Taenaka Yoshiyuki | Department Of Artificial Organs Research Institute National Cardiovascular Center
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概要
- TAENAKA Yoshiyukiの詳細を見る
- 同名の論文著者
- Department Of Artificial Organs Research Institute National Cardiovascular Centerの論文著者
関連著者
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Taenaka Yoshiyuki
Department Of Artificial Organs Research Institute National Cardiovascular Center
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Taenaka Yoshiyuki
国立循環器病センター研究所
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Tsukamoto Yuki
Nikkiso Co. Ltd.
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Taenaka Yoshiyuki
国立循環器病センター研究所 人工臓器部
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西田 正浩
産総研
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丸山 修
産総研
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山根 隆志
産業技術総合研究所
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山根 隆志
産総研
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山根 隆志
(独)産業技術総合研究所人間福祉医工学研究部門
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丸山 修
産業技術総合研究所
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TATSUMI Eisuke
Department of Artificial Organs, Research Institute, National Cardiovascular Center
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小阪 亮
産総研
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Homma Akihiko
Department Of Artificial Organs Research Institute National Cardiovascular Center
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Nishimura Takashi
東京大学医学部附属病院 循環器内科
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HOMMA Akihiko
Department of Artificial Organs, Research Institute, National Cardiovascular Center
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Lee Hwansung
Department Of Artificial Organs Research Institute National Cardiovascular Center
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Takano Hisateru
Toyobo Inc.
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TSUKIYA Tomonori
Department of Artificial Organs, National Cardiovascular Center, Research Institute
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Takano Hisateru
国立循環器病センター研究所
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Nishinaka Tomohiro
Department of Cardiovascular Surgery, Tokyo Women's Medical University
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TAKANO Hisateru
Department of Artificial Organs, Research Institute, National Cardiovascular Center
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妙中 義之
東京理科大学 理工学部
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TAKEWA Yoshiaki
Department of Artificial Organs, Research Institute, National Cardiovascular Center
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増澤 徹
茨城大学
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増澤 徹
茨城大学 工学部
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大久保 剛
三菱重工業(株)
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増澤 徹
茨大工
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Nagai Takayuki
Division Of Cardiology Department Of Internal Medicine National Cardiovascular Center
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妙中 義之
国循研
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Kitamura Soichiro
National Cardiovascular Center
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永井 文秀
茨大工
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永井 文秀
茨城大学
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大久保 剛
三菱重工
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大久 保剛
三菱重工
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西田 正浩
産業技術総合研究所
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妙中 義之
国立循環器病センター
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妙中 義之
国立循環器病センター人工臓器部
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川口 靖夫
東理大
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巽 英介
東京理科大学 理工研究 電気工
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Kyo Shunei
Department Of Cardiovascular Surgery Saitama Medical University
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妙中 義之
国立循環器病センター研究所先進医工学センター人工臓器部
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MIZUNO Toshihide
Department of Artificial Organs, Research Institute, National Cardiovascular Center
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Masuzawa Toru
大阪大学 医学系研究科心臓血管外科
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KITAMURA Soichiro
Department of Cardiovascular Surgery, National Cardiovascular Center
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山本 好宏
泉工医科工業
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桑名 克之
泉工医科工業
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小阪 亮
産業技術総合研究所
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Kamakura Shiro
Department Of Cardiovascular Surgery National Cardiovascular Center
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Kamakura Shiro
国立循環器病センター
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Satomi Kazuhiro
国立循環器病センター 心臓血管内科
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Suyama Kazuhiro
国立循環器病センター 心臓血管内科
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足立 吉數
茨城大農
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巽 英介
国循研
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Kasai Satoshi
国立循環器病センター 心臓血管内科
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Shirao Kuniaki
国立がんセンター中央病院 消化管内科グループ
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Shirao Kuniaki
Department Of Medical Oncology National Cancer Center Hospital
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Shirao Kuniaki
国立医薬品食品衛生研究所
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Shirao Kuniaki
Gastrointestinal Oncology Division National Cancer Center Hospital
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OHNISHI Hiroyuki
Department of Experimental Pathology and Tumor Biology, Nagoya City University, Graduate School of M
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Kohsaka Shun
神戸大学 医学部
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Nitta takashi
ICD committee of the Japanese Heart Rhythm Society
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Nakatani Takeshi
国立循環器病センター 心臓血管
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Shimomura Katsuro
国立循環器病センター研究所
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齊藤 栄
(株)ユー・コーポ
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Ono Minoru
東京大学 心臓外科学
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Kyo Shunei
公立昭和病院 心臓血管外科
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Kyo Shunei
Department Of Cardiac Surgery Saitama Medical School
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矢田 亨
東京理科大
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平井 収作
(株)ユー・コーポ
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足立 吉数
茨大農
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Kasai Satoshi
National Cardiovascular Center
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AKAGAWA Eiki
Department of Artificial Organs, Research Institute, National Cardiovascular Center
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KATAGIRI Nobumasa
The Advanced Medical Engineering Center, National Cardiovascular Center Research Institute
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TSUKIYA Tomonori
