Poststroke upper-limb rehabilitation using 5 to 7 inserted microstimulators: implant procedure, safety and efficacy for restoration of function
Poststroke upper-limb rehabilitation using 5 to 7 inserted microstimulators: implant procedure, safety and efficacy for restoration of function
Objective: To investigate the feasibility of implanting microstimulators to deliver programmed nerve stimulation for sequenced muscle activation to recover arm-hand functions.
Design: By using a minimally invasive procedure and local anesthesia, 5 to 7 microstimulators can be safely and comfortably implanted adjacent to targeted radial nerve branches in the arm and forearm of 7 subjects with poststroke paresis. The microstimulators' position should remain stable with no tissue infection and can be programmed to produce effective personalized functional muscle activity with no discomfort for a preliminary 12-week study. Clinical testing, before and after the study, is reported in the accompanying study.
Setting: Microstimulator implantations in a sterile operating room.
Participants: Seven adults, with poststroke hemiparesis of 12 months or more.
Intervention: Under local anesthesia, a stimulating probe was inserted to identify radial nerve branches. Microstimulators were inserted by using an introducer and were retrievable for 6 days by attached suture. Each device was powered via a radiofrequency link from 2 external cuff coils connected to a control unit.
Main Outcome Measures: To achieve low threshold values at the target sites with minimal implant discomfort. Microstimulators and external equipment were monitored over 12 weeks of exercise.
Results: Seven subjects were implanted with 41 microstimulators, 5 to 7 per subject, taking 3.5 to 6 hours. Implantation pain levels were 20% more than anticipated. No infections or microstimulator failures occurred. Mean nerve thresholds ranged between 4.0 to 7.7?coulomb/cm2/phase over 90 days, indicating that cathodes were within 2 to 4mm of target sites. In 1 subject, 2 additional microstimulators were inserted.
Conclusions: Microstimulators were safely implanted with no infection or failure. The system was reliable and programmed effectively to perform exercises at home for functional restoration.
arm, prosthesis implantation, radial nerve, rehabilitation, stroke
1907-1912
Davis, Ross
27782d5d-16c7-4f46-bb63-1f4bb30cb299
Sparrow, Owen
4558b4bd-9537-47e5-87ec-d87de41316bd
Cosendai, Gregoire
a7b246d3-cfe6-48dd-b195-716836029fce
Burridge, Jane H.
0110e9ea-0884-4982-a003-cb6307f38f64
Wulff, Christian
00656056-8095-490f-a78d-7a2272df4e68
Turk, Ruth
9bb21965-6f9f-4c9c-8505-94df8e168f52
Schulman, Joseph
7a86b6d4-588d-4071-b713-1b7eaac951a5
October 2008
Davis, Ross
27782d5d-16c7-4f46-bb63-1f4bb30cb299
Sparrow, Owen
4558b4bd-9537-47e5-87ec-d87de41316bd
Cosendai, Gregoire
a7b246d3-cfe6-48dd-b195-716836029fce
Burridge, Jane H.
0110e9ea-0884-4982-a003-cb6307f38f64
Wulff, Christian
00656056-8095-490f-a78d-7a2272df4e68
Turk, Ruth
9bb21965-6f9f-4c9c-8505-94df8e168f52
Schulman, Joseph
7a86b6d4-588d-4071-b713-1b7eaac951a5
Davis, Ross, Sparrow, Owen, Cosendai, Gregoire, Burridge, Jane H., Wulff, Christian, Turk, Ruth and Schulman, Joseph
(2008)
Poststroke upper-limb rehabilitation using 5 to 7 inserted microstimulators: implant procedure, safety and efficacy for restoration of function.
Archives of Physical Medicine and Rehabilitation, 89 (10), .
(doi:10.1016/j.apmr.2008.05.010).
Abstract
Objective: To investigate the feasibility of implanting microstimulators to deliver programmed nerve stimulation for sequenced muscle activation to recover arm-hand functions.
Design: By using a minimally invasive procedure and local anesthesia, 5 to 7 microstimulators can be safely and comfortably implanted adjacent to targeted radial nerve branches in the arm and forearm of 7 subjects with poststroke paresis. The microstimulators' position should remain stable with no tissue infection and can be programmed to produce effective personalized functional muscle activity with no discomfort for a preliminary 12-week study. Clinical testing, before and after the study, is reported in the accompanying study.
Setting: Microstimulator implantations in a sterile operating room.
Participants: Seven adults, with poststroke hemiparesis of 12 months or more.
Intervention: Under local anesthesia, a stimulating probe was inserted to identify radial nerve branches. Microstimulators were inserted by using an introducer and were retrievable for 6 days by attached suture. Each device was powered via a radiofrequency link from 2 external cuff coils connected to a control unit.
Main Outcome Measures: To achieve low threshold values at the target sites with minimal implant discomfort. Microstimulators and external equipment were monitored over 12 weeks of exercise.
Results: Seven subjects were implanted with 41 microstimulators, 5 to 7 per subject, taking 3.5 to 6 hours. Implantation pain levels were 20% more than anticipated. No infections or microstimulator failures occurred. Mean nerve thresholds ranged between 4.0 to 7.7?coulomb/cm2/phase over 90 days, indicating that cathodes were within 2 to 4mm of target sites. In 1 subject, 2 additional microstimulators were inserted.
Conclusions: Microstimulators were safely implanted with no infection or failure. The system was reliable and programmed effectively to perform exercises at home for functional restoration.
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More information
Published date: October 2008
Keywords:
arm, prosthesis implantation, radial nerve, rehabilitation, stroke
Identifiers
Local EPrints ID: 65351
URI: http://eprints.soton.ac.uk/id/eprint/65351
ISSN: 0003-9993
PURE UUID: b7ac9f51-dcd9-4fe9-8c8b-133ac953afaf
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Date deposited: 13 Feb 2009
Last modified: 16 Mar 2024 03:38
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Contributors
Author:
Ross Davis
Author:
Owen Sparrow
Author:
Gregoire Cosendai
Author:
Christian Wulff
Author:
Joseph Schulman
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