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Recent Advancement in Electrode Materials and Fabrication, Microfluidic Designs, and Self-Powered Systems for Wearable Non-Invasive Electrochemical Glucose Monitoring Publisher



Sanati A1 ; Esmaeili Y1 ; Bidram E1, 2 ; Shariati L2, 3 ; Rafienia M1 ; Mahshid S4 ; Parlak O5, 6
Authors
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Authors Affiliations
  1. 1. Biosensor Research Center, School of Advanced Technologies in Medicine, Isfahan University of Medical Sciences, Isfahan, 81746-73461, Iran
  2. 2. Department of Biomaterials, Nanotechnology and Tissue Engineering, School of Advanced Technologies in Medicine, Isfahan University of Medical Sciences, Isfahan, 81746-73461, Iran
  3. 3. Applied Physiology Research Center, Cardiovascular Research Institute, Isfahan University of Medical Sciences, Isfahan, 81746-73461, Iran
  4. 4. Department of Bioengineering, McGill University, Montreal, H3A 0E9, QC, Canada
  5. 5. Dermatology and Venereology Division, Department of Medicine Solna, Center for Molecular Medicine, Karolinska Institutet, Stockholm, Sweden
  6. 6. AIMES - Center for the Advancement of Integrated Medical and Engineering Science, Karolinska Institutet and KTH Royal Institute of Technology, Stockholm, SE 171-77, Sweden

Source: Applied Materials Today Published:2022


Abstract

Due to the ever-increasing number of diabetic people globally, continuous monitoring of glucose became an increasingly important subject in the field of point-of-care diagnosis. However, there are still many shortcomings of current diagnostic approaches, including materials and device design, comfort, and stability of device performance. Here, brief, albeit comprehensive, information on current trends of using novel materials and techniques to fabricate wearable electrochemical biosensors for continuous and non-invasive glucose monitoring are provided. Flexible materials as versatile substances to fabricate wearable glucose biosensors used in various body fluids, including sweat, interstitial body fluid (ISF), saliva, and tear, are studied. Moreover, current electrode fabrication methods such as printing, laser induction, photolithography, electrodeposition, seed mediation, and dealloying to construct porous and one-dimensional material with interesting mechanical properties are explored. Microfluidic designs and self-powered systems for better control and storage of the body fluids and decreasing the weight, size, and cost of the wearable electrochemical glucose devices are also studied in this review. The overall progress made to date in building such conceptualized efforts for real-time, wearable continuous monitoring of glucose and the future of the field is briefly discussed. This review has benefits compared to previous reviews, as recent developments in continuous glucose monitoring have interestingly combined with two other amazing and innovative subjects of biosensing, including microfluidics and self-powered systems. © 2021 Elsevier Ltd
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