用于多路体液监测的可穿戴微流体装置

IF 3.3 3区化学 Q2 CHEMISTRY, ANALYTICAL

Analyst Pub Date : 2025-09-12 DOI:10.1039/d5an00739a

Yuqiong Sun, Xin Guo, Yongchang Jiang, Jingyu Cui, Jing Wu, Junzhuan Wang, Wen Cheng, Yi Shi, Lijia Pan

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引用次数: 0

摘要

可穿戴微流体设备能够对体液中的分析物进行多路、连续监测，如汗液、间质液、眼泪和唾液，为个性化健康管理和疾病诊断提供全面的数据。这些设备有可能彻底改变传统的医疗保健模式。本文系统地总结了这些设备的设计和制造的最新策略，包括微流控平台、传感单元和微电子系统，并提供了一个实现高效体液收集、传输和检测的框架。通过分析最近针对不同体液的案例研究，我们概述了高可靠性设计、混合多模态传感、人工智能集成和无电池操作方面的进展，以及它们加速商业化的潜力。最后，讨论了将实验室原型转化为市场就绪产品的关键挑战，为未来开发强大，多功能可穿戴微流体系统提供指导。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Wearable Microfluidic Devices for Multiplex Body-fluid Monitoring

Wearable microfluidic devices enable multiplexed, continuous monitoring of analytes in body fluid such as sweat, interstitial fluid, tears, and saliva, providing comprehensive data for personalized health management and disease diagnosis. These devices hold the potential to revolutionize traditional healthcare paradigms. This review systematically summarizes recent strategies for the design and fabrication of such devices, including microfluidic platforms, sensing units, and microelectronic systems, and provides a framework for achieving efficient body-fluid collection, transport, and detection. By analyzing recent case studies across different body fluids, we outline advancements in high-reliability designs, hybrid multimodal sensing, artificial intelligence integration, and battery-free operation, as well as their potential to accelerate commercialization. Finally, key challenges in translating laboratory prototypes to market-ready products are discussed, offering guidance for future development of robust, multifunctional wearable microfluidic systems.

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