Naoki Ota scite author profile

Recent studies have shown that scalp electroencephalogram (EEG) based brain-computer interface (BCI) has a great potential for motor rehabilitation in stroke patients with severe hemiplegia. However, key elements in BCI architecture for functional recovery has yet to be clear. We in this study focused on the type of feedback to the patients, which is given contingently to their motor-related EEG in a BCI context. The efficacy of visual and somatosensory feedbacks was compared by a two-group study with the chronic stroke patients who are suffering with severe motor hemiplegia. Twelve patients were asked an attempt of finger opening in the affected side repeatedly, and the event-related desynchronization (ERD) in EEG of alpha and beta rhythms was monitored over bilateral parietal regions. Six patients were received a simple visual feedback in which the hand open/grasp picture on screen was animated at eye level, following significant ERD. Six patients were received a somatosensory feedback in which the motor-driven orthosis was triggered to extend the paralyzed fingers from 90 to 50°. All the participants received 1-h BCI treatment with 12–20 training days. After the training period, while no changes in clinical scores and electromyographic (EMG) activity were observed in visual feedback group after training, voluntary EMG activity was newly observed in the affected finger extensors in four cases and the clinical score of upper limb function in the affected side was also improved in three participants in somatosensory feedback group. Although the present study was conducted with a limited number of patients, these results imply that BCI training with somatosensory feedback could be more effective for rehabilitation than with visual feedback. This pilot trial positively encouraged further clinical BCI research using a controlled design.

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Effects of combined hot and hypoxic conditions on muscle blood flow and muscle oxygenation during repeated cycling sprints

Yamaguchi

Sumi

Hayashi

et al. 2021

Eur J Appl Physiol

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Augmented muscle deoxygenation during repeated sprint exercise with post‐exercise blood flow restriction

Ienaga

Yamaguchi

Ota

et al. 2022

Physiological Reports

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A number of teams and racket sports (e.g., soccer, basketball, and hockey) require the ability to perform repeated maximal sprints (<10 s) with a short recovery (<30 s). This ability is called as repeated-sprint ability (RSA) (Bishop et al., 2011;Girard et al., 2011). To improve RSA, repeated sprint-exercise (RSE) is recommended. Several previous studies reported that RSE increased maximal oxygen uptake ( V O 2peak ) and total work during the identical period of exercise, and improved muscle buffer capacity (Edge et al., 2005(Edge et al., , 2006. Especially, since muscle buffer capacity plays

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Effects of Reduced Carbohydrate Intake after Sprint Exercise on Breath Acetone Level

2020

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Assessment of breath acetone level may be an alternative procedure to evaluate change in fat metabolism. The purpose of the present study was to investigate the effect of insufficient carbohydrate (CHO) intake after sprint exercise on breath acetone level during post-exercise. Nine subjects conducted two trials, consisting of either reduced CHO trial (LOW trial) or normal CHO trial (NOR trial). In each trial, subjects visited to laboratory at 7:30 following an overnight fast to assess baseline breath acetone level. They commenced repeated sprint exercise from 17:00. After exercise, isoenergetic meals with different doses of CHO (LOW trial; 18% for CHO, 27% for protein, 55% for fat, NOR trial; 58% for CHO, 14% for protein, 28% for fat) were served. Breath acetone level was also monitored immediately before and after exercise, 1 h, 3 h, 4 h, and 15 h (on the following morning) after completing exercise. A significant higher breath acetone level was observed in LOW trial than in NOR trial 4 h after completion of exercise (NOR trial; 0.66 ppm, LOW trial; 0.9 ppm). However, breath acetone level did not differ on the following morning between two trials. Therefore, CHO intake following an exhaustive exercise affects breath acetone level during early phase of post-exercise.

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Naoki Ota

Effects of neurofeedback training with an electroencephalogram-based Brainâ€“Computer Interface for hand paralysis in patients with chronic stroke: A preliminary case series study

Brain-computer interface with somatosensory feedback improves functional recovery from severe hemiplegia due to chronic stroke

Effects of combined hot and hypoxic conditions on muscle blood flow and muscle oxygenation during repeated cycling sprints

Augmented muscle deoxygenation during repeated sprint exercise with post‐exercise blood flow restriction

Effects of Reduced Carbohydrate Intake after Sprint Exercise on Breath Acetone Level

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