2016 - 2019 Study of neuronal activity, a molecular basis and a behavioral change related to chemoreceptor-mediated nausea and emesis.
2015 - 2019 Relations between occlusal discomfort syndrome and threshold of oral sensory - a quantitative magnetoencephalographic study by statistical Parametric Mapping(SPM) analysis-
2013 - 2015 Neural mechanisms of swallowing using cortico-muscular coherence, and effective neurorehabilitation training for dysphagia
2013 - 2015 Study for elucidation of the functional significance and molecular basis of area postrema neurons relating to the induction of emesis and the regulation of food intake.
2011 - 2013 Relations between occlusal discomfort and adaptability to oral appliances - a quantitative magnetoencephalographic study -
2010 - 2012 Evaluation of mandibular nerve injury using magnetoencephalography
2010 - 2012 Identification of emesis-inducing medullary neurons and anslysis of their functions.
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Papers (36):
Naomi Yagi, Ryosuke Nishihara, Naoko Kawamura, Hitoshi Maezawa, Hideki Kashioka, Masayuki Hirata, Toshio Yanagida, Yoshitada Sakai, Yutaka Hata. Development of Tracking System for Swallowing Movement using Optical Flow. 2024
Hitoshi Maezawa, Masayuki Hirata, Kazuya Yoshida. Neurophysiological Basis of Deep Brain Stimulation and Botulinum Neurotoxin Injection for Treating Oromandibular Dystonia. Toxins. 2022. 14. 11. 751-751
Hitoshi Maezawa, Momoka Fujimoto, Yutaka Hata, Masao Matsuhashi, Hiroaki Hashimoto, Hideki Kashioka, Toshio Yanagida, Masayuki Hirata. Functional cortical localization of tongue movements using corticokinematic coherence with a deep learning-assisted motion capture system. Scientific Reports. 2022. 12. 1. 388-388
Hiroaki Hashimoto, Seiji Kameda, Hitoshi Maezawa, Satoru Oshino, Naoki Tani, Hui Ming Khoo, Takufumi Yanagisawa, Toshiki Yoshimine, Haruhiko Kishima, Masayuki Hirata. A Swallowing Decoder Based on Deep Transfer Learning: AlexNet Classification of the Intracranial Electrocorticogram. International journal of neural systems. 2021. 2050056-2050056
Cortical mechanisms of tongue motor functions in humans : MEG and tDCS studies
(Neural Oscillation Conference 2019 2019)
Central sensorimotor processing of the tongue using magnetoencephalography
(International Symposium of MEI Center Osaka University Medical Engineering of Orofacial Laryngopharyngeal Function 2019)
Cortical Mechanisms of Tongue Sensorimotor Functions in Humans: an MEG Study
(Society for Neuroscience Satellite event - Neural mechanisms of feeding and swallowing and their applications to neural rehabilitation- 2017)
