of a widely available gold standard proxy for infectiousness, the performance and use of LFDs has been a source of debate. We conducted a literature review in PubMed and bioRxiv/medRxiv for all studies examining the performance of lateral flow devices between 01 January 2020 and 31 October 2022. We used the search terms SARS-CoV-2/COVID-19 and antigen/lateral flow test/lateral flow device. Multiple studies have examined the sensitivity and specificity of LFDs, including several systematic reviews. However, the majority of the studies are based on pre-Alpha infections. Large studies examining the test accuracy for different variants, including Delta and Omicron, and following vaccination are limited. Added value of this studyIn this large national LFD evaluation programme, we compared the performance of three different LFDs relative to PCR in various settings. Compared to PCR testing, sensitivity was 63.2% (95%CI 61.7-64.6%) overall, and 71.6% (95%CI 69.8-73.4%) in unselected communitybased testing. Specificity was 99.71% (99.66-99.74%). LFDs were more likely to be positive as viral loads increased. LFD sensitivity was similar during Alpha/pre-Alpha and Delta periods but increased during the Omicron period. There was no association between sensitivity and vaccination status. Sensitivity was higher in symptomatic participants, 68.7% (66.9-70.4%) than in asymptomatic participants, 52.8% (50.1-55.4%). Using national contact tracing data, we estimated that 79.4% (68.6-81.3%) of index cases resulting in probable onward transmission (i.e. with [≥]1 PCR/LFD-positive contact) were detectable using LFDs. Symptomatic index cases were more likely to be detected than asymptomatic index cases due to higher viral loads and better LFD performance at a given viral load. The proportion of index cases detected remained relatively stable over time and with successive variants, with a slight increase in the proportion of asymptomatic index cases detected during Omicron. Implications of all the available evidenceOur data show that LFDs detect most SARS-CoV-2 infections, with findings broadly similar to those summarised in previous meta-analyses. We show that LFD performance has been relatively consistent throughout different variant-dominant phases of the pandemic and following the roll-out of vaccination. LFDs can detect most infections that transmit to others and can therefore be used as part of a risk reduction strategy. However, performance is lower in asymptomatic compared to symptomatic individuals and this needs to be considered when designing testing programmes.
