Department of NanoEngineering, University of California, San Diego, La Jolla, CA, 92093, United States.
Department of NanoEngineering, University of California, San Diego, La Jolla, CA, 92093, United States; Sao Carlos Physics Institute, University of Sao Paulo, Sao Carlos, 13566-590, Sao Paulo, Brazil.
Biosens Bioelectron. 2019 Jul 15;137:161-170. doi: 10.1016/j.bios.2019.04.058. Epub 2019 May 7.
We report on a wearable tear bioelectronic platform, integrating a microfluidic electrochemical detector into an eyeglasses nose-bridge pad, for non-invasive monitoring of key tear biomarkers. The alcohol-oxidase (AOx) biosensing fluidic system allowed real-time tear collection and direct alcohol measurements in stimulated tears, leading to the first wearable platform for tear alcohol monitoring. Placed outside the eye region this fully wearable tear-sensing platform addresses drawbacks of sensor systems involving direct contact with the eye as the contact lenses platform. Integrating the wireless electronic circuitry into the eyeglasses frame thus yielded a fully portable, convenient-to-use fashionable sensing device. The tear alcohol sensing concept was demonstrated for monitoring of alcohol intake in human subjects over multiple drinking courses, displaying good correlation to parallel BAC measurements. We also demonstrate for the first time the ability to monitor tear glucose outside the eye and the utility of wearable devices for monitoring vitamin nutrients in connection to enzymatic flow detector and rapid voltammetric scanning, respectively. These developments pave the way to build an effective eyeglasses system capable of chemical tear analysis.
我们报告了一种可穿戴的泪液生物电子平台,该平台将微流电化学检测器集成到眼镜鼻梁垫中,用于非侵入性监测关键的泪液生物标志物。酒精氧化酶(AOx)生物传感流体系统允许实时收集泪液并直接测量刺激泪液中的酒精,从而实现了第一个用于监测泪液中酒精的可穿戴平台。该完全可穿戴的泪液传感平台位于眼睛区域之外,解决了与接触眼睛直接接触的传感器系统的缺陷,如隐形眼镜平台。将无线电子电路集成到眼镜架中,从而得到了一个完全便携、使用方便、时尚的感应装置。该泪液酒精传感概念已被证明可用于监测人类受试者在多次饮酒过程中的酒精摄入量,与平行 BAC 测量显示出良好的相关性。我们还首次展示了在眼睛外部监测泪液葡萄糖的能力,以及可穿戴设备在与酶流检测器和快速伏安扫描分别连接时监测维生素营养物质的实用性。这些发展为构建一个能够进行化学泪液分析的有效的眼镜系统铺平了道路。