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口（平成24年1月推計）． 8) Editorial review article: Mechanics of additively manufactured biomaterials, Journal of the Mechanical Behavior of Biomedical Materials, 70 (2017), 1–6. 9) A. Simchi: Direct laser sintering of metal powders, Mechanism, kinetics and microstructural features, Materials Science and Engineering A, 428 (2006), 148–158. 10) 平成２５年度「次世代医療機器評価指標検討会（厚生労働省）」三次元積層インプラント分野審査ＷＧ報告書，平成２６年３月，審査ＷＧ座長 吉川 秀樹． 11) 袴田昌高，馬渕守：スペーサー法による微細孔ポーラス金属の創製と特性評価，軽金属，62–8 (2012), 313–321. 12) Gibson, L.J., Ashby, M.F., 1988. Cellular Solids: Structure and Properties, second ed. Cambridge University Press, Cambridge, pp. 429–452. melting (EBM), Journal of the mechanical behavior of medical materials, 3 (2010), 249–259. 5) A. Cheng, A. Humayun, D.J. Cohen, B.D. Boyan, Z. Schwartz: Additively manufactured 3D porous Ti-6Al-4V constructs mimic trabecular bone structure and regulate osteoblast proliferation, differentiation and local factor production in a porosity and surface roughness dependent manner, Biofabrication, 6 (2014), 045007 (12pp). 6) 国立社会保障・人口問題研究所：日本の将来推計人7) L.E. Murr, S.M. Gaytan, F. Medina, H. Lopez, E. Martinez, B.I. Machado, D.H. Hernandez, L. Martinez, M.I. Lopez, R.B. Wicker, J. Bracke: Next-generation biomedical implants using additive manufacturing of complex, cellular and functional mesh arrays: Philosophical Transactions of the Royal Society A Mathematical Physical and Engineering Sciences, 368 (2010), 1999–2032. − 292 −