National Cardiovascular Center
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KAMIMURA Tadayuki
Department of Artificial Organs, Research Institute, National Cardiovascular Center
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UESHO Kunihiro
Department of Artificial Organs, National Cardiovascular Center Research Institute
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Ono Minoru
Tokyo University
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河村 洋
諏訪東京理科大学
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山海 嘉之
筑波大学大学院 システム情報工学研究科
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筒井 達夫
筑波大外科
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筒井 達夫
筑波大
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筒井 達夫
筑波大学 外科
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Kamakura Shiro
神戸大学 医学部
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Kikuchi Kenjiro
The 2nd Department Of Internal Medicine Sapporo Medical College
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足立 吉數
茨大農
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築谷 朋典
国循研
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築谷 朋典
国立循環病センター研究所人工臓器部
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大島 郁也
茨大工
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大島 郁也
茨城大
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Komamura Kazuo
Department Of Cardiovascular Dynamics Research Institute National Cardiovascular Center
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長田 俊幸
三菱重工業(株)
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Kataoka Keiichiro
Kumamoto Ami Study Group
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Kawamura Keishiro
Department Of Cardiology Sakakibara Heart Institute
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TAENAKA YOSHIYUKI
National Cardiovascular Center; Department of Artificial Organs
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Kayaba Kazunori
自治医科大学 地域医療学
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吉田 文彦
東理大
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矢田 亨
東理大
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斉藤 栄
ユー・コーポレーション
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平井 収作
ユー・コーポレーション
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Sase Kazuhiro
Juntendo University Medical School
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Ono Minoru
Department Of Cardiothoracic Surgery The University Of Tokyo
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Kinugawa Koh-ichiro
Department Of Cardiovascular Medicine Graduate School Of Medicine The University Of Tokyo
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YAMAMOTO Takahiko
Tokyo University of Science
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HOMMA Akihiko
Advanced Medical Engineering Center, National Cardiovascular Center, Research Institute
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TATSUMI Eisuke
Advanced Medical Engineering Center, National Cardiovascular Center, Research Institute
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TAENAKA Yoshiyuki
Advanced Medical Engineering Center, National Cardiovascular Center, Research Institute
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KATAGIRI Nobumasa
Department of Artificial Organs, National Cardiovascular Center, Research Institute
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SHIOYA Kyoko
Department of Artificial Organs, National Cardiovascular Center, Research Institute
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TATSUMI Eisuke
National Cardiovascular Center
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OHIKAWA Mitsuo
Department of Artificial Organs, National Cardiovascular Center Research Institute
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Masuzawa Toru
Department Of Mechanical Engineering Ibaraki University
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河村 洋
東京理科大学 理工学部機械工学科
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Ohikawa Mitsuo
Department Of Artificial Organs National Cardiovascular Center Research Institute
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NAKAMURA Makoto
Department of Gastroenterology, Toyokawa City Hospital
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河村 洋
東理大
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SATO Koichi
Department of Physics, Graduate School of Science, Kyoto University
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妙中 義之
国立循環器病センタ
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阿部 裕輔
東京大学大学院
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磯山 隆
東京大学大学院医学系研究科
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野城 真理
北里大学 大学院 医療系研究科
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河村 洋
東京理科大
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阿部 祐輔
東京大学
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Noda Takashi
国立循環器病センター 心臓血管内科
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松田 健一
茨大工
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野城 真理
北里大学医療衛生学部医療工学科臨床工学専攻電子工学研究室
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桑名 克之
泉工医科工業株式会社
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山本 好宏
泉工医科工業株式会社
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阿部 裕輔
東京大学
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磯山 隆
東京大学
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TAKANO Hisateru
National Cardiovascular Center, Research Institute
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小西 康夫
兵庫県立大学 大学院機械系工学専攻
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永井 文秀
茨城大工
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Lee Hwan
Department Of Orthopaedic Surgery Yonsei University College Of Medicine
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Nishimura Takashi
Cardiovascular Surgery, Tokyo University
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Nishimura Takashi
Department of Cardiovascular Surgery, Tokyo University
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Huang Yifei
Cardiac Technology Centre Block 4 Level 3 Royal North Shore Hospital
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増澤 徹
茨城大・工
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MATSUDA Ken-ichi
Department of Cell Biology, Institute of Development, Aging and Cancer
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Takano Hisateru
National Cardiovascular Center Research Institute
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Miyamoto Shinji
Department Of Cardiovascular Surgery Oita University Faculty Of Medicine
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Tsutsui Tatsuo
School Of Clinical Medicine University Of Tsukuba
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Koyanagi Hitoshi
Department Of Cardiovascular Surgery The National Cardiovascular Center
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Shirakawa Yukitoshi
Department of Cardiovascular Surgery, Osaka University Graduate school of Medicine
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日高 達哉
三菱重工
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Hunyor Stephen
Cardiac Technology Centre Block 4 Level 3 Royal North Shore Hospital
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Ito Kazuyuki
Nikkiso Co. Ltd.
