| Literature DB >> 36161913 |
Shan Chen1,2, Yu-Wen Su1,3, Junjie Sun1, Tingting Chen4, Yuhao Zheng1, Lin-Jie Sui5, Shuangli Yang1, Chenbin Liu6, Pengcheng Wang1, Tengfei Li3, Qinghua Chi7, Hao Sun1, Jinghu Chen1, Bo-Qun Xu5,8, Zongxiong Huang9, Yimin Fang1.
Abstract
Rapid detection of pathogenic bacteria within a few minutes is the key to control infectious disease. However, rapid detection of pathogenic bacteria in clinical samples is quite a challenging task due to the complex matrix, as well as the low abundance of bacteria in real samples. Herein, we employ a label-free single-particle imaging approach to address this challenge. By tracking the scattering intensity variation of single particles in free solution, the morphological heterogeneity can be well identified with particle size smaller than the diffraction limit, facilitating the morphological identification of single bacteria from a complex matrix in a label-free manner. Furthermore, the manipulation of convection in free solution enables the rapid screening of low-abundance bacteria in a small field of view, which significantly improves the sensitivity of single-particle detection. As a proof of concept demonstration, we are able to differentiate the group B streptococci (GBS)-positive samples within 10 min from vaginal swabs without using any biological reagents. This is the most rapid and low-cost method to the best of our knowledge. We believe that such a single-particle imaging approach will find wider applications in clinical diagnosis and disease control due to its high sensitivity, rapidity, simplicity, and low cost.Entities:
Keywords: convection; dark field scattering microscopy; label-free; morphological identification; single bacteria detection
Mesh:
Year: 2022 PMID: 36161913 PMCID: PMC9546574 DOI: 10.1073/pnas.2206990119
Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN: 0027-8424 Impact factor: 12.779