PLoS ONE (Jan 2021)

The early detection of immunoglobulins via optical-based lateral flow immunoassay platform in COVID-19 pandemic.

  • Pang-Yen Chen,
  • Cheng-Hao Ko,
  • C Jason Wang,
  • Chien-Wei Chen,
  • Wei-Huai Chiu,
  • Chitsung Hong,
  • Hao-Min Cheng,
  • I-Jen Wang

DOI
https://doi.org/10.1371/journal.pone.0254486
Journal volume & issue
Vol. 16, no. 7
p. e0254486

Abstract

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The coronavirus disease (COVID-19) is the global public health challenge currently persisting at a grand scale. A method that meets the rapid quantitative detection of antibodies to assess the body's immune response from natural COVID-19 illness or vaccines' effects is urgently needed. In the present study, an attempt was made to integrate a newly designed spectrometer to the COVID-19 test strip procedure; this augmentation provides the quantitative capacity to a lateral flow immunoassay (LFIA). Optical interpretation of results by quantitative α index, rather than visual qualification, can be done quickly, in 5-10 minutes. The developed product was compared with several other serological IgM/IgG antibody reagents on the market by recruiting 111 participants suspected of having COVID-19 infection from March to May 2020 in a hospital. Taking RT-PCR as the diagnostic gold standard, the quantitative spectral LIFA platform could correctly detect all 12 COVID-19 patients. Concerning RT-PCR negative patients, all three antibody testing methods found positive cases. The optical-based platform exhibited the ability of early detection of immunoglobulins of RT-PCR negative patients. There was an apparent trend that elevation of IgM levels in the acute phase of infection; then IgG levels rose later. It exhibited the risk of a false-negative diagnosis of RT-PCR in COVID-19 testing. The significant detection ability of this new optical-based platform demonstrated clinical potential.