Detail publikace

Electrophysiological investigation of intact retina with soft printed organic neural interface

VEBRAITE, I. DAVID-PUR, M. RAND, D. GLOWACKI, E. HANEIN, Y.

Originální název

Electrophysiological investigation of intact retina with soft printed organic neural interface

Typ

článek v časopise ve Web of Science, Jimp

Jazyk

angličtina

Originální abstrakt

Objective. Understanding how the retina converts a natural image or an electrically stimulated one into neural firing patterns is the focus of on-going research activities. Ex vivo, the retina can be readily investigated using multi electrode arrays (MEAs). However, MEA recording and stimulation from an intact retina (in the eye) has been so far insufficient. Approach. In the present study, we report new soft carbon electrode arrays suitable for recording and stimulating neural activity in an intact retina. Screen-printing of carbon ink on 20 mu m polyurethane (PU) film was used to realize electrode arrays with electrodes as small as 40 mu m in diameter. Passivation was achieved with a holey membrane, realized using laser drilling in a thin (50 mu m) PU film. Plasma polymerized 3.4-ethylenedioxythiophene was used to coat the electrode array to improve the electrode specific capacitance. Chick retinas, embryonic stage day 13, both explanted and intact inside an enucleated eye, were used. Main results. A novel fabrication process based on printed carbon electrodes was developed and yielded high capacitance electrodes on a soft substrate. Ex vivo electrical recording of retina activity with carbon electrodes is demonstrated. With the addition of organic photo-capacitors, simultaneous photo-electrical stimulation and electrical recording was achieved. Finally, electrical activity recordings from an intact chick retina (inside enucleated eyes) were demonstrated. Both photosensitive retinal ganglion cell responses and spontaneous retina waves were recorded and their features analyzed. Significance. Results of this study demonstrated soft electrode arrays with unique properties, suitable for simultaneous recording and photo-electrical stimulation of the retina at high fidelity. This novel electrode technology opens up new frontiers in the study of neural tissue in vivo.

Klíčová slova

neuro-stimulation; neural prosthesis; microelectrodes; soft neural interfaces

Autoři

VEBRAITE, I.; DAVID-PUR, M.; RAND, D.; GLOWACKI, E.; HANEIN, Y.

Vydáno

1. 12. 2021

Nakladatel

IOP Publishing Ltd

Místo

BRISTOL

ISSN

1741-2552

Periodikum

Journal of Neural Engineering

Ročník

18

Číslo

6

Stát

Spojené království Velké Británie a Severního Irska

Strany od

066017-1

Strany do

066017-12

Strany počet

12

URL