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Main Authors: Cheng, Ruidong, Shao, Yuling, Li, Xi, Zhang, Li, Sheng, Zehao, Li, Chenyang, Xie, Xu, Mou, Huilin, Chen, Weidong, Zhang, Shaomin, Xu, Yuchen, Wang, Minmin
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.12229
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author Cheng, Ruidong
Shao, Yuling
Li, Xi
Zhang, Li
Sheng, Zehao
Li, Chenyang
Xie, Xu
Mou, Huilin
Chen, Weidong
Zhang, Shaomin
Xu, Yuchen
Wang, Minmin
author_facet Cheng, Ruidong
Shao, Yuling
Li, Xi
Zhang, Li
Sheng, Zehao
Li, Chenyang
Xie, Xu
Mou, Huilin
Chen, Weidong
Zhang, Shaomin
Xu, Yuchen
Wang, Minmin
contents Spinal cord injury (SCI) is a debilitating condition that often results in significant motor and sensory deficits, impacting the quality of life. Current rehabilitation methods, including physical therapy and electrical stimulation, offer variable outcomes and often require invasive procedures. Temporal interference (TI) stimulation has emerged as a novel, non-invasive neuromodulation technique capable of targeting deep neural structures with precision, providing a promising alternative for SCI rehabilitation. This study explores the efficacy of TI stimulation as a non-invasive approach for improving motor and sensory function in patients with incomplete SCI. Three male patients with incomplete cervical SCI (AIS D) participated in a two-week intervention consisting of 14 sessions of TI stimulation targeting their injury sites. TI stimulation was delivered using frequencies of 1000 Hz and 1040 Hz, with assessments conducted pre- and post-intervention, including motor and sensory evaluations, functional scales, and imaging studies.All participants demonstrated significant improvements in neurological function, motor strength, sensory perception, and functional independence. Neurological levels of injury shifted upward in all cases, with one patient improving from C5 to C7. Graded Redefined Assessment of Strength, Sensibility and Prehension (GRASSP) results shows additional strength, prehension and sensory outcomes obtained for the arm and hand functions of participants. Motor scores (UEMS and LEMS) increased, sensory scores for light touch and pin prick improved, and functional assessments, such as the Berg Balance Scale (BBS) and Barthel Index (BI), showed marked gains. Pain scores also decreased in two participants, highlighting additional therapeutic benefits.
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spellingShingle Efficacy of Temporal Interference Electrical Stimulation for Spinal Cord Injury Rehabilitation: A Case Series
Cheng, Ruidong
Shao, Yuling
Li, Xi
Zhang, Li
Sheng, Zehao
Li, Chenyang
Xie, Xu
Mou, Huilin
Chen, Weidong
Zhang, Shaomin
Xu, Yuchen
Wang, Minmin
Neurons and Cognition
Spinal cord injury (SCI) is a debilitating condition that often results in significant motor and sensory deficits, impacting the quality of life. Current rehabilitation methods, including physical therapy and electrical stimulation, offer variable outcomes and often require invasive procedures. Temporal interference (TI) stimulation has emerged as a novel, non-invasive neuromodulation technique capable of targeting deep neural structures with precision, providing a promising alternative for SCI rehabilitation. This study explores the efficacy of TI stimulation as a non-invasive approach for improving motor and sensory function in patients with incomplete SCI. Three male patients with incomplete cervical SCI (AIS D) participated in a two-week intervention consisting of 14 sessions of TI stimulation targeting their injury sites. TI stimulation was delivered using frequencies of 1000 Hz and 1040 Hz, with assessments conducted pre- and post-intervention, including motor and sensory evaluations, functional scales, and imaging studies.All participants demonstrated significant improvements in neurological function, motor strength, sensory perception, and functional independence. Neurological levels of injury shifted upward in all cases, with one patient improving from C5 to C7. Graded Redefined Assessment of Strength, Sensibility and Prehension (GRASSP) results shows additional strength, prehension and sensory outcomes obtained for the arm and hand functions of participants. Motor scores (UEMS and LEMS) increased, sensory scores for light touch and pin prick improved, and functional assessments, such as the Berg Balance Scale (BBS) and Barthel Index (BI), showed marked gains. Pain scores also decreased in two participants, highlighting additional therapeutic benefits.
title Efficacy of Temporal Interference Electrical Stimulation for Spinal Cord Injury Rehabilitation: A Case Series
topic Neurons and Cognition
url https://arxiv.org/abs/2412.12229