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Koyanagi Hitoshi
Department Of Cardiovascular Surgery Heart Institute Of Japan Tokyo Women's Medical University
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Kita Toshiyuki
Department Of Respiratory Medicine National Hospital Organization Kanazawa Medical Center
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Kita Toshiyuki
Department Of Mechanical Engineering Ibaraki University
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YAMANE Takashi
National Institute of Advanced Industrial Science and Technology
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ITOH TSUYOSHI
Department of Surgery, Kyoto Prefectural Yosanoumi Hospital
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TAMURA Nozomi
Tokyo University of Science
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AOKI Hirooki
Tokyo University of Science
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KOSHIJI Kohji
Tokyo University of Science
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IKEUCHI Yoshiaki
Graduate School of Engineering, Osaka University
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YAMAMOTO Takao
Graduate School of Engineering, Osaka University
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YAMAMOTO Takahiko
Graduate School of Science and Technology, Tokyo University of Science
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KOSHIJI Kohji
Graduate School of Science and Technology, Tokyo University of Science
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HOMMA Akihiko
The Advanced Medical Engineering Center, National Cardiovascular Center Research Institute
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TAENAKA Yoshiyuki
The Advanced Medical Engineering Center, National Cardiovascular Center Research Institute
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TATSUMI Eisuke
The Advanced Medical Engineering Center, National Cardiovascular Center Research Institute
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AKAGAWA Eiki
The Advanced Medical Engineering Center, National Cardiovascular Center Research Institute
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LEE Hwansung
The Advanced Medical Engineering Center, National Cardiovascular Center Research Institute
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TAKEWA Yoshiaki
The Advanced Medical Engineering Center, National Cardiovascular Center Research Institute
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MIZUNO Toshihide
The Advanced Medical Engineering Center, National Cardiovascular Center Research Institute
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TSUKIYA Tomonori
The Advanced Medical Engineering Center, National Cardiovascular Center Research Institute
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KAKUTA Yukihide
The Advanced Medical Engineering Center, National Cardiovascular Center Research Institute
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SHIMOSAKI Isao
MedWill Technology, Inc.
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HAMADA Shigeru
IWAKI Co., Ltd.
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MUKAIBAYASHI Hiroshi
IWAKI Co., Ltd.
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IWAOKA Wataru
IWAKI Co., Ltd.
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KANSAKU Rei
Department of Cardiovascular Surgery, Juntendo University
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OGATA Yoshitaka
Terumo Corporation Research and Development Center
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ISHIZUKA Takanobu
Terumo Corporation Research and Development Center
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KASHIWABARA Susumu
Toyobo Inc.
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TANAKA Hidenori
Toyobo Inc.
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SATO Masaki
Toyobo Inc.
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TAENAKA Yoshiyuki
Toyobo Inc.
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MUSHIKA Sadahiko
Senko Medical Instrument Manufacturing
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HASHIGUCHI Yasuhiro
Senko Medical Instrument Manufacturing
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SUZUKI Akira
Senko Medical Instrument Manufacturing
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KAMIMURA Tadayuki
National Cardiovascular Center
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HOMMA Akihiko
National Cardiovascular Center
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KAKUTA Yukihide
National Cardiovascular Center
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LEE Hwansung
National Cardiovascular Center
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NAITO Hiroshi
Department of Artificial Organs, National Cardiovascular Center Research Institute
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TAKEWA Yoshinori
Department of Artificial Organs, National Cardiovascular Center Research Institute
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NISHIDA Masahiro
Institute for Human Science and Biomedical Engineering, National Institute of Advanced Industrial Sc
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YAMANE Takashi
Institute for Human Science and Biomedical Engineering, National Institute of Advanced Industrial Sc
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TSUKAMOTO Yuki
Nikkiso, Co., Ltd.
