Direct and Continuous Monitoring of Multicomponent Antibiotic Gentamicin in Blood at Single-Molecule Resolution.
Changjian ZhaoYu WangChen ChenYibo ZhuZhuang MiaoXingyu MouWeidan YuanZhihao ZhangKaiju LiMutian ChenWeibo LiangMing ZhangWenqian MiaoYuhan DongDong DengJianping WuBowen KeRui BaoJia GengPublished in: ACS nano (2024)
Point-of-care monitoring of small molecules in biofluids is crucial for clinical diagnosis and treatment. However, the inherent low degree of recognition of small molecules and the complex composition of biofluids present significant obstacles for current detection technologies. Although nanopore sensing excels in the analysis of small molecules, the direct detection of small molecules in complex biofluids remains a challenge. In this study, we present a method for sensing the small molecule drug gentamicin in whole blood based on the mechanosensitive channel of small conductance in Pseudomonas aeruginosa ( Pa MscS) nanopore. Pa MscS can directly detect gentamicin and distinguish its main components with only a monomethyl difference. The 'molecular sieve' structure of Pa MscS enables the direct measurement of gentamicin in human whole blood within 10 min. Furthermore, a continuous monitoring device constructed based on Pa MscS achieved continuous monitoring of gentamicin in live rats for approximately 2.5 h without blood consumption, while the drug components can be analyzed in situ. This approach enables rapid and convenient drug monitoring with single-molecule level resolution, which can significantly lower the threshold for drug concentration monitoring and promote more efficient drug use. Moreover, this work also lays the foundation for the future development of continuous monitoring technology with single-molecule level resolution in the living body.
Keyphrases
- single molecule
- atomic force microscopy
- living cells
- mesenchymal stem cells
- small molecule
- pseudomonas aeruginosa
- umbilical cord
- loop mediated isothermal amplification
- endothelial cells
- emergency department
- cystic fibrosis
- adverse drug
- drug resistant
- wastewater treatment
- escherichia coli
- bone marrow
- sensitive detection