Gradisteanu Pircalabioru Gratiela, Raileanu Mina, Dionisie Mihai Viorel, Lixandru-Petre Irina-Oana, Iliescu Ciprian
eBio-hub Research Centre, National University of Science and Technology "Politehnica" Bucharest, Bucharest, Romania.
Division of Earth, Environmental and Life Sciences, The Research Institute of University of Bucharest (ICUB), Bucharest, Romania.
Expert Rev Mol Diagn. 2024 Mar;24(3):201-218. doi: 10.1080/14737159.2024.2316756. Epub 2024 Feb 13.
Gut microbes pose challenges like colon inflammation, deadly diarrhea, antimicrobial resistance dissemination, and chronic disease onset. Development of early, rapid and specific diagnosis tools is essential for improving infection control. Point-of-care testing (POCT) systems offer rapid, sensitive, low-cost and sample-to-answer methods for microbe detection from various clinical and environmental samples, bringing the advantages of portability, automation, and simple operation.
Rapid detection of gut microbes can be done using a wide array of techniques including biosensors, immunological assays, electrochemical impedance spectroscopy, mass spectrometry and molecular biology. Inclusion of Internet of Things, machine learning, and smartphone-based point-of-care applications is an important aspect of POCT. In this review, the authors discuss various fast diagnostic platforms for gut pathogens and their main challenges.
Developing effective assays for microbe detection can be complex. Assay design must consider factors like target selection, real-time and multiplex detection, sample type, reagent stability and storage, primer/probe design, and optimizing reaction conditions for accuracy and sensitivity. Mitigating these challenges requires interdisciplinary collaboration among scientists, clinicians, engineers, and industry partners. Future efforts are essential to enhance sensitivity, specificity, and versatility of POCT systems for gut microbe detection and quantification, advancing infectious disease diagnostics and management.
肠道微生物带来诸多挑战,如结肠炎症、致命性腹泻、抗菌药物耐药性传播以及慢性病发病。开发早期、快速且特异的诊断工具对于改善感染控制至关重要。即时检测(POCT)系统为从各种临床和环境样本中检测微生物提供了快速、灵敏、低成本且样本到结果的方法,具有便携、自动化和操作简单的优点。
肠道微生物的快速检测可采用多种技术,包括生物传感器、免疫测定、电化学阻抗谱、质谱和分子生物学。将物联网、机器学习和基于智能手机的即时检测应用纳入其中是POCT的一个重要方面。在本综述中,作者讨论了用于肠道病原体的各种快速诊断平台及其主要挑战。
开发有效的微生物检测方法可能很复杂。检测方法设计必须考虑目标选择、实时和多重检测、样本类型、试剂稳定性和储存、引物/探针设计以及优化反应条件以确保准确性和灵敏度等因素。应对这些挑战需要科学家、临床医生、工程师和行业合作伙伴之间的跨学科合作。未来的努力对于提高POCT系统检测和定量肠道微生物的灵敏度、特异性和通用性至关重要,可推动传染病的诊断和管理。