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KONISHI Yoshiaki
Nikkiso, Co., Ltd.
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MASUZAWA Toru
School of Engineering, Ibaraki University
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ENDO Seiko
National Cardiovascular Center
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FUKUDA Toshihide
Department of Artificial Organs, National Cardiovascular Center Research Institute
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OSHIKAWA Mitsuo
Department of Artificial Organs, National Cardiovascular Center Research Institute
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SHIOYA Yoshiaki
Department of Artificial Organs, National Cardiovascular Center Research Institute
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SHIBA Kenji
Department of Electrical Engineering, Faculty of Science and Technology, Tokyo University of Science
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KOSHIJI Kohji
Department of Electrical Engineering, Faculty of Science and Technology, Tokyo University of Science
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Endo S
Jichi Medical School Tochigi Jpn
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Matsuda Ken-ichi
Department Of Anatomy And Neurobiology Graduate School Of Medical Science Kyoto Prefectural Universi
著作論文
- モノピボット遠心血液ポンプの開発と血液適合性評価
- 20317 補助循環用動圧浮上式血液ポンプの血液適合性評価(人工臓器と医用工学(4),OS.8 人工臓器と医用工学)
- 20316 ステップ動圧軸受の最適化による動圧浮上遠心ポンプの血液適合性改善(人工臓器と医用工学(4),OS.8 人工臓器と医用工学)
- 0404 連続流型補助人工心臓の耐久試験法に関する検討(OS22:機械式循環補助)
- 0403 体内埋込型補助人工心臓用軸流ポンプの生体適合性評価(OS22:機械式循環補助)
- 20307 表面粗さを付加した回転せん断負荷装置内の流動解析(人工臓器と医用工学(2),OS.8 人工臓器と医用工学)
- 20306 せん断流れ場において血液接触面の表面粗さが血球破壊に与える影響(人工臓器と医用工学(2),OS.8 人工臓器と医用工学)
- 回転型血液ポンプの流れの可視化
- Investigation of unifying transcutaneous transformer for transmission of energy and information
- Observation of cavitation pits on a mechanical heart valve surface in an artificial heart used in in vivo testing
- Effects of leaflet geometry on the flow field in three bileaflet valves when installed in a pneumatic ventricular assist device
- Improvement in magnetic field immunity of externally-coupled transcutaneous energy transmission system for a totally implantable artificial heart
- Development of a compact wearable pneumatic drive unit for a ventricular assist device
- Experimental Study of a Novel Method of Cardiopulmonary Resuscitation Using a Combination of Percutaneous Cardiopulmonary Support and Liposome-encapsulated Hemoglobin (TRM645)
- Characteristics of cavitation intensity in a mechanical heart valve using a pulsatile device : synchronized analysis between visual images and pressure signals
- Oxygen metabolism during cardiopulmonary bypass with hemodilution using liposome-encapsulated hemoglobin in kid goats
- Up to 151 days of continuous animal perfusion with trivial heparin infusion by the application of a long-term durable antithrombogenic coating to a combination of a seal-less centrifugal pump and a diffusion membrane oxygenator
- Development of a compact portable driver for a pneumatic ventricular assist device
- Estimation of mechanical heart valve cavitation in a pneumatic ventricular assist device
- Mechanism for cavitation of monoleaflet and bileaflet valves in an artificial heart
- Monitoring of Diaphragm Position in Pulsatile Pnumatic Ventricular Assisted Device by Ultrasound Sensor : A New Method for Flow Measurement in VAD(Bioengineering)
- A Study on the Mechanism for Cavitation in the Mechanical Heart Valves with an Electrohydraulic Total Artificial Heart(Bioengineering)
- Observation of cavitation bubbles in monoleaflet mechanical heart valves
