Effects of self-action observation on standing balance learning: A change of brain activity detected using functional near-infrared spectroscopy
Background: Studies suggest that the observation of others' actions leads to enhanced motor skill learning. Objective: We examined whether others' or self-action observation is effective for standing balance learning. In addition, we examined cortical activation during action observation u...
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| Published in | NeuroRehabilitation (Reading, Mass.) Vol. 35; no. 3; pp. 579 - 585 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
London, England
SAGE Publications
01.01.2014
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1053-8135 1878-6448 1878-6448 |
| DOI | 10.3233/NRE-141153 |
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| Abstract | Background:
Studies suggest that the observation of others' actions leads to enhanced motor skill learning.
Objective:
We examined whether others' or self-action observation is effective for standing balance learning. In addition, we examined cortical activation during action observation using functional near-infrared spectroscopy.
Methods:
Thirty-nine healthy young subjects were assigned randomly to the Control, Other-Observation (O-O), and Self-Observation (S-O) groups. The subjects learned to stand on a tilting platform while maintaining a horizontal position. The Control group alternated each trial with a rest period. The O-O and S-O groups were provided with information related to their performance during the rest period: the O-O group observed another person, while the S-O group observed their previous performance. Cortical activation was assessed by changes of hemoglobin oxygenation (oxyHb).
Results:
A 2-way analysis of variance with repeated measures on balance performance revealed a significant difference in post-training (p < 0.05) and retention (p < 0.01) only in the S-O group. And an increase of oxyHb levels at post-training in the S-O group was observed in the supplementary motor area.
Conclusion:
Self-action observation improved standing balance and brain activity during training and at 24 h after training. |
|---|---|
| AbstractList | BACKGROUND: Studies suggest that the observation of others' actions leads to enhanced motor skill learning. OBJECTIVE: We examined whether others' or self-action observation is effective for standing balance learning. In addition, we examined cortical activation during action observation using functional near-infrared spectroscopy. METHODS: Thirty-nine healthy young subjects were assigned randomly to the Control, Other-Observation (O-O), and Self-Observation (S-O) groups. The subjects learned to stand on a tilting platform while maintaining a horizontal position. The Control group alternated each trial with a rest period. The O-O and S-O groups were provided with information related to their performance during the rest period: the O-O group observed another person, while the S-O group observed their previous performance. Cortical activation was assessed by changes of hemoglobin oxygenation (oxyHb). RESULTS: A 2-way analysis of variance with repeated measures on balance performance revealed a significant difference in post- training (p<0.05) and retention (p<0.01) only in the S-O group. And an increase of oxyHb levels at post-training in the S-O group was observed in the supplementary motor area. CONCLUSION: Self-action observation improved standing balance and brain activity during training and at 24 h after training. Background: Studies suggest that the observation of others' actions leads to enhanced motor skill learning. Objective: We examined whether others' or self-action observation is effective for standing balance learning. In addition, we examined cortical activation during action observation using functional near-infrared spectroscopy. Methods: Thirty-nine healthy young subjects were assigned randomly to the Control, Other-Observation (O-O), and Self-Observation (S-O) groups. The subjects learned to stand on a tilting platform while maintaining a horizontal position. The Control group alternated each trial with a rest period. The O-O and S-O groups were provided with information related to their performance during the rest period: the O-O group observed another person, while the S-O group observed their previous performance. Cortical activation was assessed by changes of hemoglobin oxygenation (oxyHb). Results: A 2-way analysis of variance with repeated measures on balance performance revealed a significant difference in post-training (p < 0.05) and retention (p < 0.01) only in the S-O group. And an increase of oxyHb levels at post-training in the S-O group was observed in the supplementary motor area. Conclusion: Self-action observation improved standing balance and brain activity during training and at 24 h after training. Studies suggest that the observation of others' actions leads to enhanced motor skill learning. We examined whether others' or self-action observation is effective for standing balance learning. In addition, we examined cortical activation during action observation using functional