Transcranial Direct Current Stimulation Over the Primary and Secondary Somatosensory Cortices Transiently Improves Tactile Spatial Discrimination in Stroke Patients

In healthy subjects, dual hemisphere transcranial direct current stimulation (tDCS) over the primary (S1) and secondary somatosensory cortices (S2) has been found to transiently enhance tactile performance. However, the effect of dual hemisphere tDCS on tactile performance in stroke patients with se...

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Published inFrontiers in neuroscience Vol. 10; p. 128
Main Authors Fujimoto, Shuhei, Kon, Noriko, Otaka, Yohei, Yamaguchi, Tomofumi, Nakayama, Takeo, Kondo, Kunitsugu, Ragert, Patrick, Tanaka, Satoshi
Format Journal Article
LanguageEnglish
Published Switzerland Frontiers Research Foundation 31.03.2016
Frontiers Media S.A
Subjects
Cortex (somatosensory)
Cortical Plasticity
Dysphagia
Electrical stimulation of the brain
Electrodes
ESB
Grating Orientation
Health care
inter-hemispheric inhibition
Medicine
NMR
Nuclear magnetic resonance
Palsy
Patients
Psychiatry
Rehabilitation
Spatial discrimination
Stroke
Tactile discrimination
Tactile stimuli
transcranial direct current stimulation (tDCS)
Transcranial magnetic stimulation (TMS)
Japan
Germany
grating orientation
cortical plasticity
palsy
inter-hemispheric inhibition (IHI)
transcranial direct current stimulation (tDCS)
transcranial magnetic stimulation (TMS)
Online AccessGet full text
ISSN1662-453X
1662-4548
1662-453X
DOI10.3389/fnins.2016.00128

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Abstract In healthy subjects, dual hemisphere transcranial direct current stimulation (tDCS) over the primary (S1) and secondary somatosensory cortices (S2) has been found to transiently enhance tactile performance. However, the effect of dual hemisphere tDCS on tactile performance in stroke patients with sensory deficits remains unknown. The purpose of this study was to investigate whether dual hemisphere tDCS over S1 and S2 could enhance tactile discrimination in stroke patients. We employed a double-blind, crossover, sham-controlled experimental design. Eight chronic stroke patients with sensory deficits participated in this study. We used a grating orientation task (GOT) to measure the tactile discriminative threshold of the affected and non-affected index fingers before, during, and 10 min after four tDCS conditions. For both the S1 and S2 conditions, we placed an anodal electrode over the lesioned hemisphere and a cathodal electrode over the opposite hemisphere. We applied tDCS at an intensity of 2 mA for 15 min in both S1 and S2 conditions. We included two sham conditions in which the positions of the electrodes and the current intensity were identical to that in the S1 and S2 conditions except that current was delivered for the initial 15 s only. We found that GOT thresholds for the affected index finger during and 10 min after the S1 and S2 conditions were significantly lower compared with each sham condition. GOT thresholds were not significantly different between the S1 and S2 conditions at any time point. We concluded that dual-hemisphere tDCS over S1 and S2 can transiently enhance tactile discriminative task performance in chronic stroke patients with sensory dysfunction.
