皮質脳波を用いたブレイン・マシン・インターフェース:臨床研究にむけた研究開発

Brain machine interfaces (BMIs) using intracranial electroencephalograms (electrocorticograms) are a promising candidate of the clinical application of high performance BMIs. We demonstrated that high frequency band activity is an excellent feature to decode movement onset and type, independent of t...

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Published inTransactions of Japanese Society for Medical and Biological Engineering Vol. 53; no. Supplement; p. S145_02
Main Authors 關, 達也, 横井, 浩史, 松下, 光次郎, 福間, 良平, 菅田, 陽怜, 平田, 雅之, 森下, 壮一郎, 鈴木, 隆文, 柳澤, 琢史, 安藤, 博士, シェイン, モリス
Format Journal Article
LanguageJapanese
Published 公益社団法人 日本生体医工学会 2015
Japanese Society for Medical and Biological Engineering
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ISSN1347-443X
1881-4379
DOI10.11239/jsmbe.53.S145_02

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Summary:Brain machine interfaces (BMIs) using intracranial electroencephalograms (electrocorticograms) are a promising candidate of the clinical application of high performance BMIs. We demonstrated that high frequency band activity is an excellent feature to decode movement onset and type, independent of the severity of motor dysfunction. Using the decoding features, real time control of a robotic arm was successfully performed by the patients that brain surface electrodes were placed to treat intractable epilepsy or intractable pain. We started a clinical trial in severe ALS patients using a wired BMI system involving the temporary placement of newly-developed personalized electrodes. A fully implantable wireless system is indispensable for clinical application of invasive BMIs to reduce infection risk. We are now developing the implantable system, which includes a 128-ch integrated amplifier circuit, 3D personalized high density electrodes, a wireless data transfer system and a wireless battery charger. We aim to put the implantable system to clinical use as soon as possible.
ISSN:1347-443X
1881-4379
DOI:10.11239/jsmbe.53.S145_02