The effect of transcutaneous spinal cord stimulation on the balance and neurophysiological characteristics of young healthy adults

Transcutaneous spinal cord stimulation (TSCS) is gaining popularity as a noninvasive alternative to epidural stimulation. However, there is still much to learn about its effects and utility in assisting recovery of motor control. In this study, we applied TSCS to healthy subjects concurrently perfor...

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Published inWearable technologies Vol. 5; p. e3
Main Authors Omofuma, Isirame, Carrera, Robert, King-Ori, Jayson, Agrawal, Sunil K.
Format Journal Article
LanguageEnglish
Published England Cambridge University Press 2024
Subjects
Balance
cable driven devices
Electromyography
Experiments
Intervention
Muscles
Neurophysiology
Perturbation
Physical training
postural control
Recovery
Rehabilitation
rehabilitation robotics
Special Issue: Neuromodulation, Robotics and Wearable Technologies
Spinal cord
Stimulation
transcutaneous spinal cord stimulation
Virtual reality
Young adults
postural control
transcutaneous spinal cord stimulation
rehabilitation robotics
cable driven devices
Online AccessGet full text
ISSN2631-7176
2631-7176
DOI10.1017/wtc.2023.24

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Abstract Transcutaneous spinal cord stimulation (TSCS) is gaining popularity as a noninvasive alternative to epidural stimulation. However, there is still much to learn about its effects and utility in assisting recovery of motor control. In this study, we applied TSCS to healthy subjects concurrently performing a functional training task to study its effects during a training intervention. We first carried out neurophysiological tests to characterize the H-reflex, H-reflex recovery, and posterior root muscle reflex thresholds, and then conducted balance tests, first without TSCS and then with TSCS. Balance tests included trunk perturbations in forward, backward, left, and right directions, and subjects’ balance was characterized by their response to force perturbations. A balance training task involved the subjects playing a catch-and-throw game in virtual reality (VR) while receiving trunk perturbations and TSCS. Balance tests with and without TSCS were conducted after the VR training to measure subjects’ post-training balance characteristics and then neurophysiological tests were carried out again. Statistical comparisons using t-tests between the balance and neurophysiological data collected before and after the VR training intervention found that the immediate effect of TSCS was to increase muscle activity during forward perturbations and to reduce balance performance in that direction. Muscle activity decreased after training and even more once TSCS was turned off. We thus observed an interaction of effects where TSCS increased muscle activity while the physical training decreased it.
AbstractList Transcutaneous spinal cord stimulation (TSCS) is gaining popularity as a noninvasive alternative to epidural stimulation. However, there is still much to learn about its effects and utility in assisting recovery of motor control. In this study, we applied TSCS to healthy subjects concurrently performing a functional training task to study its effects during a training intervention. We first carried out neurophysiological tests to characterize the H-reflex, H-reflex recovery, and posterior root muscle reflex thresholds, and then conducted balance tests, first without TSCS and then with TSCS. Balance tests included trunk perturbations in forward, backward, left, and right directions, and subjects' balance was characterized by their response to force perturbations. A balance training task involved the subjects playing a catch-and-throw game in virtual reality (VR) while receiving trunk perturbations and TSCS. Balance tests with and without TSCS were conducted after the VR training to measure subjects' post-training balance characteristics and then neurophysiological tests were carried out again. Statistical comparisons using t-tests between the balance and neurophysiological data collected before and after the VR training intervention found that the immediate effect of TSCS was to increase muscle activity during forward perturbations and to reduce balance performance in that direction. Muscle activity decreased after training and even more once TSCS was turned off. We thus observed an interaction of effects where TSCS increased muscle activity while the physical training decreased it.
