Functional Electrochemistry: On-Nerve Assessment of Electrode Materials for Electrochemistry and Functional Neurostimulation

Jason A. Miranda; Adrien Rapeaux; Isabelle C. Samper; Carolina Silveira; David R. Wille; Gerald E. Hunsberger; Wesley J. Dopson; Huanfen Yao; Annapurna Karicherla; Daniel J. Chew

doi:10.1109/OJEMB.2024.3356818

IEEE Open Journal of Engineering in Medicine and Biology (Jan 2024)

Functional Electrochemistry: On-Nerve Assessment of Electrode Materials for Electrochemistry and Functional Neurostimulation

Jason A. Miranda,
Adrien Rapeaux,
Isabelle C. Samper,
Carolina Silveira,
David R. Wille,
Gerald E. Hunsberger,
Wesley J. Dopson,
Huanfen Yao,
Annapurna Karicherla,
Daniel J. Chew

Affiliations

Jason A. Miranda: ORCiD; Galvani Bioelectonics Ltd., Stevenage, Hertfordshire, U.K.
Adrien Rapeaux: ORCiD; Galvani Bioelectonics Ltd., Stevenage, Hertfordshire, U.K.
Isabelle C. Samper: ORCiD; Galvani Bioelectonics Ltd., Stevenage, Hertfordshire, U.K.
Carolina Silveira: ORCiD; Galvani Bioelectonics Ltd., Stevenage, Hertfordshire, U.K.
David R. Wille: ORCiD; GSK PLC, Stevenage, U.K.
Gerald E. Hunsberger: ORCiD; Galvani Bioelectonics Ltd., Stevenage, Hertfordshire, U.K.
Wesley J. Dopson: ORCiD; Galvani Bioelectonics Ltd., Stevenage, Hertfordshire, U.K.
Huanfen Yao: ORCiD; Verily Life Sciences LLC, San Francisco, CA, USA
Annapurna Karicherla: ORCiD; Verily Life Sciences LLC, San Francisco, CA, USA
Daniel J. Chew: ORCiD; Galvani Bioelectonics Ltd., Stevenage, Hertfordshire, U.K.

DOI: https://doi.org/10.1109/OJEMB.2024.3356818
Journal volume & issue: Vol. 5
pp. 59 – 65

Abstract

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Emerging therapies in bioelectronic medicine highlight the need for deeper understanding of electrode material performance in the context of tissue stimulation. Electrochemical properties are characterized on the benchtop, facilitating standardization across experiments. On-nerve electrochemistry differs from benchtop characterization and the relationship between electrochemical performance and nerve activation thresholds are not commonly established. This relationship is important in understanding differences between electrical stimulation requirements and electrode performance. We report functional electrochemistry as a follow-up to benchtop testing, describing a novel experimental approach for evaluating on-nerve electrochemical performance in the context of nerve activation. An ex-vivo rat sciatic nerve preparation was developed to quantify activation thresholds of fiber subtypes and electrode material charge injection limits for platinum iridium, iridium oxide, titanium nitride and PEDOT. Finally, we address experimental complexities arising in these studies, and demonstrate statistical solutions that support rigorous material performance comparisons for decision making in neural interface development.

Published in IEEE Open Journal of Engineering in Medicine and Biology

ISSN: 2644-1276 (Online)
Publisher: IEEE
Country of publisher: United States
LCC subjects: Medicine: Medicine (General): Computer applications to medicine. Medical informatics; Medicine: Medicine (General): Medical technology
Website: https://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=8782705

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Abstract

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