near-infrared spectroscopy. Thirty-nine healthy young subjects were assigned randomly to the Control, Other-Observation (O-O), and Self-Observation (S-O) groups. The subjects learned to stand on a tilting platform while maintaining a horizontal position. The Control group alternated each trial with a rest period. The O-O and S-O groups were provided with information related to their performance during the rest period: the O-O group observed another person, while the S-O group observed their previous performance. Cortical activation was assessed by changes of hemoglobin oxygenation (oxyHb). A 2-way analysis of variance with repeated measures on balance performance revealed a significant difference in post-training (p < 0.05) and retention (p < 0.01) only in the S-O group. And an increase of oxyHb levels at post-training in the S-O group was observed in the supplementary motor area. Self-action observation improved standing balance and brain activity during training and at 24 h after training. Studies suggest that the observation of others' actions leads to enhanced motor skill learning.BACKGROUNDStudies suggest that the observation of others' actions leads to enhanced motor skill learning.We examined whether others' or self-action observation is effective for standing balance learning. In addition, we examined cortical activation during action observation using functional near-infrared spectroscopy.OBJECTIVEWe examined whether others' or self-action observation is effective for standing balance learning. In addition, we examined cortical activation during action observation using functional near-infrared spectroscopy.Thirty-nine healthy young subjects were assigned randomly to the Control, Other-Observation (O-O), and Self-Observation (S-O) groups. The subjects learned to stand on a tilting platform while maintaining a horizontal position. The Control group alternated each trial with a rest period. The O-O and S-O groups were provided with information related to their performance during the rest period: the O-O group observed another person, while the S-O group observed their previous performance. Cortical activation was assessed by changes of hemoglobin oxygenation (oxyHb).METHODSThirty-nine healthy young subjects were assigned randomly to the Control, Other-Observation (O-O), and Self-Observation (S-O) groups. The subjects learned to stand on a tilting platform while maintaining a horizontal position. The Control group alternated each trial with a rest period. The O-O and S-O groups were provided with information related to their performance during the rest period: the O-O group observed another person, while the S-O group observed their previous performance. Cortical activation was assessed by changes of hemoglobin oxygenation (oxyHb).A 2-way analysis of variance with repeated measures on balance performance revealed a significant difference in post-training (p < 0.05) and retention (p < 0.01) only in the S-O group. And an increase of oxyHb levels at post-training in the S-O group was observed in the supplementary motor area.RESULTSA 2-way analysis of variance with repeated measures on balance performance revealed a significant difference in post-training (p < 0.05) and retention (p < 0.01) only in the S-O group. And an increase of oxyHb levels at post-training in the S-O group was observed in the supplementary motor area.Self-action observation improved standing balance and brain activity during training and at 24 h after training.CONCLUSIONSelf-action observation improved standing balance and brain activity during training and at 24 h after training. |
| Author | Hiyamizu, Makoto Maeoka, Hiroshi Matsuo, Atsushi Morioka, Shu |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/25248448$$D View this record in MEDLINE/PubMed |
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| Snippet | Background:
Studies suggest that the observation of others' actions leads to enhanced motor skill learning.
Objective:
We examined whether others' or... Studies suggest that the observation of others' actions leads to enhanced motor skill learning. We examined whether others' or self-action observation is... Studies suggest that the observation of others' actions leads to enhanced motor skill learning.BACKGROUNDStudies suggest that the observation of others'... BACKGROUND: Studies suggest that the observation of others actions leads to enhanced motor skill learning. OBJECTIVE: We examined whether others or self-action... BACKGROUND: Studies suggest that the observation of others' actions leads to enhanced motor skill learning. OBJECTIVE: We examined whether others' or... |
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| SubjectTerms | Brain - physiology Cerebral Cortex - metabolism Cerebral Cortex - physiology Female Humans Learning - physiology Male Motor Skills - physiology Observation - methods Oxyhemoglobins - metabolism Postural Balance - physiology Spectroscopy, Near-Infrared - methods Young Adult |
| Title | Effects of self-action observation on standing balance learning: A change of brain activity detected using functional near-infrared spectroscopy |
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