用于糖尿病管理的光学生物传感器:进入刺激响应传感机制

Q1 Engineering
Kanishk Singh , Tarun Agarwal , Utkarsh Kumar , Sampriti Pal , Ashish Runthala , Tung-Ming Pan , Ching Chow Wu
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引用次数: 3

摘要

糖尿病是导致全球死亡的最常见慢性疾病之一。有效的血糖传感平台可以改善对疾病进展的监测,从而实现更好的健康管理。基于智能材料的光学传感器,特别是那些对外部刺激作出反应的光学传感器,最近为糖尿病管理铺平了道路。由于其独特的无标签、定量、连续测量能力和可重复使用性,这种传感器超越了传统的传感器,并且可以与无设备的文本或图像显示配对。在当前的综述中,我们通过改变各种光学参数,如波长、衍射和漫射光模式、信号强度和折射率,深入探索了目标分析物(葡萄糖)与这些智能传感材料的有效相互作用。我们还强调了在生物传感研究中使用智能材料的障碍和机遇。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Optical biosensors for diabetes management: Advancing into stimuli-responsive sensing mechanisms

Optical biosensors for diabetes management: Advancing into stimuli-responsive sensing mechanisms

Diabetes is one of the most common chronic diseases that contribute significantly to global mortality. Effective glucose-sensing platforms might allow for an improved monitoring of disease progression, leading to a better health management. Optical sensors based on smart materials, particularly those that respond to external stimuli, have recently paved the way for diabetes management. Such sensors surpass traditional ones due to their unique label-free, quantitative, continuous measurement capabilities and reusability, and can be paired with equipment-free text or picture display. In the current review, we have thoroughly explored the efficient interaction of the target analyte (glucose) with these smart sensing materials by varying a variety of optical parameters such as wavelength, diffracted and diffused light pattern, signal strength, and refractive index. We also highlight the obstacles and opportunities of using smart materials in biosensing research.

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来源期刊
Smart Materials in Medicine
Smart Materials in Medicine Engineering-Biomedical Engineering
CiteScore
14.00
自引率
0.00%
发文量
41
审稿时长
48 days
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