Development of Integrated Electrochemical-Quartz Crystal Microbalance Biosensor Arrays: Towards Ultrasensitive, Multiplexed and Rapid Point-of-Care Dengue Detection

International Conference on Biomedical Electronics and Devices Pub Date : 2019-02-22 DOI:10.5220/0007523802200227

Ahmad Anwar Zainuddin, A. Nordin, M. Asri, R. A. Rahim, C. Guines, M. Chatras, A. Pothier, W. Mak

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引用次数: 10

Abstract

Dengue is an infectious mosquito-borne viral disease that affects approximately 50 million people annually worldwide and is prevalent mostly in the tropics. Severe cases of dengue can be fatal, making early detection and fast diagnosis crucial towards improving patient care and survival rates. Currently, early detection can be achieved through detection of NS1 protein, using ELISA technique. Unfortunately, ELISA is an expensive method, making it unsuitable as a screening technique, especially in low-resource settings. In this work, we present a prototype device and its early validation studies, of an integrated electrochemical and mass-sensor for dengue NS1 antigen. The sensor is connected to open source mass-sensing software and hardware, OpenQCM which makes it easily portable. Having dual-measurement capabilities (mass and impedance) increases the sensitivity of the sensor. Preliminary studies suggest that the prototype could achieve ultralow limit of detection as low as 10 ng mL-1, dual-sensing cross-validation capability, portable size, sample-toanalysis time of less than 30 minutes, and parallelization of multiple assays. This work could lead to early and accurate dengue detection in routine point-of-care settings.

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集成电化学-石英晶体微平衡生物传感器阵列的发展:面向超灵敏、多路复用和快速的护理点登革热检测

登革热是一种由蚊子传播的传染性病毒性疾病，每年影响全球约5000万人，主要在热带地区流行。严重的登革热病例可能是致命的，因此早期发现和快速诊断对于改善患者护理和生存率至关重要。目前，通过ELISA技术检测NS1蛋白可以实现早期检测。不幸的是，ELISA是一种昂贵的方法，使其不适合作为筛查技术，特别是在资源匮乏的环境中。在这项工作中，我们提出了一种集成电化学和质量传感器的原型装置及其早期验证研究，用于登革热NS1抗原。该传感器连接到开源的质量传感软件和硬件，OpenQCM，使其易于移植。具有双重测量能力(质量和阻抗)增加了传感器的灵敏度。初步研究表明，该原型可以实现低至10 ng mL-1的超低检测限，双感测交叉验证能力，便携尺寸，样品到分析时间小于30分钟，以及多个分析的并行化。这项工作可导致在常规护理点环境中早期和准确地发现登革热。

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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International Conference on Biomedical Electronics and Devices

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