- Observation of alveolar fibrosis in a goat following venoarterial bypass for up to 5 months using extracorporeal membrane oxygenation
- Closing behavior of the mechanical heart valve in a total artificial heart
- Shear Evaluation by Quantitative Flow Visualization Near the Casing Surface of a Centrifugal Blood Pump(Reviewed Papers Accepted for Publication in this Special Issue)(Special Issue on Bioengineering)
- Proliferative changes in the media of the afferent arterioles under prolonged continuous-flow left heart bypass
- Analysis of specific absorption rate in biological tissue surrounding transcutaneous transformer for an artificial heart
- 1005 補助循環用動圧浮上式遠心ポンプの軸受隙間評価(OS2-(2) ライフサポートにおける工学技術,オーガナイズドセッション)
- Influence of varying conduit resistance on native heart function with nonpulsatile left heart bypass
- 1010 血液のせん断流れ場において金属材料表面粗さが溶血に及ぼす影響(OS2-(3) ライフサポートにおける工学技術,オーガナイズドセッション)
- Effect of prolonged nonpulsatile left heart bypass on vascular control status
- 0401 機械的血液循環補助の技術動向(OS22:機械式循環補助)
- 1009 表面粗さを付加した回転せん断付加装置内の数値解析(OS2-(3) ライフサポートにおける工学技術,オーガナイズドセッション)
- Visualization of flow structure in a centrifugal blood pump impeller
- Current status of development and in vivo evaluation of the National Cardiovascular Center electrohydraulic total artificial heart system
- Aortic reaction to prolonged nonpulsatile left heart bypass
- Pivot wear of a centrifugal blood pump developed for circulatory assist
- Transient response of remnant atrial heart rate to step changes in total artificial heart output
- Observation of cavitation pits on mechanical heart valve surfaces in an artificial heart used in in vitro testing
- Radial-Type Self-Bearing Motor for Nonpulsatile-Type Artificial Heart
- らせん流ポンプ内流れの可視化評価
- A102 遠心血液ポンプの数値流体力学解析による血液適合性評価(A1-1 生体流体工学1)
- 515 MERAモノピポット遠心ポンプの耐久性と血液適合性(OS5-(3)オーガナイズドセッション《ライフサポートにおける工学技術》)
- 8F-08 遠心血液ポンプのin vitro抗血栓試験における血液凝固因子濃度測定(OS-1(2) 循環器系のバイオメカニクスと医療機器設計(2))
- 8F-03 拍動流下における連続流型補助人工心臓の耐久性試験方法の改善(OS-1(2) 循環器系のバイオメカニクスと医療機器設計(1))
- 8F-01 小柄患者用補助人工心臓の技術開発の必要性(OS-1(2) 循環器系のバイオメカニクスと医療機器設計(1))
- 517 高粘度血液のせん断流れ場において表面粗さとせん断応力が溶血に及ぼす影響(OS5-(3)オーガナイズドセッション《ライフサポートにおける工学技術》)
- Initial in vivo evaluation of the newly developed axial flow turbo pump with hydrodynamic bearings
- A novel counterpulse drive mode of continuous-flow left ventricular assist devices can minimize intracircuit backward flow during pump weaning
- What is the ideal off-test trial for continuous-flow ventricular-assist-device explantation? Intracircuit back-flow analysis in a mock circulation model
- モノピボット遠心血液ポンプの実用化開発 : 製品につながる医工連携とは
- A novel counterpulsation mode of rotary left ventricular assist devices can enhance myocardial perfusion
- Neointima-inducing inflow cannula with titanium mesh for left ventricular assist device
- Computational fluid dynamic analysis of the flow field in the newly developed inflow cannula for a bridge-to-decision mechanical circulatory support
- Development and long-term in vivo testing of a novel skin-button system for preventing driveline infection of an implantable VAD system
- Development of a miniaturized mass-flow meter for an axial flow blood pump based on computational analysis
- 412 コーン・シリンダー型レオメーターを使用したせん断流れ場におけるウシ血液の溶血特性(OS5-(4)オーガナイズドセッション《ライフサポートにおける工学技術》)
- 414 遠心血液ポンプの動圧軸受形状がインペララジアル安定性と溶血に及ぼす影響(OS5-(4)オーガナイズドセッション《ライフサポートにおける工学技術》)
- 413 PIVによる曲がり管式質量流量計内の速度分布の計測(OS5-(4)オーガナイズドセッション《ライフサポートにおける工学技術》)
- 8E15 小型血液質量流量計の計測精度に及ぼす断面形状の影響(OS24 人工臓器の実用化について1)
- 8E14 拍動流下における軸流型補助人工心臓の耐久性試験方法の設計指標(OS24 人工臓器の実用化について1)
- S021011 拍動流下における連続流型補助人工心臓の耐久性試験方法に対する検討([S02101]人工臓器におけるバイオメカニクス(1))