International Journal of Infectious Diseases (Nov 2021)

SARS-CoV-2 rapid antigen testing in the healthcare sector: A clinical prediction model for identifying false negative results

  • Johannes Leiner, MD,
  • Vincent Pellissier, PhD,
  • Anne Nitsche, PhD,
  • Sebastian König, MD,
  • Sven Hohenstein, PhD,
  • Irit Nachtigall, MD,
  • Gerhard Hindricks, MD,
  • Christoph Kutschker, MD,
  • Boris Rolinski, MD,
  • Julian Gebauer, MD,
  • Anja Prantz, MD,
  • Joerg Schubert, MDPhD,
  • Joerg Patzschke, MD,
  • Andreas Bollmann, MDPhD,
  • Martin Wolz, MD

Journal volume & issue
Vol. 112
pp. 117 – 123

Abstract

Read online

Objectives: SARS-CoV-2 rapid antigen tests (RAT) provide fast identification of infectious patients when RT-PCR results are not immediately available. We aimed to develop a prediction model for identification of false negative (FN) RAT results. Methods: In this multicenter trial, patients with documented paired results of RAT and RT-PCR between October 1st 2020 and January 31st 2021 were retrospectively analyzed regarding clinical findings. Variables included demographics, laboratory values and specific symptoms. Three different models were evaluated using Bayesian logistic regression. Results: The initial dataset contained 4,076 patients. Overall sensitivity and specificity of RAT was 62.3% and 97.6%. 2,997 cases with negative RAT results (FN: 120; true negative: 2,877; reference: RT-PCR) underwent further evaluation after removal of cases with missing data. The best-performing model for predicting FN RAT results containing 10 variables yielded an area under the curve of 0.971. Sensitivity, specificity, PPV and NPV for 0.09 as cut-off value (probability for FN RAT) were 0.85, 0.99, 0.7 and 0.99. Conclusion: FN RAT results can be accurately identified through ten routinely available variables. Implementation of a prediction model in addition to RAT testing in clinical care can provide decision guidance for initiating appropriate hygiene measures and therefore helps avoiding nosocomial infections.

Keywords