AbstractList In healthy subjects, dual hemisphere transcranial direct current stimulation (tDCS) over the primary (S1) and secondary somatosensory cortices (S2) has been found to transiently enhance tactile performance. However, the effect of dual hemisphere tDCS on tactile performance in stroke patients with sensory deficits remains unknown. The purpose of this study was to investigate whether dual hemisphere tDCS over S1 and S2 could enhance tactile discrimination in stroke patients. We employed a double-blind, crossover, sham-controlled experimental design. Eight chronic stroke patients with sensory deficits participated in this study. We used a grating orientation task (GOT) to measure the tactile discriminative threshold of the affected and non-affected index fingers before, during, and 10 min after four tDCS conditions. For both the S1 and S2 conditions, we placed an anodal electrode over the lesioned hemisphere and a cathodal electrode over the opposite hemisphere. We applied tDCS at an intensity of 2 mA for 15 min in both S1 and S2 conditions. We included two sham conditions in which the positions of the electrodes and the current intensity were identical to that in the S1 and S2 conditions except that current was delivered for the initial 15 s only. We found that GOT thresholds for the affected index finger during and 10 min after the S1 and S2 conditions were significantly lower compared with each sham condition. GOT thresholds were not significantly different between the S1 and S2 conditions at any time point. We concluded that dual-hemisphere tDCS over S1 and S2 can transiently enhance tactile discriminative task performance in chronic stroke patients with sensory dysfunction.In healthy subjects, dual hemisphere transcranial direct current stimulation (tDCS) over the primary (S1) and secondary somatosensory cortices (S2) has been found to transiently enhance tactile performance. However, the effect of dual hemisphere tDCS on tactile performance in stroke patients with sensory deficits remains unknown. The purpose of this study was to investigate whether dual hemisphere tDCS over S1 and S2 could enhance tactile discrimination in stroke patients. We employed a double-blind, crossover, sham-controlled experimental design. Eight chronic stroke patients with sensory deficits participated in this study. We used a grating orientation task (GOT) to measure the tactile discriminative threshold of the affected and non-affected index fingers before, during, and 10 min after four tDCS conditions. For both the S1 and S2 conditions, we placed an anodal electrode over the lesioned hemisphere and a cathodal electrode over the opposite hemisphere. We applied tDCS at an intensity of 2 mA for 15 min in both S1 and S2 conditions. We included two sham conditions in which the positions of the electrodes and the current intensity were identical to that in the S1 and S2 conditions except that current was delivered for the initial 15 s only. We found that GOT thresholds for the affected index finger during and 10 min after the S1 and S2 conditions were significantly lower compared with each sham condition. GOT thresholds were not significantly different between the S1 and S2 conditions at any time point. We concluded that dual-hemisphere tDCS over S1 and S2 can transiently enhance tactile discriminative task performance in chronic stroke patients with sensory dysfunction.
In healthy subjects, dual hemisphere transcranial direct current stimulation (tDCS) over the primary (S1) and secondary somatosensory cortices (S2) has been found to transiently enhance tactile performance. However, the effect of dual hemisphere tDCS on tactile performance in stroke patients with sensory deficits remains unknown. The purpose of this study was to investigate whether dual hemisphere tDCS over S1 and S2 could enhance tactile discrimination in stroke patients. We employed a double-blind, crossover, sham-controlled experimental design. Eight chronic stroke patients with sensory deficits participated in this study. We used a grating orientation task (GOT) to measure the tactile discriminative threshold of the affected and non-affected index fingers before, during, and 10 min after four tDCS conditions. For both the S1 and S2 conditions, we placed an anodal electrode over the lesioned hemisphere and a cathodal electrode over the opposite hemisphere. We applied tDCS at an intensity of 2 mA for 15 min in both S1 and S2 conditions. We included two sham conditions in which the positions of the electrodes and the current intensity were identical to that in the S1 and S2 conditions except that current was delivered for the initial 15 s only. We found that GOT thresholds for the affected index finger during and 10 min after the S1 and S2 conditions were significantly lower compared with each sham condition. GOT thresholds were not significantly different between the S1 and S2 conditions at any time point. We concluded that dual-hemisphere tDCS over S1 and S2 can transiently enhance tactile discriminative task performance in chronic stroke patients with sensory dysfunction.
