A new device concept for directly modulating spinal cord pathways: initialin vivoexperimental results
A new device concept for directly modulating spinal cord pathways: initialin vivoexperimental results
We describe a novel spinal cord (SC) stimulator that is designed to overcome a major shortcoming of existing stimulator devices: their restricted capacity to selectively activate targeted axons within the dorsal columns. This device overcomes that limitation by delivering electrical stimuli directly to the pial surface of the SC. Our goal in testing this device was to measure its ability to physiologically activate the SC and examine its capacity to modulate somatosensory evoked potentials (SSEPs) triggered by peripheral stimulation. In this acute study on adult sheep (n = 7), local field potentials were recorded from a grid placed in the subdural space of the right hemisphere during electrical stimulation of the left tibial nerve and the spinal cord. Large amplitude SSEPs (>200 µV) in response to SC stimulation were consistently obtained at stimulation strengths well below the thresholds inducing neural injury. Moreover, stimulation of the dorsal columns with signals employed routinely by devices in standard clinical use, e.g., 50 Hz, 0.2 ms pulse width, produced long-lasting changes (>4.5 h) in the SSEP patterns produced by subsequent tibial nerve stimulation. The results of these acute experiments demonstrate that this device can be safely secured to the SC surface and effectively activate somatosensory pathways.
neuromodulation, spinal cord stimulation, intradural device
2003-2015
Flouty, Oliver
dc72ff69-2115-4789-86cb-c37a405c1d50
Oya, Hiroyuki
534a174e-9891-4b71-8c5e-76de42e52304
Kawasaki, Hiroto
8432625b-d39d-4115-8a8d-3a310e8089af
Wilson, Saul
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Reddy, Chandan G.
be71e276-a546-4d98-8fad-95c5dc0869cf
Jeffery, Nicholas D.
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Brennan, Timothy J.
289da25d-cab5-443f-bf94-8d0283048fde
Gibson-Corley, Katherine N.
3a1139d0-2609-4e4a-9654-d387b2f4b038
Utz, Marcel
c84ed64c-9e89-4051-af39-d401e423891b
Gillies, George T.
da76e515-9215-469d-82a4-911492c8fef4
Howard, Matthew A.
b02147c5-1c4f-4aba-8503-f3b6ea8dc166
15 November 2012
Flouty, Oliver
dc72ff69-2115-4789-86cb-c37a405c1d50
Oya, Hiroyuki
534a174e-9891-4b71-8c5e-76de42e52304
Kawasaki, Hiroto
8432625b-d39d-4115-8a8d-3a310e8089af
Wilson, Saul
728652d1-7bf6-49eb-996c-41b2576a7fda
Reddy, Chandan G.
be71e276-a546-4d98-8fad-95c5dc0869cf
Jeffery, Nicholas D.
41c52dbc-5c6d-4338-8afe-1c48c6095121
Brennan, Timothy J.
289da25d-cab5-443f-bf94-8d0283048fde
Gibson-Corley, Katherine N.
3a1139d0-2609-4e4a-9654-d387b2f4b038
Utz, Marcel
c84ed64c-9e89-4051-af39-d401e423891b
Gillies, George T.
da76e515-9215-469d-82a4-911492c8fef4
Howard, Matthew A.
b02147c5-1c4f-4aba-8503-f3b6ea8dc166
Flouty, Oliver, Oya, Hiroyuki, Kawasaki, Hiroto, Wilson, Saul, Reddy, Chandan G., Jeffery, Nicholas D., Brennan, Timothy J., Gibson-Corley, Katherine N., Utz, Marcel, Gillies, George T. and Howard, Matthew A.
(2012)
A new device concept for directly modulating spinal cord pathways: initialin vivoexperimental results.
Physiological Measurement, 33 (12), Autumn Issue, .
(doi:10.1088/0967-3334/33/12/2003).
(PMID:23151433)
Abstract
We describe a novel spinal cord (SC) stimulator that is designed to overcome a major shortcoming of existing stimulator devices: their restricted capacity to selectively activate targeted axons within the dorsal columns. This device overcomes that limitation by delivering electrical stimuli directly to the pial surface of the SC. Our goal in testing this device was to measure its ability to physiologically activate the SC and examine its capacity to modulate somatosensory evoked potentials (SSEPs) triggered by peripheral stimulation. In this acute study on adult sheep (n = 7), local field potentials were recorded from a grid placed in the subdural space of the right hemisphere during electrical stimulation of the left tibial nerve and the spinal cord. Large amplitude SSEPs (>200 µV) in response to SC stimulation were consistently obtained at stimulation strengths well below the thresholds inducing neural injury. Moreover, stimulation of the dorsal columns with signals employed routinely by devices in standard clinical use, e.g., 50 Hz, 0.2 ms pulse width, produced long-lasting changes (>4.5 h) in the SSEP patterns produced by subsequent tibial nerve stimulation. The results of these acute experiments demonstrate that this device can be safely secured to the SC surface and effectively activate somatosensory pathways.
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Published date: 15 November 2012
Keywords:
neuromodulation, spinal cord stimulation, intradural device
Organisations:
Magnetic Resonance
Identifiers
Local EPrints ID: 354141
URI: http://eprints.soton.ac.uk/id/eprint/354141
ISSN: 0967-3334
PURE UUID: d2c751ca-4194-4099-83b7-9354a1effce4
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Date deposited: 03 Jul 2013 10:30
Last modified: 15 Mar 2024 03:44
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Contributors
Author:
Oliver Flouty
Author:
Hiroyuki Oya
Author:
Hiroto Kawasaki
Author:
Saul Wilson
Author:
Chandan G. Reddy
Author:
Nicholas D. Jeffery
Author:
Timothy J. Brennan
Author:
Katherine N. Gibson-Corley
Author:
George T. Gillies
Author:
Matthew A. Howard
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