A flexible retinal device with CMOS smart electrodes fabricated on parylene C thin-film and bioceramic substrate

Kaige Pan; Takanori Hagiwara; Kuang Chih Tso; Ronnakorn Siwadamrongpong; Latiful Akbar; Yukari Nakano; Takuro Kono; Yasuo Terasawa; Makito Haruta; Hironari Takehara; Hiroyuki Tashiro; Kiyotaka Sasagawa; Pu Wei Wu; Jun Ohta

doi:10.35848/1347-4065/acaca5

A flexible retinal device with CMOS smart electrodes fabricated on parylene C thin-film and bioceramic substrate

Kaige Pan^*, Takanori Hagiwara, Kuang Chih Tso, Ronnakorn Siwadamrongpong, Latiful Akbar, Yukari Nakano, Takuro Kono, Yasuo Terasawa, Makito Haruta^*, Hironari Takehara, Hiroyuki Tashiro, Kiyotaka Sasagawa, Pu Wei Wu, Jun Ohta

^*Corresponding author for this work

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

Abstract

We developed implementation technologies for artificial vision devices compatible with suprachoroidal transretinal stimulation. We aimed to develop a device that can be safely implanted in the sclera of the eye for a long period. Using parylene C and bioceramics as biocompatible base materials, we realized a device with high in vivo safety by making the device structure flexible and reducing the wires of control signals. We successfully created a prototype device that combines a flexible wire structure based on a parylene C thin film with a wire-saving CMOS smart electrode structure based on CMOS integrated circuits. We conducted in vitro and in vivo experiments to confirm their performances. The immersion test confirmed that the device could work normally for four days. Furthermore, in the in vivo experiments using rats, we successfully measured evoked potentials in the brain induced by the stimulation current using the device.

Original language	English
Article number	SC1022
Journal	Japanese journal of applied physics
Volume	62
Issue number	SC
DOIs	https://doi.org/10.35848/1347-4065/acaca5
State	Published - 1 Apr 2023

Keywords

biocompatible
CMOS smart electrode
current stimulation
flexible
retinal prosthesis
suprachoroidal transretinal stimulation
thin film

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10.35848/1347-4065/acaca5

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Pan, K., Hagiwara, T., Tso, K. C., Siwadamrongpong, R., Akbar, L., Nakano, Y., Kono, T., Terasawa, Y., Haruta, M., Takehara, H., Tashiro, H., Sasagawa, K., Wu, P. W., & Ohta, J. (2023). A flexible retinal device with CMOS smart electrodes fabricated on parylene C thin-film and bioceramic substrate. Japanese journal of applied physics, 62(SC), Article SC1022. https://doi.org/10.35848/1347-4065/acaca5

@article{311c489bec9d42d983eaa7c5ffe5cfe4,

title = "A flexible retinal device with CMOS smart electrodes fabricated on parylene C thin-film and bioceramic substrate",

abstract = "We developed implementation technologies for artificial vision devices compatible with suprachoroidal transretinal stimulation. We aimed to develop a device that can be safely implanted in the sclera of the eye for a long period. Using parylene C and bioceramics as biocompatible base materials, we realized a device with high in vivo safety by making the device structure flexible and reducing the wires of control signals. We successfully created a prototype device that combines a flexible wire structure based on a parylene C thin film with a wire-saving CMOS smart electrode structure based on CMOS integrated circuits. We conducted in vitro and in vivo experiments to confirm their performances. The immersion test confirmed that the device could work normally for four days. Furthermore, in the in vivo experiments using rats, we successfully measured evoked potentials in the brain induced by the stimulation current using the device.",

keywords = "biocompatible, CMOS smart electrode, current stimulation, flexible, retinal prosthesis, suprachoroidal transretinal stimulation, thin film",

