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Comparison of spinal cord stimulation profiles from intra- and extradural electrode arrangements by finite element modelling

Comparison of spinal cord stimulation profiles from intra- and extradural electrode arrangements by finite element modelling
Comparison of spinal cord stimulation profiles from intra- and extradural electrode arrangements by finite element modelling
Spinal cord stimulation currently relies on extradural electrode arrays that are separated from the spinal cord surface by a highly conducting layer of cerebrospinal fluid. It has recently been suggested that intradural placement of the electrodes in direct contact with the pial surface could greatly enhance the specificity and efficiency of stimulation. The present computational study aims at quantifying and comparing the electrical current distributions as well as the spatial recruitment profiles resulting from extra- and intra-dural electrode arrangements. The electrical potential distribution is calculated using a 3D finite element model of the human thoracic spinal canal. The likely recruitment areas are then obtained using the potential as input to an equivalent circuit model of the pre-threshold axonal response. The results show that the current threshold to recruitment of axons in the dorsal column is more than an order of magnitude smaller for intradural than extradural stimulation. Intradural placement of the electrodes also leads to much higher contrast between the stimulation thresholds for the dorsal root entry zone and the dorsal column, allowing better focusing of the stimulus.
0140-0118
531-538
Huang, Qiujun
72f9f2d6-f8cd-454f-b2ff-faf3faf42fd7
Oya, Hiroyuki
534a174e-9891-4b71-8c5e-76de42e52304
Flouty, Oliver E.
f726b5ff-8cac-4641-aea6-5300a59df995
Reddy, Chandan G.
be71e276-a546-4d98-8fad-95c5dc0869cf
Howard, Matthew A.
b02147c5-1c4f-4aba-8503-f3b6ea8dc166
Gillies, George T.
da76e515-9215-469d-82a4-911492c8fef4
Utz, Marcel
c84ed64c-9e89-4051-af39-d401e423891b
Huang, Qiujun
72f9f2d6-f8cd-454f-b2ff-faf3faf42fd7
Oya, Hiroyuki
534a174e-9891-4b71-8c5e-76de42e52304
Flouty, Oliver E.
f726b5ff-8cac-4641-aea6-5300a59df995
Reddy, Chandan G.
be71e276-a546-4d98-8fad-95c5dc0869cf
Howard, Matthew A.
b02147c5-1c4f-4aba-8503-f3b6ea8dc166
Gillies, George T.
da76e515-9215-469d-82a4-911492c8fef4
Utz, Marcel
c84ed64c-9e89-4051-af39-d401e423891b

Huang, Qiujun, Oya, Hiroyuki, Flouty, Oliver E., Reddy, Chandan G., Howard, Matthew A., Gillies, George T. and Utz, Marcel (2014) Comparison of spinal cord stimulation profiles from intra- and extradural electrode arrangements by finite element modelling. Medical and Biological Engineering and Computing, 52 (6), 531-538. (doi:10.1007/s11517-014-1157-7). (PMID:24771203)

Record type: Article

Abstract

Spinal cord stimulation currently relies on extradural electrode arrays that are separated from the spinal cord surface by a highly conducting layer of cerebrospinal fluid. It has recently been suggested that intradural placement of the electrodes in direct contact with the pial surface could greatly enhance the specificity and efficiency of stimulation. The present computational study aims at quantifying and comparing the electrical current distributions as well as the spatial recruitment profiles resulting from extra- and intra-dural electrode arrangements. The electrical potential distribution is calculated using a 3D finite element model of the human thoracic spinal canal. The likely recruitment areas are then obtained using the potential as input to an equivalent circuit model of the pre-threshold axonal response. The results show that the current threshold to recruitment of axons in the dorsal column is more than an order of magnitude smaller for intradural than extradural stimulation. Intradural placement of the electrodes also leads to much higher contrast between the stimulation thresholds for the dorsal root entry zone and the dorsal column, allowing better focusing of the stimulus.

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Accepted/In Press date: 9 April 2014
e-pub ahead of print date: 27 April 2014
Published date: June 2014
Organisations: Magnetic Resonance

Identifiers

Local EPrints ID: 396253
URI: http://eprints.soton.ac.uk/id/eprint/396253
DOI: doi:10.1007/s11517-014-1157-7
ISSN: 0140-0118
PURE UUID: ee43ba1b-817a-4edc-a1ef-f273bdd8a88d
ORCID for Marcel Utz: ORCID iD orcid.org/0000-0003-2274-9672

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Date deposited: 03 Jun 2016 15:23
Last modified: 15 Mar 2024 03:44

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Contributors

Author: Qiujun Huang
Author: Hiroyuki Oya
Author: Oliver E. Flouty
Author: Chandan G. Reddy
Author: Matthew A. Howard
Author: George T. Gillies
Author: Marcel Utz ORCID iD

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