Sweat Lactic Acid Biosensor using Continuous Flow as Sample Career

2018 11th Biomedical Engineering International Conference (BMEiCON) Pub Date : 2018-11-01 DOI:10.1109/BMEICON.2018.8609931

Yoshiki Tojyo, Haruna Saito, Keigo Enomoto, H. Kudo

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引用次数: 1

Abstract

A microfluidic biosensor for real-time monitoring of lactic acid (LA) contained in sweat was fabricated and tested. Sweat is one of the most promising body fluids for non-invasive assessment of biological components reflecting physiological condition. In order to measure sweat LA continuously, we developed a microfluidic biosensor, which is highly specific with LA, and a sampling element that transports whole secretions to the biosensor. In this study, the biosensor was first fabricated and its fundamental characteristics were investigated. The biosensor showed sufficient sensitivity (0.16 nA μM−1) to measure sweat LA and high specific activity suitable for the sweat monitoring purpose was also confirmed. Real-sample test was also carried out using our system. The microfluidic biosensor was attached on the upper arm of healthy male subject. Sweat LA was continuously monitored during bike exercise. As a result, elevation of LA was successfully detected (62.4 μg/cm2/min for anaerobic exercise), and the signal decreased to the background level after the exercise. This possibility of non-invasive evaluation of metabolic activity was demonstrated.

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以连续流为样本的汗液乳酸生物传感器

制备了一种用于实时监测汗液中乳酸的微流控生物传感器，并对其进行了测试。汗液是反映生理状况的生物成分的无创评估最有前途的体液之一。为了连续测量汗液的LA，我们开发了一种微流体生物传感器，它具有高度的LA特异性，以及一种将整个分泌物输送到生物传感器的采样元件。本研究首先制备了生物传感器，并对其基本特性进行了研究。该生物传感器具有足够的灵敏度(0.16 nA μM−1)来测量汗液LA，并且具有适合汗液监测目的的高比活性。并利用该系统进行了实样本测试。将微流控生物传感器贴于健康男性受试者上臂。在骑自行车运动期间连续监测汗液LA。结果，成功检测到LA升高(无氧运动时为62.4 μg/cm2/min)，运动后信号降至背景水平。这种无创评估代谢活动的可能性得到了证实。

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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2018 11th Biomedical Engineering International Conference (BMEiCON)

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