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https://www.jsme.or.jp/bio/ bio-mc@jsme.or.jp
ISSN 1340 6590
No. 47 Autumn, September 1, 2018
1987
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(1) O. Reynolds: On the Theory of Lubrication and Its Application to Mr. Beauchamp Tower's Experiments, Including an Experimental Determination of the Viscosity of Olive Oil, Phil. Trans. Roy. Soc., 177 (1886) 157. (2) M.A. MacConail: The Friction of Intra-Articular Fibrocartilages, with Special Reference to the Knee and Inferior Radio-Ulnar Joints, J Anatomy, 66 (1932) 210. (3) D. Dowson: Lubrication and Wear in Living and Artificial Joints: A Symposium, Proc. Inst.Mech. Engrs. (Pt 3J), 181 (1967) 45. (4) R.S. Fein: Are Synovial Joints Squeeze Film Lubricated? Lubrication and Wear in Living and Artificial Human Joints, Proc. Inst.Mech. Engrs. (Pt. 3J), 181 (1966-67) 125. (5) T. Sasada, K. Mabuchi: Elastohydrodynamic Lubrication in Living and Artificial Joints, Proc. The 1975 Symposium on Biomaterials, (1975) 63. (6) D. Dowson, Z.M. Jin, Micro-Elastohydrodynamic Lubrication of Synovial Joints. Engineering in Medicine, 15 (1986) 63. (7) C.W. McCutchen: The Frictional Properties of Animal
Joints, Wear, 5 (1962) 1. (8) P.S. Walker, et al: Boosted Lubrication in Synovial Joints by Fluid Entrapment and Enrichment, Ann. Rhem. Dis., 27 (1968) 512. (9) , , :
, (C ), 53 (1989) 2123. (10) J. Charnley: The Lubrication of Animal Joints in Relation to Surgical Reconstruction by Arthroplasty, Ann. Rhem. Dis., 19 (1960) 10. (11) R. Holm: Contact Resistance Especially at Carbon Contact, Z. Tech. Phys., 3 (1922) 299, 320. (12) , , :
, (1988) 70. (13) V.C. Mow, et al: Biphasic Creep and Stress Relaxation of Articular Cartilage in Compression: Theory and Experiment, J. Biomech. Eng. (ASME), 102 (1980) 73. (14) G.A. Ateshian: The Role of Interstitial Fluid Pressurization in Articular Cartilage Lubrication, J. Biomech., 42 (2009) 1163. (15) LP Li, et al: Nonlinear Analysis of Cartilage in Unconfined Ramp Compression using a Fibril Reinforced Poroelastic Model, Clin. Biomech., 14 (1999) 673. (16) N Sakai, et al: Analysis of Biphasic Lubrication of Articular Cartilage Loaded by Cylindrical Indenter, Tribol. Int. 46 (2011) 12. (17) H. Fujie, K. Imade: Effects of Low Tangential Permeability in the Superficial Layer on the Frictional Property of Articular Cartilage, Biosurface and Biotribology, 1 (2015) 124. (18) : EHL
: , 21 (2000) 17. (19) K. Ikeuchi, H. Yoshida, et al: Aqueous Lubrication with Hydrated Macromolecules Attaching to Tissue Surface, Proc. 4th Int. Biotribology Forum, Fukuoka, (2003) 72. (20) P.S. Walker: Human Joints and Their Artificial Replacement, Charles C Thomas (1977) 219. (21) :
52 (2007) 573. (22) , ,
, 41, (2014) 156.
(23) S. Graindorge S, et al: Biphasic Surface Amorphous Layer Lubrication of Articular Cartilage. Medical Engineering & Physics, 27 (2005) 836. (24) T. Murakami, et al: Adaptive Multimode Lubrication Mechanism in Articular Cartilage and Artificial Hydrogel Cartilage, Proc. The Int. Conf. Biotribology (2012) 27.
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(1) Morimoto N., Nakatsukasa M., et. al, Femoral ontogeny
in humans and great apes and its implications for their last common ancestor, Scientific Reports, 8, 1930, 2018, DOI:10.1038/s41598-018-20410-4.
(2) L ovejoy, C. O., Suwa, G., et. al, The great divides: Ardipithecus ramidus reveals the postcrania of our last common ancestors with african apes, Science, Vol.326 (2009), pp.100-106.
(3) , , , Vol.12(2011),
pp.23-26. (4) WHO(World Health Organization), WHO
, (2007), pp.15-17. (5) ,
, 61(2017).
(6) , 2016 , (2016).
(7) , Sarcopenia & Frailty, , Vol.46.No.4(2009),
pp.279-285. (8)
,
(2012). (9) ,
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(10) , No.5754689 , 2015, (WO2011 / 096419, 2011).
(11) , , ,
, Vol.17, No.11(2015), pp.50-54. (12) Nagao M., Konno S., et. al, Frequency Response in
Bone Joint Acoustic Sensor Development, Tech.& H., C., Vol.6, No.23(2015), pp.715-727.
