基于微流控技术的发展中国家传染病诊断。

Microfluidics-based diagnostics of infectious diseases in the developing world.

机构信息

Department of Biomedical Engineering, Columbia University, New York, New York, USA.

出版信息

Nat Med. 2011 Jul 31;17(8):1015-9. doi: 10.1038/nm.2408.

Abstract

One of the great challenges in science and engineering today is to develop technologies to improve the health of people in the poorest regions of the world. Here we integrated new procedures for manufacturing, fluid handling and signal detection in microfluidics into a single, easy-to-use point-of-care (POC) assay that faithfully replicates all steps of ELISA, at a lower total material cost. We performed this 'mChip' assay in Rwanda on hundreds of locally collected human samples. The chip had excellent performance in the diagnosis of HIV using only 1 μl of unprocessed whole blood and an ability to simultaneously diagnose HIV and syphilis with sensitivities and specificities that rival those of reference benchtop assays. Unlike most current rapid tests, the mChip test does not require user interpretation of the signal. Overall, we demonstrate an integrated strategy for miniaturizing complex laboratory assays using microfluidics and nanoparticles to enable POC diagnostics and early detection of infectious diseases in remote settings.

摘要

如今，科学和工程领域面临的一大挑战是开发技术，以改善世界上最贫困地区人们的健康状况。在这里，我们将微流控技术中的新型制造、流体处理和信号检测方法集成到一个简单易用的即时检测（POC）检测中，其总材料成本更低，但能忠实地复制 ELISA 的所有步骤。我们在卢旺达用数百份当地采集的人类样本进行了“mChip”检测。该芯片在使用仅 1 μl 未经处理的全血进行 HIV 诊断方面表现出色，并且具有同时诊断 HIV 和梅毒的能力，其灵敏度和特异性可与参考台式检测相媲美。与大多数当前的快速检测不同，mChip 检测不需要用户对信号进行解释。总的来说，我们展示了一种使用微流控和纳米粒子将复杂的实验室检测微型化的综合策略，以实现远程环境下的即时诊断和传染病的早期检测。

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基于微流控技术的发展中国家传染病诊断。

Microfluidics-based diagnostics of infectious diseases in the developing world.

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