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Revolution in Minimally Invasive Brain Monitoring

Stable electrophysiological recording of diabetic mice s brains was made possible with a low-invasive microneedle electrode.

D koji yamashitaRioki sandaTakeshi kawanoTechnopro rd companyToyohashi university of technologyNational institute of technologyInstitute for research on semiconductorIbaraki collegeNext generation semiconductorSensing scienceToyohashi universityNational instituteRain tissue injuryOw invasive electrode

Electrophysiological Breakthrough Revolutionizes Diabetic Brain Studies

Electrophysiological Breakthrough Revolutionizes Diabetic Brain Studies
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Kowa koidaTakeshi kawanoRioki sandaKoji yamashitaShohei yokoyamaKensei sakamotoShota yamagiwaRika numanoD koji yamashitaIbaraki collegeToyohashi university of technologyTakeda science foundationNational institute of technologyDevelopment backgroundTechnopro rd companySeamless technology

An electrophysiological breakthrough for diab

<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>

D koji yamashitaShohei yokoyamaKoji yamashitaTakeshi kawanoRika numanoShota yamagiwaRioki sandaKowa koidaKensei sakamotoIbaraki collegeNational institute of technologyInstitute for research on semiconductorTakeda science foundationMethod of researchDevelopment backgroundToyohashi university of technology

An electrophysiological breakthrough for diabetic brain studies

An electrophysiological breakthrough for diabetic brain studies
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D koji yamashitaTakeshi kawanoRioki sandaNational institute of technologyToyohashi university of technologyInstitute for research on semiconductorIbaraki collegeTechnopro rd companyToyohashi universityNext generation semiconductorSensing scienceNational institute

An electrophysiological breakthrough for diab

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.

Shohei yokoyamaKensei sakamotoRioki sandaKowa koidaD koji yamashitaTakeshi kawanoRika numanoShota yamagiwaKoji yamashitaTakeda science foundationNational institute of technologyDevelopment backgroundNagai foundation for science technologyTechnopro rd companyInstitute for research on semiconductorToyohashi university of technology