Randles circuit model for characterizing a porous stimulating electrode of the retinal prosthesis

Shuhei Nomura; Hiroyuki Tashiro; Yasuo Terasawa; Yukari Nakano; Makito Haruta; Kiyotaka Sasagawa; Hironari Takehara; Jun Ohta

doi:10.1541/IEEJSMAS.141.134

Randles circuit model for characterizing a porous stimulating electrode of the retinal prosthesis

Shuhei Nomura, Hiroyuki Tashiro, Yasuo Terasawa, Yukari Nakano, Makito Haruta, Kiyotaka Sasagawa, Hironari Takehara, Jun Ohta

Division of Medical Technology

Research output: Contribution to journal › Article › peer-review

Abstract

To develop a visual prosthesis, it is necessary to understand the changes in the electrochemical properties of stimulating electrodes implanted in the body. To evaluate these properties, we examined three types of equivalent circuit models that represented the electrode interface 23 weeks after the stimulation began. The results indicated that the Randles circuit model with Warburg impedance exhibited the difference in the electrochemical properties of the active and inactive electrodes, which might have been caused by the desorption of adsorbed protein from the electrode surface owing to the stimulation current. This model can be used to characterize the changes in the properties of porous stimulating electrodes.

Original language	English
Pages (from-to)	134-140
Number of pages	7
Journal	IEEJ Transactions on Sensors and Micromachines
Volume	141
Issue number	5
DOIs	https://doi.org/10.1541/IEEJSMAS.141.134
Publication status	Published - 2021

All Science Journal Classification (ASJC) codes

Mechanical Engineering
Electrical and Electronic Engineering

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title = "Randles circuit model for characterizing a porous stimulating electrode of the retinal prosthesis",

abstract = "To develop a visual prosthesis, it is necessary to understand the changes in the electrochemical properties of stimulating electrodes implanted in the body. To evaluate these properties, we examined three types of equivalent circuit models that represented the electrode interface 23 weeks after the stimulation began. The results indicated that the Randles circuit model with Warburg impedance exhibited the difference in the electrochemical properties of the active and inactive electrodes, which might have been caused by the desorption of adsorbed protein from the electrode surface owing to the stimulation current. This model can be used to characterize the changes in the properties of porous stimulating electrodes.",

author = "Shuhei Nomura and Hiroyuki Tashiro and Yasuo Terasawa and Yukari Nakano and Makito Haruta and Kiyotaka Sasagawa and Hironari Takehara and Jun Ohta",

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T1 - Randles circuit model for characterizing a porous stimulating electrode of the retinal prosthesis

AU - Nomura, Shuhei

AU - Tashiro, Hiroyuki

AU - Terasawa, Yasuo

AU - Nakano, Yukari

AU - Haruta, Makito

AU - Sasagawa, Kiyotaka

AU - Takehara, Hironari

AU - Ohta, Jun

PY - 2021

Y1 - 2021

N2 - To develop a visual prosthesis, it is necessary to understand the changes in the electrochemical properties of stimulating electrodes implanted in the body. To evaluate these properties, we examined three types of equivalent circuit models that represented the electrode interface 23 weeks after the stimulation began. The results indicated that the Randles circuit model with Warburg impedance exhibited the difference in the electrochemical properties of the active and inactive electrodes, which might have been caused by the desorption of adsorbed protein from the electrode surface owing to the stimulation current. This model can be used to characterize the changes in the properties of porous stimulating electrodes.

AB - To develop a visual prosthesis, it is necessary to understand the changes in the electrochemical properties of stimulating electrodes implanted in the body. To evaluate these properties, we examined three types of equivalent circuit models that represented the electrode interface 23 weeks after the stimulation began. The results indicated that the Randles circuit model with Warburg impedance exhibited the difference in the electrochemical properties of the active and inactive electrodes, which might have been caused by the desorption of adsorbed protein from the electrode surface owing to the stimulation current. This model can be used to characterize the changes in the properties of porous stimulating electrodes.

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Randles circuit model for characterizing a porous stimulating electrode of the retinal prosthesis

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