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J-GLOBAL ID:200901034226261079   Update date: Feb. 01, 2024

Yamada Hiroshi

ヤマダ ヒロシ | Yamada Hiroshi
Affiliation and department:
Kyushu Institute of Technology Graduate School of Life Science and Systems Engineering Department of Biological Functions Engineering

About Kyushu Institute of Technology Graduate School of Life Science and Systems Engineering Department of Biological Functions Engineering


Job title: Professor
Homepage URL  (2): http://www.life.kyutech.ac.jp/~yamada/http://www.life.kyutech.ac.jp/~yamada/index_e.html
Research field  (3): Machine materials and mechanics ,  Biomaterials ,  Biomedical engineering
Research keywords  (4): Medical Organism Engineering and Material Science of Organism ,  Materials for Machines and Strength of Materials ,  Interdisciprinary Area@Medical Organism Engineering and Material Science of Organism ,  Engineering@Machine Engineering@Materials for Machines and Strength of Materials
Research theme for competitive and other funds  (15):
  • 2020 - 2023 皮下の微細構造とゲルマットが体表面圧迫下のずれに対して血管閉塞を防ぐ効果の解明
  • 2017 - 2020 Quantitative elucidation of mechanical factors that cause vascular occlusion in soft tissues and the effect of mattresses on pressure ulcer prevention
  • 2014 - 2017 ヒト剖検例を用いた粥状動脈硬化病変部の不均質性が損傷・破裂に及ぼす影響の解明
  • 2011 - 2014 剖検例ヒト頸動脈によるプラーク破裂に関わる材料力学情報と病理学情報との関係の解明
  • 2008 - 2011 虚血環境模擬による皮膚細胞の経時的応答評価と物理環境調節による褥瘡遅延の検討
Show all
Papers (81):
  • Subraya Krishna Bhat, Hiroshi Yamada. Mechanical characterization of dissected and dilated human ascending aorta using Fung-type hyperelastic models with pre-identified initial tangent moduli for low-stress distensibility. Journal of the Mechanical Behavior of Biomedical Materials. 2022. 125
  • Fuwa Y, Hasan W.Z.W, Yamada H. Measurement and finite element analysis of the load-dependent pressure redistribution behavior of various types of mattresses. Journal of Mechanics in Medicine and Biology. 2020. 20. 5
  • Bhat S.K, Sakata N, Yamada H. Identification of uniaxial deformation behavior and its initial tangent modulus for atheromatous intima in the human carotid artery and thoracic aorta using three-parameter isotropic hyperelastic models. Journal of Mechanics in Medicine and Biology. 2020. 20. 3
  • N. Nishida, H. Aoki, S. Ohno-Urabe, M. Nishihara, A. Furusho, S. Hirakata, M. Hayashi, S. Ito, H. Yamada, Y. Hirata, et al. High Salt intake worsens aortic dissection in mice: Involvement of IL (Interleukin)-17A-dependent ECM (extracellular matrix) metabolism. Arteriosclerosis, Thrombosis, and Vascular Biology. 2020. 40. 1. 189-205
  • S. K. Bhat, H. Yamada, N. Sakata. Finite element modelling of a bulging behavior in a cerebral artery with dissection. CMBE19 Proceedings, 6th International Conference on Computational & Mathematical Biomedical Engineering. 2019. 838-841
more...
MISC (3):
Patents (5):
Books (2):
  • Fundamentals of vascular bio-fluid and solid mechanics
    K. Tanishita, K. Yamamoto (Eds.), Vascular Engineering: New Prospects of Vascular Medicine and Biology with a Multidiscipline Approach, Springer Japan 2016 ISBN:9784431548010
  • Fundamental mechanincs and biomechanics
    Corona Publishing Co., Ltd. 2012 ISBN:9784339072303
Lectures and oral presentations  (175):
  • Initial tangent moduli in a hyperelastic model in stretch and shear of human tissues
    (6th Japan-Switzerland Workshop on Biomechanics 2023)
  • 皮膚のずれに対する皮下組織内の前腕橈側皮静脈の変形に関する有限要素解析
    (日本機械学会第35回バイオエンジニアリング講演会 2023)
  • 皮膚表面の圧縮変位による前腕橈側皮静脈の閉塞に及ぼす静脈圧の影響(超音波画像と力の測定データの解析)
    (日本機械学会第33回バイオフロンティア講演会 2022)
  • 豚ロース皮下脂肪組織片の一定圧縮変位・繰返しせん断変位下での粘弾性応答
    (日本機械学会M&M2022材料力学カンファレンス 2022)
  • マットレスの力学特性評価のための球面状押付面及びその2つの局所表面領域の3軸力測定装置の開発
    (日本機械学会2022年度年次大会 2022)
more...
Education (1):
  • - 1989 Nagoya University Graduate School, Division of Engineering Department of Mechanical Engineering
Professional career (2):
  • 工学博士 (名古屋大学)
  • Doctor of Engineering (Nagoya University)
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