Real-Time In Vivo Control of Neural Membrane Potential by Electro-Ionic Modulation

Zafer Soybaş; Sefa Şimşek; F.M. Betül Erol; U. Çiya Erdoğan; Esra N. Şimşek; Büşra Şahin; Merve Marçalı; Bahattin Aydoğdu; Çağlar Elbüken; Rohat Melik

iScience (Jul 2019)

Real-Time In Vivo Control of Neural Membrane Potential by Electro-Ionic Modulation

Zafer Soybaş,
Sefa Şimşek,
F.M. Betül Erol,
U. Çiya Erdoğan,
Esra N. Şimşek,
Büşra Şahin,
Merve Marçalı,
Bahattin Aydoğdu,
Çağlar Elbüken,
Rohat Melik

Affiliations

Zafer Soybaş: Department of Electrical and Electronics Engineering, TOBB University of Economics & Technology, Ankara 06510, Turkey
Sefa Şimşek: Department of Electrical and Electronics Engineering, TOBB University of Economics & Technology, Ankara 06510, Turkey
F.M. Betül Erol: Faculty of Medicine, Hacettepe University, Ankara 06100, Turkey
U. Çiya Erdoğan: Department of Electrical and Electronics Engineering, TOBB University of Economics & Technology, Ankara 06510, Turkey
Esra N. Şimşek: Department of Electrical and Electronics Engineering, TOBB University of Economics & Technology, Ankara 06510, Turkey
Büşra Şahin: Department of Electrical and Electronics Engineering, TOBB University of Economics & Technology, Ankara 06510, Turkey
Merve Marçalı: Institute of Materials Science and Nanotechnology, National Nanotechnology Research Center (UNAM), Bilkent University, Ankara 06800, Turkey
Bahattin Aydoğdu: Department of Pediatric Surgery, Dicle University Medical Faculty, Diyarbakır 21280, Turkey
Çağlar Elbüken: Institute of Materials Science and Nanotechnology, National Nanotechnology Research Center (UNAM), Bilkent University, Ankara 06800, Turkey
Rohat Melik: Department of Electrical and Electronics Engineering, TOBB University of Economics & Technology, Ankara 06510, Turkey; Corresponding author

Journal volume & issue: Vol. 17
pp. 347 – 358

Abstract

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Summary: Theoretically, by controlling neural membrane potential (Vm) in vivo, motion, sensation, and behavior can be controlled. Until now, there was no available technique that can increase or decrease ion concentration in vivo in real time to change neural membrane potential. We introduce a method that we coin electro-ionic modulation (EIM), wherein ionic concentration around a nerve can be controlled in real time and in vivo. We used an interface to regulate the Ca2+ ion concentration around the sciatic nerve of a frog and thus achieved stimulation and blocking with higher resolution and lower current compared with electrical stimulation. As EIM achieves higher controllability of Vm, it has potential to replace conventional methods used for the treatment of neurological disorders and may bring a new perspective to neuromodulation techniques. : Bioelectrical Engineering; Bioengineering; Biological Sciences; Techniques in Neuroscience Subject Areas: Bioelectrical Engineering, Bioengineering, Biological Sciences, Techniques in Neuroscience

Published in iScience

ISSN: 2589-0042 (Online)
Publisher: Elsevier
Country of publisher: United States
LCC subjects: Science
Website: http://www.cell.com/iscience/home

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