H
Hideaki Kagami
Researcher at Matsumoto Dental University
Publications - 144
Citations - 4523
Hideaki Kagami is an academic researcher from Matsumoto Dental University. The author has contributed to research in topics: Mesenchymal stem cell & Bone regeneration. The author has an hindex of 35, co-authored 141 publications receiving 4246 citations. Previous affiliations of Hideaki Kagami include University of Texas at Dallas & Honda.
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Journal ArticleDOI
Experimental control of pancreatic development and maintenance.
Andrew M. Holland,Michael A. Hale,Hideaki Kagami,Hideaki Kagami,Robert E. Hammer,Raymond J. MacDonald +5 more
TL;DR: The feasibility of controlling the formation of an organ during embryogenesis in utero and the maintenance of the mature organ through the experimental manipulation of a key developmental regulator is demonstrated.
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Tissue Engineering Using Magnetite Nanoparticles and Magnetic Force: Heterotypic Layers of Cocultured Hepatocytes and Endothelial Cells
Akira Ito,Yohei Takizawa,Hiroyuki Honda,Ken Ichiro Hata,Hideaki Kagami,Minoru Ueda,Takeshi Kobayashi +6 more
TL;DR: The results suggest that this novel use of magnetite nanoparticles and magnetic force, which the authors refer to as "magnetic force-based tissue engineering" (Mag-TE), offers a major advancement in tissue engineering.
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Novel methodology for fabrication of tissue-engineered tubular constructs using magnetite nanoparticles and magnetic force.
Akira Ito,Kousuke Ino,Masao Hayashida,Takeshi Kobayashi,Takeshi Kobayashi,Hiroshi Matsunuma,Hideaki Kagami,Minoru Ueda,Hiroyuki Honda +8 more
TL;DR: The present results suggest that this novel methodology using magnetite nanoparticles and magnetic force, which is termed "magnetic force-based tissue engineering" (Mag-TE), is a promising approach to constructing tissue-engineered tubular structures.
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Performance of collagen sponge as a 3-D scaffold for tooth-tissue engineering
Yoshinori Sumita,Masaki J. Honda,Takayuki Ohara,Shuhei Tsuchiya,Shuhei Tsuchiya,Hiroshi Sagara,Hideaki Kagami,Minoru Ueda,Minoru Ueda +8 more
TL;DR: Results from in vivo experiments show conclusively that a collagen sponge scaffold allows tooth production with a higher degree of success than polyglycolic acid fiber mesh.
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Construction and harvest of multilayered keratinocyte sheets using magnetite nanoparticles and magnetic force.
Akira Ito,Masao Hayashida,Hiroyuki Honda,Ken Ichiro Hata,Hideaki Kagami,Minoru Ueda,Takeshi Kobayashi +6 more
TL;DR: The results suggest that this novel methodology using magnetite nanoparticles and magnetic force, which is termed "magnetic force-based tissue engineering" (Mag-TE), is a promising approach for tissue engineering.