Nanoarchitectonics of point-of-care diagnostics for sweat biomarkers analysis

Xuan Lin, Arya Vasanth, Aditya Ashok, Hoang-Phuong Phan, Kevin M. Koo, Mohammed A. Amin, Yusuf Valentino Kaneti, Carlos Salomon, Md Shahriar A. Hossain, Yusuke Yamauchi, Mostafa Kamal Masud
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Abstract

Sweat contains numerous vital biomarkers such as metabolites, electrolytes, proteins, nucleic acids and antigens that reflect hydration status, exhaustion, nutrition, and physiological changes. Conventional healthcare diagnosis relies on disease diagnostics in sophisticated centralized laboratories with invasive sample collection (e.g., chemical analyses, plasma separation centrifugation, tissue biopsy, etc.). Cutting-edge point-of-care diagnostics for sweat biomarker analysis allow for non-invasive monitoring of physiologically related biomarkers in sweat and real-time health status tracking. Moreover, using advanced nanoarchitectures, including nanostructured platforms and nanoparticles, can enhance the specificity, sensitivity, wearability and widen the sensing modality of sweat biosensors. Herein, we comprehensively review the secretory mechanisms, clinical uses of sweat biomarkers, and the design, principle, and latest technologies of sweat biosensors. With an emphasis on cutting-edge technologies for sweat biomarker analysis, this review chronicles the issues associated with the current sweat biomarkers analysis of sweat biomarkers and provides insights into strategies for enhancing the translation of such biosensors into routine clinical practice.
用于汗液生物标记分析的床旁诊断纳米架构
汗液中含有大量重要的生物标记物,如代谢物、电解质、蛋白质、核酸和抗原,可反映水合状态、疲惫程度、营养状况和生理变化。传统的医疗诊断依赖于在精密的中央实验室进行疾病诊断,并采集侵入性样本(如化学分析、血浆分离离心、组织活检等)。用于汗液生物标志物分析的尖端床旁诊断技术可对汗液中与生理相关的生物标志物进行无创监测,并实时跟踪健康状况。此外,利用先进的纳米结构,包括纳米结构平台和纳米颗粒,可以提高汗液生物传感器的特异性、灵敏度、耐磨性并拓宽传感模式。在此,我们全面综述了汗液生物标记物的分泌机制、临床用途以及汗液生物传感器的设计、原理和最新技术。这篇综述以汗液生物标志物分析的前沿技术为重点,记录了当前汗液生物标志物分析中的相关问题,并对加强此类生物传感器转化为常规临床实践的策略提出了见解。
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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