Ryota Hatanaka scite author profile

Ryota Hatanaka

5Publications

41Citation Statements Received

98Citation Statements Given

How they've been cited

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142

Affiliations

Osaka Institute of Technology, Osaka Prefecture University

Publications

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Asymmetry of Anticipatory Postural Adjustment During Gait Initiation

Hiraoka

Hatanaka

Nikaido

et al. 2014

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The purpose of this study was to investigate the asymmetry of anticipatory postural adjustment (APA) during gait initiation and to determine whether the process of choosing the initial swing leg affects APA during gait initiation. The participants initiated gait with the leg indicated by a start tone or initiated gait with the leg spontaneously chosen. The dependent variables of APA were not significantly different among the condition of initiating gait with the preferred leg indicated by the start tone, the condition of initiating gait with the non-preferred leg indicated by the start tone, and the condition of initiating gait with the leg spontaneously chosen. These findings fail to support the view that the process of choosing the initial swing leg affects APA during gait initiation. The lateral displacement of the center of pressure in the period in which shifting the center of pressure to the initial swing phase before initiating gait with the left leg indicated by the external cue was significantly larger than that when initiating gait with the right leg indicated by the external cue, and significantly larger than that when initiating gait with the leg spontaneously chosen. Weight shift to the initial swing side during APA during gait initiation was found to be asymmetrical when choosing the leg in response to an external cue.

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The effect of tonic contraction of the finger muscle on the motor cortical representation of the contracting adjacent muscle

Jono

Chujo

Nomura

et al. 2015

Somatosensory & Motor Research

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This study examined the effect of tonic contraction of the finger muscle on the motor cortical representation of the contracting adjacent muscle. A representation map of the motor evoked potential (MEP) in the first dorsal interosseous (FDI) and abductor digiti minimi (ADM) muscles was obtained with the subject at rest or during tonic contraction of the ADM muscle while the FDI muscle was tonically contracted. The center of gravity (COG) of the MEP map in the FDI muscle shifted medially during contraction of the ADM muscle. Motor cortical excitability in the motor cortical representation of the FDI muscle that did not overlap with the motor cortical representation of the ADM muscle was suppressed, but motor cortical excitability in the motor cortical representation of the FDI muscle overlapping with the motor cortical representation of the ADM muscle was not suppressed during contraction of the ADM muscle. The motor cortical representation of the FDI muscle not overlapping with the motor cortical representation of the ADM muscle was located lateral to that of the FDI muscle that did overlap with the motor cortical representation of the ADM muscle. Medial shift of the COG of the motor cortical representation of the contracting finger muscle induced by tonic contraction of the adjacent finger muscle must be due to suppression of motor cortical excitability in the lateral part of the representation, which is not shared by the adjacent representation.

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Different corticospinal control between discrete and rhythmic movement of the ankle

Goto¹,

Jono²,

Hatanaka³

et al. 2014

Front. Hum. Neurosci.

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We investigated differences in corticospinal and spinal control between discrete and rhythmic ankle movements. Motor evoked potentials (MEPs) in the tibialis anterior and soleus muscles and soleus H-reflex were elicited in the middle of the plantar flexion phase during discrete ankle movement or in the initial or later cycles of rhythmic ankle movement. The H-reflex was evoked at an intensity eliciting a small M-wave and MEPs were elicited at an intensity of 1.2 times the motor threshold of the soleus MEPs. Only trials in which background EMG level, ankle angle, and ankle velocity were similar among the movement conditions were included for data analysis. In addition, only trials with a similar M-wave were included for data analysis in the experiment evoking H-reflexes. Results showed that H reflex and MEP amplitudes in the soleus muscle during discrete movement were not significantly different from those during rhythmic movement. MEP amplitude in the tibialis anterior muscle during the later cycles of rhythmic movement was significantly larger than that during the initial cycle of the rhythmic movement or during discrete movement. Higher corticospinal excitability in the tibialis anterior muscle during the later cycles of rhythmic movement may reflect changes in corticospinal control from the initial cycle to the later cycles of rhythmic movement.

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Time and direction preparation of the long latency stretch reflex

Nikaido

Hatanaka

Jono

et al. 2016

Human Movement Science

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Improvement of Hydroxyapatite Deposition on Titanium Dental Implant Using ArF Laser Ablation: Effect on Osteoblast Biocompatibility In Vitro

Hashimoto¹,

Kusünoki²,

Hatanaka³

et al. 2006

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Ryota Hatanaka

Asymmetry of Anticipatory Postural Adjustment During Gait Initiation

The effect of tonic contraction of the finger muscle on the motor cortical representation of the contracting adjacent muscle

Different corticospinal control between discrete and rhythmic movement of the ankle

Time and direction preparation of the long latency stretch reflex

Improvement of Hydroxyapatite Deposition on Titanium Dental Implant Using ArF Laser Ablation: Effect on Osteoblast Biocompatibility In Vitro

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