Transcutaneous spinal cord stimulation (TSCS) is gaining popularity as a noninvasive alternative to epidural stimulation. However, there is still much to learn about its effects and utility in assisting recovery of motor control. In this study, we applied TSCS to healthy subjects concurrently performing a functional training task to study its effects during a training intervention. We first carried out neurophysiological tests to characterize the H-reflex, H-reflex recovery, and posterior root muscle reflex thresholds, and then conducted balance tests, first without TSCS and then with TSCS. Balance tests included trunk perturbations in forward, backward, left, and right directions, and subjects' balance was characterized by their response to force perturbations. A balance training task involved the subjects playing a catch-and-throw game in virtual reality (VR) while receiving trunk perturbations and TSCS. Balance tests with and without TSCS were conducted after the VR training to measure subjects' post-training balance characteristics and then neurophysiological tests were carried out again. Statistical comparisons using t-tests between the balance and neurophysiological data collected before and after the VR training intervention found that the immediate effect of TSCS was to increase muscle activity during forward perturbations and to reduce balance performance in that direction. Muscle activity decreased after training and even more once TSCS was turned off. We thus observed an interaction of effects where TSCS increased muscle activity while the physical training decreased it.Transcutaneous spinal cord stimulation (TSCS) is gaining popularity as a noninvasive alternative to epidural stimulation. However, there is still much to learn about its effects and utility in assisting recovery of motor control. In this study, we applied TSCS to healthy subjects concurrently performing a functional training task to study its effects during a training intervention. We first carried out neurophysiological tests to characterize the H-reflex, H-reflex recovery, and posterior root muscle reflex thresholds, and then conducted balance tests, first without TSCS and then with TSCS. Balance tests included trunk perturbations in forward, backward, left, and right directions, and subjects' balance was characterized by their response to force perturbations. A balance training task involved the subjects playing a catch-and-throw game in virtual reality (VR) while receiving trunk perturbations and TSCS. Balance tests with and without TSCS were conducted after the VR training to measure subjects' post-training balance characteristics and then neurophysiological tests were carried out again. Statistical comparisons using t-tests between the balance and neurophysiological data collected before and after the VR training intervention found that the immediate effect of TSCS was to increase muscle activity during forward perturbations and to reduce balance performance in that direction. Muscle activity decreased after training and even more once TSCS was turned off. We thus observed an interaction of effects where TSCS increased muscle activity while the physical training decreased it.
ArticleNumber e3
Author Omofuma, Isirame
Agrawal, Sunil K.
Carrera, Robert
King-Ori, Jayson
AuthorAffiliation 2 Deployment Roboticist , Covariant AI, Emeryville , CA , USA
1 Mechanical Engineering Department, Columbia University , New York , NY , USA
AuthorAffiliation_xml – name: 2 Deployment Roboticist , Covariant AI, Emeryville , CA , USA
– name: 1 Mechanical Engineering Department, Columbia University , New York , NY , USA
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  surname: Carrera
  fullname: Carrera, Robert
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  givenname: Jayson
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  givenname: Sunil K.
  surname: Agrawal
  fullname: Agrawal, Sunil K.
BackLink https://www.ncbi.nlm.nih.gov/pubmed/38486863$$D View this record in MEDLINE/PubMed
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CitedBy_id crossref_primary_10_3389_fnins_2024_1467182
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Keywords postural control
transcutaneous spinal cord stimulation
rehabilitation robotics
cable driven devices
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Snippet Transcutaneous spinal cord stimulation (TSCS) is gaining popularity as a noninvasive alternative to epidural stimulation. However, there is still much to learn...
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StartPage e3
SubjectTerms Balance
cable driven devices
Electromyography
Experiments
Intervention
Muscles
Neurophysiology
Perturbation
Physical training
postural control
Recovery
Rehabilitation
rehabilitation robotics
Special Issue: Neuromodulation, Robotics and Wearable Technologies
Spinal cord
Stimulation
transcutaneous spinal cord stimulation
Virtual reality
Young adults
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Title The effect of transcutaneous spinal cord stimulation on the balance and neurophysiological characteristics of young healthy adults
URI https://www.ncbi.nlm.nih.gov/pubmed/38486863
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