Simple, sensitive, specific self-sampling assay secures SARS-CoV-2 antibody signals in sero-prevalence and post-vaccine studies

Salem Elias,Rachael Quinlan,Eleanor Parker,Carolina Rosadas,Richard S Tedder,Peter Cherepanov,Chloë Roustan ,Charlotte-Eve Short ,Samreen Ijaz,Annachiara Rosa,Myra O Mcclure,Isaac D Weber ,Graham P Taylor,Federica Marchesin,Barnaby Flower,Maya Moshe,Eleanor Mcclure,Justin Shute,Paul Elliott,Maryam Khan,Graham Cooke ,Ksenia Katsanovskaja,He Gao

doi:10.1038/s41598-022-05640-x

Abstract

At-home sampling is key to large scale seroprevalence studies. Dried blood spot (DBS) self-sampling removes the need for medical personnel for specimen collection but facilitates specimen referral to an appropriately accredited laboratory for accurate sample analysis. To establish a highly sensitive and specific antibody assay that would facilitate self-sampling for prevalence and vaccine-response studies. Paired sera and DBS eluates collected from 439 sero-positive, 382 sero-negative individuals and DBS from 34 vaccine recipients were assayed by capture ELISAs for IgG and IgM antibody to SARS-CoV-2. IgG and IgM combined on DBS eluates achieved a diagnostic sensitivity of 97.9% (95%CI 96.6 to 99.3) and a specificity of 99.2% (95% CI 98.4 to 100) compared to serum, displaying limits of detection equivalent to 23 and 10 WHO IU/ml, respectively. A strong correlation (r = 0.81) was observed between serum and DBS reactivities. Reactivity remained stable with samples deliberately rendered inadequate, (p = 0.234) and when samples were accidentally damaged or ‘invalid’. All vaccine recipients were sero-positive. This assay provides a secure method for self-sampling by DBS with a sensitivity comparable to serum. The feasibility of DBS testing in sero-prevalence studies and in monitoring post-vaccine responses was confirmed, offering a robust and reliable tool for serological monitoring at a population level.

Highlights

At-home sampling is key to large scale seroprevalence studies
We demonstrate a very high sensitivity and specificity of a capture assay for detecting anti-SARS-CoV-2 by Dried blood spot (DBS) sampling from a large cohort of persons known to be seropositive following recovery from Covid-19 illness
Antibody negative matched serum and DBS samples from 382 individuals so determined by the anti-RBD double antigen binding assay (DABA) assay were used to determine the specificity of DBS testing on an S1 Ig capture assay

Summary

Introduction

At-home sampling is key to large scale seroprevalence studies. Dried blood spot (DBS) self-sampling removes the need for medical personnel for specimen collection but facilitates specimen referral to an appropriately accredited laboratory for accurate sample analysis. We describe the extensive use, characterisation and robustness of an immunoglobulin capture assay to detect antibody from DBS eluates and compare its sensitivity and specificity to the Imperial hybrid DABA using serum samples[13,14]. We demonstrate a very high sensitivity and specificity of a capture assay for detecting anti-SARS-CoV-2 by DBS sampling from a large cohort of persons known to be seropositive following recovery from Covid-19 illness. These data show clearly that there remains an important role for DBS sampling in conducting sero-prevalence studies in both the UK and e lsewhere[18], especially where venesection and transport of fluid blood samples is not delivered. We demonstrate DBS sampling coupled with Ig capture assays opens up the potential for monitoring vaccine responsiveness on a national scale

Methods

Results

Conclusion