The coronavirus disease 2019 (COVID-19) pandemic has proved the importance of fast and widespread diagnostic testing to prevent serious epidemics timely. The first-line weapon against rapidly transmitted disease is a quick and massive screening test to isolate patients immediately, preventing dissemination. Here, we described magnetoplasmonic nanozymes (MagPlas NZs), i.e., hierarchically coassembled Fe3O4-Au superparticles, that are capable of integrating magnetic enrichment and catalytic amplification, thereby the assay can be streamlined amenable to high-throughput operation and achieve ultrahigh sensitivity. Combining this advantage with conventional enzyme-linked immunosorbent assay (ELISA), we propose a MagPlas ELISA for urine-based tuberculosis (TB) diagnosis and anti-TB therapy monitoring, which enables fast (<3 h), and highly sensitive (up to pM with naked-eyes, < 10 fM with plate reader) urinary TB antigen detection. A clinical study with a total of 297 urine samples showed robust sensitivity for pulmonary tuberculosis (85.0%) and extra-pulmonary tuberculosis (52.8%) patients with high specificity (96.7% and 96.9%). Furthermore, this methodology offers a great promise of noninvasive therapeutic response monitoring, which is impracticable in the gold-standard culture method. The MagPlas ELISA showed high sensitivity comparable to the PCR assay while retaining a simple and cheap ELISA concept, thus it could be a promising point-of-care test for TB epidemic control and possibly applied to other acute infections.
© 2021 The Authors. Published by American Chemical Society.