期刊
JOURNAL OF THE ELECTROCHEMICAL SOCIETY
卷 169, 期 5, 页码 -出版社
ELECTROCHEMICAL SOC INC
DOI: 10.1149/1945-7111/ac6980
关键词
glucose biosensor; optics; electrochemistry; CGM system; MARD; comparison study
资金
- Fundamental Research Funds for the Central Universities
Blood glucose monitoring is crucial for diabetes management, and optical and electrochemical glucose sensors are currently the mainstream technologies. This article introduces the history and advantages/disadvantages of these sensors, and reviews the research progress and challenges of continuous glucose monitoring technology. The study finds that different optical techniques have limitations that hinder the development of optical CGM, while electrochemical glucose sensors are more feasible and reliable for implementing CGM.
Blood glucose monitoring is a valuable tool for managing diabetes. In recent years, with the increase of diabetics in the world, continuous monitoring of blood sugar changes has attracted more and more researchers' attention. Among the current technologies for measuring glucose, optical and electrochemical glucose sensors are the mainstream ones. This article introduces the history of optical, electrochemical, and other sensors such as field effect transistors sensors and their advantages and disadvantages respectively. This review summarizes the research progress and main challenges of continuous glucose monitoring technology. We found that different optical techniques have different limitations which restricts the development of optical CGM. In contrast, electrochemical glucose sensors are more feasible and reliable in implementing CGM. Therefore, this review focuses on the development and shortcomings of electrochemical sensors, especially the promising DET and the current commercial CGM. Hopefully, it will help readers sort out the future of CGM's development.
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