医疗监护用可穿戴电化学传感器的发展现状与展望

IF 2.4 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC
Fariborz Mirlou;Levent Beker
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引用次数: 0

摘要

可穿戴设备和生物传感器由于其通过无创和微创方法持续监测人体生物流体中的生物标志物并实时向用户提供反馈的高潜力而备受关注。电化学设备领域已经取得了许多进展,用于所需生物标志物的非侵入性测量,包括检测不同的电解质、代谢物和激素。已经实现并小型化了多路复用人类健康监测、使用生物传感器和使用无线系统传输采集的数据。这些系统已与柔性材料相结合,以增强其适应性和易用性。通过可穿戴设备对目标生物标志物和生理数据的这种精确监测将通过实时提供关键的健康相关信息来显著提高生活质量。另一方面,需要深入了解血液中的分析物浓度及其与其他生物流体的相关性,这将有助于提高生物传感器的可靠性。因此,使用可穿戴生物传感器和临床设备对不同受试者进行大规模体内研究是生物传感器的一个重要验证因素。在这里,我们专注于可穿戴电化学设备,它可以无创地测量和跟踪人体的重要健康信息,并将其传输到用户的移动设备。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Wearable Electrochemical Sensors for Healthcare Monitoring: A Review of Current Developments and Future Prospects
Wearable devices and biosensors have gained significant attention due to their high potential to continuously monitor the biomarkers in human body biofluids through non-invasive and minimally invasive methods and give feedback to the users in real-time. Numerous developments have been made in the electrochemical devices field for the non-invasive measurements of the desired biomarkers, including detecting different electrolytes, metabolites, and hormones. Integrating multiplexed human health monitoring, using biosensors, and transmitting the acquired data using wireless systems has been achieved and miniaturized. These systems have been combined with flexible materials to enhance their conformability and easy use. Such precise monitoring of the target biomarker and physiological data through wearable devices would significantly improve life quality by providing critical health-related information in real time. On the other hand, there needs to be an in-depth understanding of analyte concentrations in blood and their correlation to other biofluids, which will help improve the biosensors’ reliability. Thus, conducting large-scale in-vivo studies on different subjects using wearable biosensors and clinical equipment is an essential validation factor for the biosensors. Here, we focus on wearable electrochemical devices that can non-invasively measure and track the human body’s vital health information and transmit it to the users’ mobile devices.
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来源期刊
CiteScore
3.90
自引率
13.60%
发文量
23
期刊介绍: As a result of recent advances in MEMS/NEMS and systems biology, as well as the emergence of synthetic bacteria and lab/process-on-a-chip techniques, it is now possible to design chemical “circuits”, custom organisms, micro/nanoscale swarms of devices, and a host of other new systems. This success opens up a new frontier for interdisciplinary communications techniques using chemistry, biology, and other principles that have not been considered in the communications literature. The IEEE Transactions on Molecular, Biological, and Multi-Scale Communications (T-MBMSC) is devoted to the principles, design, and analysis of communication systems that use physics beyond classical electromagnetism. This includes molecular, quantum, and other physical, chemical and biological techniques; as well as new communication techniques at small scales or across multiple scales (e.g., nano to micro to macro; note that strictly nanoscale systems, 1-100 nm, are outside the scope of this journal). Original research articles on one or more of the following topics are within scope: mathematical modeling, information/communication and network theoretic analysis, standardization and industrial applications, and analytical or experimental studies on communication processes or networks in biology. Contributions on related topics may also be considered for publication. Contributions from researchers outside the IEEE’s typical audience are encouraged.
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