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. 2023 Mar;35(12):e2211363.
doi: 10.1002/adma.202211363. Epub 2023 Feb 17.

Rapid Identification and Monitoring of Multiple Bacterial Infections Using Printed Nanoarrays

Zeying Zhang  1 Yali Sun  2 Yaqi Yang  1   3 Xu Yang  1   3 Huadong Wang  1   3 Yang Yun  1   3 Xiangyu Pan  1   3 Zewei Lian  1   3 Artem Kuzmin  2 Ekaterina Ponkratova  2 Julia Mikhailova  2 Zian Xie  3 Xiaoran Chen  3 Qi Pan  1 Bingda Chen  1 Hongfei Xie  1   3 Tingqing Wu  1   3 Sisi Chen  1   3 Jimei Chi  1   3 Fangyi Liu  4 Dmitry Zuev  2 Meng Su  1 Yanlin Song  1
Affiliations

Rapid Identification and Monitoring of Multiple Bacterial Infections Using Printed Nanoarrays

Zeying Zhang et al. Adv Mater. 2023 Mar.

Abstract

Fast and accurate detection of microbial cells in clinical samples is highly valuable but remains a challenge. Here, a simple, culture-free diagnostic system is developed for direct detection of pathogenic bacteria in water, urine, and serum samples using an optical colorimetric biosensor. It consists of printed nanoarrays chemically conjugated with specific antibodies that exhibits distinct color changes after capturing target pathogens. By utilizing the internal capillarity inside an evaporating droplet, target preconcentration is achieved within a few minutes to enable rapid identification and more efficient detection of bacterial pathogens. More importantly, the scattering signals of bacteria are significantly amplified by the nanoarrays due to strong near-field localization, which supports a visualizable analysis of the growth, reproduction, and cell activity of bacteria at the single-cell level. Finally, in addition to high selectivity, this nanoarray-based biosensor is also capable of accurate quantification and continuous monitoring of bacterial load on food over a broad linear range, with a detection limit of 10 CFU mL-1 . This work provides an accessible and user-friendly tool for point-of-care testing of pathogens in many clinical and environmental applications, and possibly enables a breakthrough in early prevention and treatment.

Keywords: bacterial diagnostics; biosensors; light scattering; nanoarrays; printing.

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