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Journal of Biomaterials Science, Polymer Edition Volume 10, 1999 - Issue 4
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Articles

Degradation of composite materials composed of tricalcium phosphate and a new type of block polyester containing a poly(L-lactic acid) segment

Yohji Imai Institute for Medical and Dental Engineering, Tokyo Medical and Dental University, 2-3-10 Kanda-Surugadai, Tokyo 101-0062, Japan
,
Megumi Nagai Institute for Medical and Dental Engineering, Tokyo Medical and Dental University, 2-3-10 Kanda-Surugadai, Tokyo 101-0062, Japan
&
Mariko Watanabe Institute for Medical and Dental Engineering, Tokyo Medical and Dental University, 2-3-10 Kanda-Surugadai, Tokyo 101-0062, Japan
Pages 421-432 | Published online: 02 Apr 2012

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Yohji Imai, Aya Fukuzawa & Mariko Watanabe. (1999) Effect of blending tricalcium phosphate on hydrolytic degradation of a block polyester containing poly(L-lactic acid) segment. Journal of Biomaterials Science, Polymer Edition 10:7, pages 773-786.
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Articles from other publishers (13)

Hideto Tsuji. 2022. Poly(Lactic Acid). Poly(Lactic Acid) 467 516 .
Cijun Shuai, Li Yu, Wenjing Yang, Shuping Peng, Yancheng Zhong & Pei Feng. (2020) Phosphonic Acid Coupling Agent Modification of HAP Nanoparticles: Interfacial Effects in PLLA/HAP Bone Scaffold. Polymers 12:1, pages 199.
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Ismael Moreno-GomezIsmael Moreno-Gomez. 2019. A Phenomenological Mathematical Modelling Framework for the Degradation of Bioresorbable Composites. A Phenomenological Mathematical Modelling Framework for the Degradation of Bioresorbable Composites 89 150 .
Ismael Moreno-GomezIsmael Moreno-Gomez. 2019. A Phenomenological Mathematical Modelling Framework for the Degradation of Bioresorbable Composites. A Phenomenological Mathematical Modelling Framework for the Degradation of Bioresorbable Composites 7 23 .
Menghao Chen, Andrew J. Parsons, Reda M. Felfel, Christopher D. Rudd, Derek J. Irvine & Ifty Ahmed. (2016) In-situ polymerisation of fully bioresorbable polycaprolactone/phosphate glass fibre composites: In vitro degradation and mechanical properties. Journal of the Mechanical Behavior of Biomedical Materials 59, pages 78-89.
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Timo J. Lehtonen, Jukka U. Tuominen & Elina Hiekkanen. (2013) Resorbable composites with bioresorbable glass fibers for load-bearing applications. In vitro degradation and degradation mechanism. Acta Biomaterialia 9:1, pages 4868-4877.
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Guy Daculsi, Eric Goyenvalle, Ronan Cognet, Eric Aguado & Esa O. Suokas. (2011) Osteoconductive properties of poly(96L/4D-lactide)/beta-tricalcium phosphate in long term animal model. Biomaterials 32:12, pages 3166-3177.
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Lisa M. Ehrenfried, David Farrar & Ruth E. Cameron. (2010) The degradation properties of co-continuous calcium phosphate polyester composites: insights with synchrotron micro-computer tomography. Journal of The Royal Society Interface 7:suppl_5.
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Hideto Tsuji. 2010. Poly(Lactic Acid). Poly(Lactic Acid) 343 381 .
Lisa M. Ehrenfried, David Farrar & Ruth E. Cameron. (2009) Degradation Properties of Co-Continuous Calcium−Phosphate−Polyester Composites. Biomacromolecules 10:7, pages 1976-1985.
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M. El Fray, M. Feldmann, G. Ziegler & P. Prowans. (2007) Preparation and bioactivity of novel multiblock thermoplastic elastomer/tricalcium phosphate composites. Journal of Materials Science: Materials in Medicine 18:3, pages 501-506.
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G. Jiang, M.E. Evans, I.A. Jones, C.D. Rudd, C.A. Scotchford & G.S. Walker. (2005) Preparation of poly(ε-caprolactone)/continuous bioglass fibre composite using monomer transfer moulding for bone implant. Biomaterials 26:15, pages 2281-2288.
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M. Ara, M. Watanabe & Y. Imai. (2002) Effect of blending calcium compounds on hydrolytic degradation of poly(dl-lactic acid-co-glycolic acid). Biomaterials 23:12, pages 2479-2483.
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