author = "Kaige Pan and Takanori Hagiwara and Tso, {Kuang Chih} and Ronnakorn Siwadamrongpong and Latiful Akbar and Yukari Nakano and Takuro Kono and Yasuo Terasawa and Makito Haruta and Hironari Takehara and Hiroyuki Tashiro and Kiyotaka Sasagawa and Wu, {Pu Wei} and Jun Ohta",

note = "Publisher Copyright: {\textcopyright} 2023 The Japan Society of Applied Physics.",

year = "2023",

month = apr,

day = "1",

doi = "10.35848/1347-4065/acaca5",

language = "English",

volume = "62",

journal = "Japanese journal of applied physics",

issn = "0021-4922",

publisher = "Japan Society of Applied Physics",

number = "SC",

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Pan, K, Hagiwara, T, Tso, KC, Siwadamrongpong, R, Akbar, L, Nakano, Y, Kono, T, Terasawa, Y, Haruta, M, Takehara, H, Tashiro, H, Sasagawa, K, Wu, PW & Ohta, J 2023, 'A flexible retinal device with CMOS smart electrodes fabricated on parylene C thin-film and bioceramic substrate', Japanese journal of applied physics, vol. 62, no. SC, SC1022. https://doi.org/10.35848/1347-4065/acaca5

TY - JOUR

T1 - A flexible retinal device with CMOS smart electrodes fabricated on parylene C thin-film and bioceramic substrate

AU - Pan, Kaige

AU - Hagiwara, Takanori

AU - Tso, Kuang Chih

AU - Siwadamrongpong, Ronnakorn

AU - Akbar, Latiful

AU - Nakano, Yukari

AU - Kono, Takuro

AU - Terasawa, Yasuo

AU - Haruta, Makito

AU - Takehara, Hironari

AU - Tashiro, Hiroyuki

AU - Sasagawa, Kiyotaka

AU - Wu, Pu Wei

AU - Ohta, Jun

PY - 2023/4/1

Y1 - 2023/4/1

N2 - We developed implementation technologies for artificial vision devices compatible with suprachoroidal transretinal stimulation. We aimed to develop a device that can be safely implanted in the sclera of the eye for a long period. Using parylene C and bioceramics as biocompatible base materials, we realized a device with high in vivo safety by making the device structure flexible and reducing the wires of control signals. We successfully created a prototype device that combines a flexible wire structure based on a parylene C thin film with a wire-saving CMOS smart electrode structure based on CMOS integrated circuits. We conducted in vitro and in vivo experiments to confirm their performances. The immersion test confirmed that the device could work normally for four days. Furthermore, in the in vivo experiments using rats, we successfully measured evoked potentials in the brain induced by the stimulation current using the device.

AB - We developed implementation technologies for artificial vision devices compatible with suprachoroidal transretinal stimulation. We aimed to develop a device that can be safely implanted in the sclera of the eye for a long period. Using parylene C and bioceramics as biocompatible base materials, we realized a device with high in vivo safety by making the device structure flexible and reducing the wires of control signals. We successfully created a prototype device that combines a flexible wire structure based on a parylene C thin film with a wire-saving CMOS smart electrode structure based on CMOS integrated circuits. We conducted in vitro and in vivo experiments to confirm their performances. The immersion test confirmed that the device could work normally for four days. Furthermore, in the in vivo experiments using rats, we successfully measured evoked potentials in the brain induced by the stimulation current using the device.

KW - biocompatible

KW - CMOS smart electrode

KW - current stimulation

KW - flexible

KW - retinal prosthesis

KW - suprachoroidal transretinal stimulation

KW - thin film

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U2 - 10.35848/1347-4065/acaca5

DO - 10.35848/1347-4065/acaca5

M3 - Article

AN - SCOPUS:85147140697

SN - 0021-4922

VL - 62

JO - Japanese journal of applied physics

JF - Japanese journal of applied physics

IS - SC

M1 - SC1022

ER -

A flexible retinal device with CMOS smart electrodes fabricated on parylene C thin-film and bioceramic substrate

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