基于色聚体的生物传感器是检测人类肠道微生物组的未来吗?

Biosensors Pub Date : 2024-09-02 DOI:10.3390/bios14090423
Maria João Moreira, Manuela Pintado, José M. M. M. De Almeida
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引用次数: 0

摘要

肠道微生物群在生命早期就受到饮食和生活方式因素的影响。肠道中的特定化合物会影响不同细菌种类的生长以及有益或有害副产品的产生。肠道微生物组的菌群失调与有害细菌及其副产品导致的各种疾病有关。现有的微生物物种检测方法,如显微镜观察和分子生物学技术,成本高、劳动密集型,并且需要熟练的人员。生物传感器集成了识别元件、传感器、放大器、信号处理器和显示单元,可将生物事件转化为电子信号。本综述对 2018 年至 2024 年 6 月的科学出版物进行了全面系统的调查,这些出版物来自 ScienceDirect、PubMed 和 Scopus 数据库。目的是评估当前的最新技术,并找出在应用适配体生物传感器测定肠道微生物群方面存在的知识空白。根据研究类型对符合条件的 13 篇出版物进行了分类:使用微生物生物受体(第 1 类)和使用适配体生物受体(第 2 类)测定肠道微生物群的出版物。目前正在开发用于监测可能导致疾病的代谢物变化的护理点生物传感器。它们非常适合在医疗保健系统中使用,是传统方法的绝佳替代品。适配体因其稳定性、特异性、可扩展性、可重复性、低生产成本和低免疫原性而备受关注。虽然使用适配体检测人类肠道微生物群的研究还很有限,但它们有望为监测肠道微生物群提供准确、可靠和经济高效的诊断方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Are Aptamer-Based Biosensors the Future of the Detection of the Human Gut Microbiome?—A Systematic Review and Meta-Analysis
The gut microbiome is shaped early in life by dietary and lifestyle factors. Specific compounds in the gut affect the growth of different bacterial species and the production of beneficial or harmful byproducts. Dysbiosis of the gut microbiome has been linked to various diseases resulting from the presence of harmful bacteria and their byproducts. Existing methods for detecting microbial species, such as microscopic observation and molecular biological techniques, are costly, labor-intensive, and require skilled personnel. Biosensors, which integrate a recognition element, transducer, amplifier, signal processor, and display unit, can convert biological events into electronic signals. This review provides a comprehensive and systematic survey of scientific publications from 2018 to June 2024, obtained from ScienceDirect, PubMed, and Scopus databases. The aim was to evaluate the current state-of-the-art and identify knowledge gaps in the application of aptamer biosensors for the determination of gut microbiota. A total of 13 eligible publications were categorized based on the type of study: those using microbial bioreceptors (category 1) and those using aptamer bioreceptors (category 2) for the determination of gut microbiota. Point-of-care biosensors are being developed to monitor changes in metabolites that may lead to disease. They are well-suited for use in the healthcare system and offer an excellent alternative to traditional methods. Aptamers are gaining attention due to their stability, specificity, scalability, reproducibility, low production cost, and low immunogenicity. While there is limited research on using aptamers to detect human gut microbiota, they show promise for providing accurate, robust, and cost-effective diagnostic methods for monitoring the gut microbiome.
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