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Yoshikiyo Akasaka
Researcher at Toho University
Publications - 97
Citations - 2733
Yoshikiyo Akasaka is an academic researcher from Toho University. The author has contributed to research in topics: Basic fibroblast growth factor & Lymphatic system. The author has an hindex of 28, co-authored 94 publications receiving 2488 citations.
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Journal ArticleDOI
Anatomic Properties of Myocardial Bridge Predisposing to Myocardial Infarction
Yukio Ishikawa,Yoshikiyo Akasaka,Koyu Suzuki,Mieko Fujiwara,Takafumi Ogawa,Kazuto Yamazaki,Hitoshi Niino,Michio Tanaka,Kentaro Ogata,Shojiroh Morinaga,Yoshiro Ebihara,Yutaka Kawahara,Hitoshi Sugiura,Takimoto T,Akio Komatsu,Toshihito Shinagawa,Kazuhiro Taki,Hideaki Satoh,Kazuaki Yamada,Maki Yanagida-Iida,Reiko Shimokawa,Kazuyuki Shimada,Chiaki Nishimura,Kinji Ito,Toshiharu Ishii +24 more
TL;DR: In the proximal LAD with an MB, MB muscle index is associated with a shift of coronary disease more proximally, an effect that may increase the risk of MI.
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Basic fibroblast growth factor reduces scar formation in acute incisional wounds
Ichiro Ono,Yoshikiyo Akasaka,Risa Kikuchi,Akiko Sakemoto,Takafumi Kamiya,Toshiharu Yamashita,Kowichi Jimbow +6 more
TL;DR: Postoperative administration of bFGF inhibited hypertrophic scarring and widening of remaining scars without any serious side effects.
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The effect of myocardial bridging of the coronary artery on vasoactive agents and atherosclerosis localization
TL;DR: The present findings clearly indicate that the expression of ET‐1 and ACE is directly related to the development of human coronary atherosclerosis in vivo through shear stress.
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Transplanted mesenchymal stem cells are effective for skin regeneration in acute cutaneous wounds.
Hiroko Satoh,Kazuo Kishi,Takara Tanaka,Yoshiaki Kubota,Tatsuo Nakajima,Yoshikiyo Akasaka,Toshiharu Ishii +6 more
TL;DR: Results indicate that transplanted MSCs can respond quite normally to wound healing and regenerate dermal structure.
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Combination of porous hydroxyapatite and cationic liposomes as a vector for BMP-2 gene therapy
Ichiro Ono,Toshiharu Yamashita,Hai-Ying Jin,Yoshinori Ito,Hirobumi Hamada,Yoshikiyo Akasaka,Masanori Nakasu,Tetsunori Ogawa,Kowichi Jimbow +8 more
TL;DR: The results confirm the clinical usefulness of gene therapy for bone formation, using the BMP-2 gene combined with cationic liposomes as a vector and it is possible that the effects of administering the B MP-2 genes will be improved by specializing the microstructure of scaffold for gene therapy.