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kazuaki.nagayama.bio@vc.ibaraki.ac.jp sakan@tmu.ac.jp
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20092016
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University College London
Research across Borders: Engineering-Medicine and Japan-UK
Chinese Academy of Sciences Xiangqiong Zeng Skin Tribology and Its Application
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SymposiumKSME Bioengineering Division
2013 MOU
2015 5KSME Bioengineering Division Spring Conference
2016 1 282017 4 KSME Bioengineering
Division Spring Conference
31 2018 1214, 15
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4 88th World Congress of Biomechanics; WCB2018
2018 7 8 12
JSME session - Commemorative Lectures on Emerging Technologies for Biomechanics: Beyond the 120th Anniversary of the JSME 6
Outstanding Young Researcher Presentation4 WCB2022 2022
7 10 14
Asian-Pacific Association for Biomechanics, APAB APAB
President 2018 8th World
Congress of Biomechanics Yamaguchi MedalAPAB
2019APAB
Asian Pacific Conference on Biomechanics 10AP Biomech 2019 2019 11 1 3
deguchi@me.es.osaka-u.ac.jp yimai@me.es.osaka-u.ac.jp tanaka@me.es.osaka-u.ac.jp
takeo@mech.nagoya-u.ac.jp shigeo@me.es.osaka-u.ac.jp
JBSE (Journal of Biomechanical Science and Engineering) 2006
13
2017 (Vol. 12) 22 31 No. 1: Showcase of researches from JSME,
KSB, and TSB 10 No. 2: Showcase of researches from JSME,
KSB, and TSB (continued) 9 No. 3: 6 No. 4: 6
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Asian-Pacific Association for Biomechanics (APAB)
Korean Society of Biomechanics (KSB) Taiwanese Society of Biomechanics (TSB)
JBSEKSB-JSME Joint Issue TSB-JSME Joint Issue
2017 JSME KSB TSB
3 society joint issueShowcase of researches from JSME, KSB, and
TSB Thai Society of Mechanical Engineers Bioengineering Division
JBSE HP http://www.jbse.org/HP http://www.jsme.or.jp/bio/
JBSE 2010 Papers of the Year
Graphics of the Year 2017Papers of the Year 4
Yu NAKAMICHI, Souichi SAEKI, Takafumi HIRO, Masunori
MATSUZAKI, In vivo tomographically diagnosing technique of early cancer using 2-color optical coherence dosigraphy, Vol.12, No.2, Paper No. 16-00591 (2017).
Shinji DEGUCHI, Akira C. SAITO, Tsubasa S. MATSUI, Wenjing HUANG, Masaaki SATO, The opposite mechano-response of paxillin phosphorylation between subcellular and whole-cell levels is explained by a minimal model of cell-substrate adhesions, Vol.12, No.2, Paper No. 16-00670 (2017).
Hiromi MIYOSHI, Miki NISHIMURA, Yutaka YAMAGATA, Hao LIU, Yasuyoshi WATANABE, Michiko SUGAWARA, Cell migration guided by a groove with branches, Vol.12, No.1, Paper No. 16-00613 (2017).
Satoshi YAMAKAWA, Richard E. DEBSKI, Hiromichi FUJIE, Strain distribution in the anterior cruciate ligament in response to anterior drawer force to the knee, Vol.12, No.1, Paper No. 16-00582 (2017).
2017 Graphics of the Year 3
Daichi SUZUKI, Kenichi FUNAMOTO, Shin-ichiro
SUGIYAMA, Toshiyuki HAYASE, Suguru MIYAUCHI, Teiji TOMINAGA, Effects of upstream bifurcation and bend on the blood flow in a cerebral aneurysm, Vol.12, No.4, Paper No. 17-00189 (2017).
Hiromi MIYOSHI, Miki NISHIMURA, Yutaka YAMAGATA,
Hao LIU, Yasuyoshi WATANABE, Michiko SUGAWARA, Cell migration guided by a groove with branches, Vol.12, No.1, Paper No. 16-00613 (2017).
Akira TSUKAMOTO, Katie R. RYAN, Yusuke MITSUOKA,
Katsuko S. FURUKAWA, Takashi USHIDA, Cellular traction forces increase during consecutive mechanical stretching following traction force attenuation, Vol.12, No.3, Paper No. 17-00118 (2017).