In healthy subjects, dual hemisphere transcranial direct current stimulation (tDCS) over the primary (S1) and secondary somatosensory cortices (S2) has been found to transiently enhance tactile performance. However, the effect of dual hemisphere tDCS on tactile performance in stroke patients with sensory deficits remains unknown. The purpose of this study was to investigate whether dual hemisphere tDCS over S1 and S2 could enhance tactile discrimination in stroke patients. We employed a double-blind, crossover, sham-controlled experimental design. Eight chronic stroke patients with sensory deficits participated in this study. We used a grating orientation task (GOT) to measure the tactile discriminative threshold of the index finger on the lesioned side before, during, and 10 min after four tDCS conditions. For both the S1 and S2 conditions, we placed an anodal electrode over the lesioned hemisphere and a cathodal electrode over the opposite hemisphere. We applied tDCS at an intensity of 2 mA for 15 min in both S1 and S2 conditions. We included two sham conditions in which the positions of the electrodes and the current intensity were identical to that in the S1 and S2 conditions except that current was delivered for the initial 15 s only. We found that GOT thresholds during and 10 min after the S1 and S2 conditions were significantly lower compared with each sham condition. GOT thresholds were not significantly different between the S1 and S2 conditions at any time point. We concluded that dual-hemisphere tDCS over S1 and S2 can transiently enhance tactile discriminative task performance in chronic stroke patients with sensory dysfunction.
Author Fujimoto, Shuhei
Kondo, Kunitsugu
Yamaguchi, Tomofumi
Ragert, Patrick
Otaka, Yohei
Tanaka, Satoshi
Kon, Noriko
Nakayama, Takeo
AuthorAffiliation 2 Laboratory of Psychology, Hamamatsu University School of Medicine Shizuoka, Japan
3 Department of Public Health, Kyoto University Graduate School of Medicine Kyoto, Japan
1 Tokyo Bay Rehabilitation Hospital Chiba, Japan
4 Medley, Inc. Tokyo, Japan
6 Department of Neurology, Max Planck Institute for Human Cognitive and Brain Sciences Leipzig, Germany
5 Department of Rehabilitation Medicine, Keio University School of Medicine Tokyo, Japan
7 Faculty of Sport Science, Institute for General Kinesiology and Exercise Science, University of Leipzig Leipzig, Germany
AuthorAffiliation_xml – name: 1 Tokyo Bay Rehabilitation Hospital Chiba, Japan
– name: 3 Department of Public Health, Kyoto University Graduate School of Medicine Kyoto, Japan
– name: 7 Faculty of Sport Science, Institute for General Kinesiology and Exercise Science, University of Leipzig Leipzig, Germany
– name: 2 Laboratory of Psychology, Hamamatsu University School of Medicine Shizuoka, Japan
– name: 4 Medley, Inc. Tokyo, Japan
– name: 6 Department of Neurology, Max Planck Institute for Human Cognitive and Brain Sciences Leipzig, Germany
– name: 5 Department of Rehabilitation Medicine, Keio University School of Medicine Tokyo, Japan
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  givenname: Shuhei
  surname: Fujimoto
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/27064531$$D View this record in MEDLINE/PubMed
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Copyright © 2016 Fujimoto, Kon, Otaka, Yamaguchi, Nakayama, Kondo, Ragert and Tanaka. 2016 Fujimoto, Kon, Otaka, Yamaguchi, Nakayama, Kondo, Ragert and Tanaka
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Keywords grating orientation
cortical plasticity
palsy
inter-hemispheric inhibition (IHI)
transcranial direct current stimulation (tDCS)
transcranial magnetic stimulation (TMS)
Language English
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Snippet In healthy subjects, dual hemisphere transcranial direct current stimulation (tDCS) over the primary (S1) and secondary somatosensory cortices (S2) has been...
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StartPage 128
SubjectTerms Cortex (somatosensory)
Cortical Plasticity
Dysphagia
Electrical stimulation of the brain
Electrodes
ESB
Grating Orientation
Health care
inter-hemispheric inhibition
Medicine
NMR
Nuclear magnetic resonance
Palsy
Patients
Psychiatry
Rehabilitation
Spatial discrimination
Stroke
Tactile discrimination
Tactile stimuli
transcranial direct current stimulation (tDCS)
Transcranial magnetic stimulation (TMS)
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Title Transcranial Direct Current Stimulation Over the Primary and Secondary Somatosensory Cortices Transiently Improves Tactile Spatial Discrimination in Stroke Patients
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