Phenotypic and genotypic perspectives on detection methods for bacterial antimicrobial resistance in a One Health context: research progress and prospects
Bingbing Yang, Xiaoqi Xin, Xiaoqing Cao, Lubanga Nasifu, Zhenlin Nie, Bangshun He
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引用次数: 0
Abstract
The widespread spread of bacterial antimicrobial resistance (AMR) and multidrug-resistant bacteria poses a significant threat to global public health. Traditional methods for detecting bacterial AMR are simple, reproducible, and intuitive, requiring long time incubation and high labor intensity. To quickly identify and detect bacterial AMR is urgent for clinical treatment to reduce mortality rate, and many new methods and technologies were required to be developed. This review summarizes the current phenotypic and genotypic detection methods for bacterial AMR. Phenotypic detection methods mainly include antimicrobial susceptibility tests, while genotypic detection methods have higher sensitivity and specificity and can detect known or even unknown drug resistance genes. However, most of the current tests are either genotypic or phenotypic and rarely combined. Combining the advantages of phenotypic and genotypic methods, combined with the joint application of multiple rapid detection methods may be the trend for future AMR testing. Driven by rapid diagnostic technology, big data analysis, and artificial intelligence, detection methods of bacterial AMR are expected to constantly develop and innovate. Adopting rational detection methods and scientific data analysis can better address the challenges of bacterial AMR and ensure human health and social well-being.
细菌抗药性(AMR)和耐多药细菌的广泛传播对全球公共卫生构成了重大威胁。传统的细菌 AMR 检测方法简单、可重复、直观,需要长时间培养,劳动强度大。快速识别和检测细菌 AMR 对临床治疗降低死亡率迫在眉睫,因此需要开发许多新方法和新技术。本综述总结了目前细菌 AMR 的表型和基因型检测方法。表型检测方法主要包括抗菌药物药敏试验,而基因型检测方法具有更高的灵敏度和特异性,可检测已知甚至未知的耐药基因。然而,目前大多数检测方法要么是基因型检测,要么是表型检测,很少将两者结合起来。结合表型和基因型方法的优势,联合应用多种快速检测方法可能是未来 AMR 检测的趋势。在快速诊断技术、大数据分析和人工智能的推动下,细菌 AMR 的检测方法有望不断发展和创新。采用合理的检测方法和科学的数据分析可以更好地应对细菌 AMR 的挑战,保障人类健康和社会福祉。
期刊介绍:
Research papers must make a significant and original contribution to
microbiology and be of interest to a broad readership. The results of any
experimental approach that meets these objectives are welcome, particularly
biochemical, molecular genetic, physiological, and/or physical investigations into
microbial cells and their interactions with their environments, including their eukaryotic hosts.
Mini-reviews in areas of special topical interest and papers on medical microbiology, ecology and systematics, including description of novel taxa, are also published.
Theoretical papers and those that report on the analysis or ''mining'' of data are
acceptable in principle if new information, interpretations, or hypotheses
emerge.