2018 (Vol. 13) No. 1JSME, KSB TSB Associate
Editor 1
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sudo@sd.keio.ac.jp
201838
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omori@bfsl.mech.tohoku.ac.jp ujihara@med.kawasaki-m.ac.jp
otani@me.es.osaka-u.ac.jp tnakata@chiba-u.jp maki@biomed.t.u-tokyo.ac.jp
shinji.matsushita.mu@hitachi.com minamikawa.takeo@tokushima-u.ac.jp
syamada@eng.hokudai.ac.jp yarimitsu@tmu.ac.jp
20174
1
2017 3 16 15:00 16:30
COE 3F 30
Luca Brandt (Professor, KTH Mechanics, Sweden) "Numerical studies of particle suspensions in the laminar regime: inertial and deformability effects"
2
2017 3 23 13:30 14:30
30
Bastien Chopard (Professor, Computer Science Department, University of Geneva, Switzerland
A physical description of platelets deposition”
3
2017 9 1 13:00 14:00
30
KHALID M. SAQR (
RCCNB
Intracranial Aneurysm Hemodynamics: The Challenge of Turbulence and its Modeling”
4
2018 1 15 14:00 15:00
COE 3F 30
Allya P. Koesoema (Biomedical Engineering Program, School of Electrical Engineering and Informatics, Institut Teknologi Bandung)
eHealth for Humanitarian Purposes in Indonesia: Current Projects, Challenges and Opportunities”
980-8577 2-1-1 & FAX: 022-217-5253
E-mail:hayase@ifs.tohoku.ac.jp, www: http://reynolds.ifs.tohoku.ac.jp
2017 5
54
2017 4 13 11:00 12:00
A1-17 13 8
- -
18
JCHO
55
2017 4 14 11:00 12:00
A1-17 13 8
- -
15
Membrane Innovation in Micro, Mini and Macro Systems King Lun Yeung (Professor, The Hong Kong University of Science and Technology, Hong Kong)
56 2017 7 7 16:30 18:00
A1-17 13 8
- -
18 Mechanical Responses of Cultured Endothelial Cells in View
of Spatial Shear Stress Gradient Masaaki Sato (Professor, Tohoku University, Japan)
Bioengineering Strategies to Minimize Damage of Vulnerable Skin Tissue Dan Bader (Professor, University of Southampton, UK)
57 2017 9 25 11:00 12:00
A1-17 13 8
- -
27
Computational model of large-scale cell migration and proliferation under mechanical control and biochemical regulation: Cell motility, tissue patterning and wound healing Jie Liang (Professor, The University of Illinois at Chicago, USA)
58 2017 11 14 15:00 16:00
A1-17 13 8
- -30
Mechanics of aortic valve: from tissues to cells Ankush Aggarwal (Research Fellow, Swansea University, UK)
060-8628 13 8 TEL&FAX: 011-706-6424 E-mail: ohashi@eng.hokudai.ac.jp
2017 Institute of Computational Science, Lugano, Switzerland Igor V. Pivkin
Pivkin
42 2018 3 18 15 30 17 00
Titel: Cell biomechanics via particle-based methods”
Speaker: Dr. Igor V. Pivkin Associate Professor of Computational Science Institute of Computational Science, Lugano, Switzerland Abstract: Particle-based methods provide an efficient framework for modeling of cells in flow. We will present Dissipative Particle Dynamics (DPD) based models suitable for large-scale simulations in complex flow domains. Red blood cell and cancer cell models and their applications will be discussed.
466-8555
TEL FAX 052-735-7125 E-mail sugita.shukei@nitech.ac.jp
The 6th Joint Conference of Research Center for Advanced Biomechanics & Japan Institute of Electronics Packaging Kyushu Branch 2018 3 2
MEMS
6
Vincent Lee Enabling Technologies for Wearable Electronics and Future Bioelectronics
4 21
819-0395 744
092-802-3073 FAX 092-802-0001 E-mail : sawa@mech.kyushu-u.ac.jp
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49 2018 2 20 13:00~15:00
1 1-3 1. Numerical analysis of the rheology of suspension of red
blood cells Naoki Takeishi (Graduate School of Engineering Sci-ence, Osaka University)
2. Load-denpendent contractile properties of actin stress fibers
Tsubasa S. Matsui (Graduate School of Engineering Science, Osaka University) 3. Computational beam model and applications for
bio-medical engineering Tomohiro Otani (Graduate School of Engineering Sci-ence, Osaka University) 4. Molecular biomechanics and cellular mechanotrans-duction
in health and disease Mohammad R. K. Mofrad (Departments of Bioengi-neering and Mechanical Engineering, University of California Berkeley)
564-8680
Tel: 06-6368-1988 E-mail: otomo@kansai-u.ac.jp
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TEL: 077-548-2200 FAX: 077-548-2200 Email: hitosugi@belle.shiga-med.ac.jp
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NCIPC
BE 2018 LIFE
LIFE
LIFE LIFE
BE
BE BE
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2019
Advisory Board
Senior Advisory Board
N.C.I.P. Foundation
Editor-in-Chief Emeritus
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Japan- Taiwan Bilateral Meeting Asian Pacific Association for
Biomechanics Summer Biomechanics,
Bioengineering, and Biotransport Conference (SB3C)
Newsletter No.47
2018 7 1
HP
Bioengineering News No. 47 2018 9 1
tnaiki@bme.ous.ac.jp
sera@mech.kyushu-u.ac.jp
otake@jsme.or.jp
160-0016 35 5 Tel: 03-5360-3500 Fax: 03-5360-3508
MECHANICAL FINDER は骨を3次元構造物としてとらえ、これに有限要素法による構造解析を適用することで骨強度を評価するソフトウェアです
MECHANICAL FINDER は骨を3次元構造物としてとらえ、これに有限要素法による構造解析を適用することで骨強度を評価するソフトウェアです
MECHANICAL FINDER は骨を3次元構造物としてとらえ、これに有限要素法による構造解析を適用することで骨強度を評価するソフトウェアです