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Rapid microbial identification and antimicrobial susceptibility testing to drive better patient care: an evolving scenario.快速微生物鉴定和药敏试验可改善患者治疗效果:一种不断发展的趋势。
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Acoustic separation in plastic microfluidics for rapid detection of bacteria in blood using engineered bacteriophage.利用工程噬菌体在塑料微流控中进行声分离,快速检测血液中的细菌。
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A fully automated microfluidic-based electrochemical sensor for real-time bacteria detection.一种用于实时细菌检测的全自动化基于微流控的电化学传感器。
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Rapid phenotypic stress-based microfluidic antibiotic susceptibility testing of Gram-negative clinical isolates.基于表型快速应激的革兰氏阴性临床分离菌的微流控抗生素药敏检测。
Sci Rep. 2017 Aug 14;7(1):8031. doi: 10.1038/s41598-017-07584-z.
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A new microfluidic approach for the one-step capture, amplification and label-free quantification of bacteria from raw samples.一种用于从原始样本中一步捕获、扩增和无标记定量细菌的新型微流控方法。
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Evaluation of the Accelerate Pheno System for Fast Identification and Antimicrobial Susceptibility Testing from Positive Blood Cultures in Bloodstream Infections Caused by Gram-Negative Pathogens.评估Accelerate Pheno系统用于革兰氏阴性病原菌引起的血流感染中阳性血培养物的快速鉴定和药敏试验
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基于微流控技术的全血中生物体分离:一种新兴的血流感染诊断工具。

Microfluidics-Based Organism Isolation from Whole Blood: An Emerging Tool for Bloodstream Infection Diagnosis.

机构信息

Thayer School of Engineering at Dartmouth, 14 Engineering Drive, Hanover, NH, 03755, USA.

出版信息

Ann Biomed Eng. 2019 Jul;47(7):1657-1674. doi: 10.1007/s10439-019-02256-7. Epub 2019 Apr 12.

DOI:10.1007/s10439-019-02256-7
PMID:30980291
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6687464/
Abstract

The diagnosis of bloodstream infections presents numerous challenges, in part, due to the low concentration of pathogens present in the peripheral bloodstream. As an alternative to existing time-consuming, culture-based diagnostic methods for organism identification, microfluidic devices have emerged as rapid, high-throughput and integrated platforms for bacterial and fungal enrichment, detection, and characterization. This focused review serves to highlight and compare the emerging microfluidic platforms designed for the isolation of sepsis-causing pathogens from blood and suggest important areas for future research.

摘要

血流感染的诊断存在诸多挑战,部分原因是外周血中病原体的浓度较低。为了替代现有的耗时的基于培养的微生物鉴定方法,微流控装置已经成为用于细菌和真菌浓缩、检测和鉴定的快速、高通量和集成平台。本综述重点介绍和比较了新兴的微流控平台,这些平台旨在从血液中分离引起败血症的病原体,并提出了未来研究的重要领域。