Activation of retinal ganglion cells following epiretinal electrical stimulation with hexagonally arranged bipolar electrodes

Miganoosh Abramian; Nigel H. Lovell; John W. Morley; Gregg J. Suaning; Socrates Dokos

doi:10.1088/1741-2560/8/3/035004

Activation of retinal ganglion cells following epiretinal electrical stimulation with hexagonally arranged bipolar electrodes

Miganoosh Abramian, Nigel H. Lovell, John W. Morley, Gregg J. Suaning, Socrates Dokos

School of Medicine

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

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Abstract

We investigated retinal ganglion cell (RGC) responses to epiretinal electrical stimulation delivered by hexagonally arranged bipolar (Hex) electrodes, in order to assess the feasibility of this electrode arrangement for future retinal implant devices. In vitro experiments were performed using rabbit retinal preparations, with results compared to a computational model of axonal stimulation. Single-unit RGC responses to electrical stimulation were recorded with extracellular microelectrodes. With 100 Î¼s/phase biphasic pulses, the threshold charge densities were 24.0 Ã‚Â± 11.2 and 7.7 Ã‚Â± 3.2 Î¼C cmâ»Ã‚Â² for 50 and 125 Î¼m diameter Hex electrodes, respectively. Threshold profiles and response characteristics strongly suggested that RGC axons were the neural activation site. Both the model and in vitro data indicated that localized tissue stimulation is achieved with Hex electrodes.

Original language	English
Pages (from-to)	1-12
Number of pages	12
Journal	Journal of Neural Engineering
Volume	8
Issue number	3
DOIs	https://doi.org/10.1088/1741-2560/8/3/035004
Publication status	Published - 2011

Keywords

European rabbit
electric stimulation
microelectrodes
neurons
retinal ganglion cells

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10.1088/1741-2560/8/3/035004

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title = "Activation of retinal ganglion cells following epiretinal electrical stimulation with hexagonally arranged bipolar electrodes",

abstract = "We investigated retinal ganglion cell (RGC) responses to epiretinal electrical stimulation delivered by hexagonally arranged bipolar (Hex) electrodes, in order to assess the feasibility of this electrode arrangement for future retinal implant devices. In vitro experiments were performed using rabbit retinal preparations, with results compared to a computational model of axonal stimulation. Single-unit RGC responses to electrical stimulation were recorded with extracellular microelectrodes. With 100 {\^I}¼s/phase biphasic pulses, the threshold charge densities were 24.0 {\~A}‚{\^A}± 11.2 and 7.7 {\~A}‚{\^A}± 3.2 {\^I}¼C cm{\^a}»{\~A}‚{\^A}² for 50 and 125 {\^I}¼m diameter Hex electrodes, respectively. Threshold profiles and response characteristics strongly suggested that RGC axons were the neural activation site. Both the model and in vitro data indicated that localized tissue stimulation is achieved with Hex electrodes.",

keywords = "European rabbit, electric stimulation, microelectrodes, neurons, retinal ganglion cells",

author = "Miganoosh Abramian and Lovell, {Nigel H.} and Morley, {John W.} and Suaning, {Gregg J.} and Socrates Dokos",

year = "2011",

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T1 - Activation of retinal ganglion cells following epiretinal electrical stimulation with hexagonally arranged bipolar electrodes

AU - Abramian, Miganoosh

AU - Lovell, Nigel H.

AU - Morley, John W.

AU - Suaning, Gregg J.

AU - Dokos, Socrates

PY - 2011

Y1 - 2011

N2 - We investigated retinal ganglion cell (RGC) responses to epiretinal electrical stimulation delivered by hexagonally arranged bipolar (Hex) electrodes, in order to assess the feasibility of this electrode arrangement for future retinal implant devices. In vitro experiments were performed using rabbit retinal preparations, with results compared to a computational model of axonal stimulation. Single-unit RGC responses to electrical stimulation were recorded with extracellular microelectrodes. With 100 Î¼s/phase biphasic pulses, the threshold charge densities were 24.0 Ã‚Â± 11.2 and 7.7 Ã‚Â± 3.2 Î¼C cmâ»Ã‚Â² for 50 and 125 Î¼m diameter Hex electrodes, respectively. Threshold profiles and response characteristics strongly suggested that RGC axons were the neural activation site. Both the model and in vitro data indicated that localized tissue stimulation is achieved with Hex electrodes.

AB - We investigated retinal ganglion cell (RGC) responses to epiretinal electrical stimulation delivered by hexagonally arranged bipolar (Hex) electrodes, in order to assess the feasibility of this electrode arrangement for future retinal implant devices. In vitro experiments were performed using rabbit retinal preparations, with results compared to a computational model of axonal stimulation. Single-unit RGC responses to electrical stimulation were recorded with extracellular microelectrodes. With 100 Î¼s/phase biphasic pulses, the threshold charge densities were 24.0 Ã‚Â± 11.2 and 7.7 Ã‚Â± 3.2 Î¼C cmâ»Ã‚Â² for 50 and 125 Î¼m diameter Hex electrodes, respectively. Threshold profiles and response characteristics strongly suggested that RGC axons were the neural activation site. Both the model and in vitro data indicated that localized tissue stimulation is achieved with Hex electrodes.

KW - European rabbit

KW - electric stimulation

KW - microelectrodes

KW - neurons

KW - retinal ganglion cells

UR - http://handle.uws.edu.au:8081/1959.7/525550

U2 - 10.1088/1741-2560/8/3/035004

DO - 10.1088/1741-2560/8/3/035004

M3 - Article

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VL - 8

SP - 1

EP - 12

JO - Journal of Neural Engineering

JF - Journal of Neural Engineering

IS - 3

ER -

Activation of retinal ganglion cells following epiretinal electrical stimulation with hexagonally arranged bipolar electrodes

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Keywords

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