Model-based evaluation of the short-circuited tripolar cuff configuration

Lotte N. S. Andreasen Struijk; Johannes Struijk

doi:10.1007/s11517-006-0057-x

Model-based evaluation of the short-circuited tripolar cuff configuration

Lotte N. S. Andreasen Struijk, Johannes Struijk

Research output: Contribution to journal › Journal article › Research › peer-review

6 Citations (Scopus)

Abstract

Recordings of neural information for use as feedback in functional electrical stimulation are often contaminated with interfering signals from muscles and from stimulus pulses. The cuff electrode used for the neural recording can be optimized to improve the S/I ratio. In this work, we evaluate a model of both the nerve signal and the interfering signals recorded by a cuff, and subsequently use this model to study the signal to interference ratio of different cuff designs and to evaluate a recently introduced short-circuited tripolar cuff configuration. The results of the model showed good agreement with results from measurements in rabbits and confirmed the superior performance of the short-circuited tripolar configuration as compared with the traditionally used tripolar configuration.

Original language	English
Journal	Medical & Biological Engineering & Computing
Volume	44
Issue number	5
Pages (from-to)	404-413
ISSN	0140-0118
DOIs	https://doi.org/10.1007/s11517-006-0057-x
Publication status	Published - 2006

Keywords

Nerve cuff
Cuff configuration
Model
Interfering signal modeling
Single fiber action potentials

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title = "Model-based evaluation of the short-circuited tripolar cuff configuration",

abstract = "Recordings of neural information for use as feedback in functional electrical stimulation are often contaminated with interfering signals from muscles and from stimulus pulses. The cuff electrode used for the neural recording can be optimized to improve the S/I ratio. In this work, we evaluate a model of both the nerve signal and the interfering signals recorded by a cuff, and subsequently use this model to study the signal to interference ratio of different cuff designs and to evaluate a recently introduced short-circuited tripolar cuff configuration. The results of the model showed good agreement with results from measurements in rabbits and confirmed the superior performance of the short-circuited tripolar configuration as compared with the traditionally used tripolar configuration.",

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AU - Struijk, Johannes

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N2 - Recordings of neural information for use as feedback in functional electrical stimulation are often contaminated with interfering signals from muscles and from stimulus pulses. The cuff electrode used for the neural recording can be optimized to improve the S/I ratio. In this work, we evaluate a model of both the nerve signal and the interfering signals recorded by a cuff, and subsequently use this model to study the signal to interference ratio of different cuff designs and to evaluate a recently introduced short-circuited tripolar cuff configuration. The results of the model showed good agreement with results from measurements in rabbits and confirmed the superior performance of the short-circuited tripolar configuration as compared with the traditionally used tripolar configuration.

AB - Recordings of neural information for use as feedback in functional electrical stimulation are often contaminated with interfering signals from muscles and from stimulus pulses. The cuff electrode used for the neural recording can be optimized to improve the S/I ratio. In this work, we evaluate a model of both the nerve signal and the interfering signals recorded by a cuff, and subsequently use this model to study the signal to interference ratio of different cuff designs and to evaluate a recently introduced short-circuited tripolar cuff configuration. The results of the model showed good agreement with results from measurements in rabbits and confirmed the superior performance of the short-circuited tripolar configuration as compared with the traditionally used tripolar configuration.

KW - Nerve cuff

KW - Cuff configuration

KW - Model

KW - Interfering signal modeling

KW - Single fiber action potentials

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JO - Medical & Biological Engineering & Computing

JF - Medical & Biological Engineering & Computing

IS - 5

ER -

Model-based evaluation of the short-circuited tripolar cuff configuration

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Keywords

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