Electrophysiological Breakthrough Revolutionizes Diabetic Brain Studies miragenews.com - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from miragenews.com Daily Mail and Mail on Sunday newspapers.
<p style="text-align:justify">A research team from the Institute for Research on Next-generation Semiconductor and Sensing Science (IRES²) at the Toyohashi University of Technology, National Institute of Technology, Ibaraki College, and TechnoPro R&D Company has successfully demonstrated low-invasive neural recording technology for the brain tissue of diabetic mice. This was achieved using a small needle-electrode with a diameter of 4 µm. Recording neuronal activity within the diabetic brain tissue is particularly challenging due to various complications, including the development of cerebrovascular disease. Because of the significant advantage of the miniaturized needle-electrode compared to conventional technologies, the needle electrode minimized tissue injury and enabled stable recording for an entire month.</p>
An electrophysiological breakthrough for diab eurekalert.org - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from eurekalert.org Daily Mail and Mail on Sunday newspapers.
New Bluetooth-Low-Energy-Based Wireless Neuronal Recording System
Scientists have now created a compact, lightweight, Bluetooth-low-energy-based wireless neuronal recording system.
The wireless system was developed by researchers from the Department of Electrical and Electronic Information Engineering, Department of Computer Science and Engineering, Department of Applied Chemistry and Life Science, and the Electronics-Inspired Interdisciplinary Research Institute (EIIRIS) at the Toyohashi University of Technology.
The weight of the system is less than 3.9 g and it measures 15 × 15 × 12 mm
3 together with the battery. The system offers the benefits of ideal versatility, high signal quality, and low cost than wired recording using a commercial neurophysiology system. The study was published online on January 8
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IMAGE: Mouse with a head-mounted Bluetooth wireless system that transmits neuronal signals from cortex implanted microneedle electrodes view more
Credit: COPYRIGHT (C) TOYOHASHI UNIVERSITY OF TECHNOLOGY. ALL RIGHTS RESERVED.
Overview:
A research team at the Department of Electrical and Electronic Information Engineering, Department of Computer Science and Engineering, Department of Applied Chemistry and Life Science, and the Electronics-Inspired Interdisciplinary Research Institute (EIIRIS) at Toyohashi University of Technology has developed a lightweight, compact, Bluetooth-low-energy-based wireless neuronal recording system for use in mice. The wireless system weighs 3 with the battery, having advantages of high signal quality, good versatility, and low cost, compared to wired recording with a commercial neurophysiology system. The study was published online in