Literature DB >> 12763452

Preparation of poly(lactic acid) composites containing calcium carbonate (vaterite).

Toshihiro Kasuga1, Hirotaka Maeda, Katsuhito Kato, Masayuki Nogami, Ken-ichiro Hata, Minoru Ueda.   

Abstract

A new type of ceramic-polymer biomaterial having excellent apatite-forming ability in simulated body fluid was prepared by hot-pressing a mixture of poly(-L-lactic acid) (PLA) and calcium carbonate (vaterite). After PLA dissolved in methylene chloride was mixed with calcium carbonate consisting of vaterite, the mixture was dried completely and subsequently hot-pressed uniaxially under a pressure of 40 MPa at 180 degrees C. When 30 wt% vaterite was introduced, the modulus of elasticity was effectively improved by 3.5-6 GPa, which was about twice higher than the modulus of PLA. The composite showed no brittle fracture behavior and a comparably high bending strength of approximately 50 MPa. The composite containing 30 wt% vaterite formed a 5-15-microm-thick bonelike apatite layer on its surface after soaking in SBF at 37 degrees C even for 1-3d.

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Year:  2003        PMID: 12763452     DOI: 10.1016/s0142-9612(03)00190-x

Source DB:  PubMed          Journal:  Biomaterials        ISSN: 0142-9612            Impact factor:   12.479


  17 in total

1.  Fabrication and mechanical properties of PLA/HA composites: A study of in vitro degradation.

Authors:  J Russias; E Saiz; R K Nalla; K Gryn; R O Ritchie; A P Tomsia
Journal:  Mater Sci Eng C Biomim Supramol Syst       Date:  2006-09

2.  Nano-hydroxyapatite/poly(L-lactic acid) composite synthesized by a modified in situ precipitation: preparation and properties.

Authors:  C Y Zhang; H Lu; Z Zhuang; X P Wang; Q F Fang
Journal:  J Mater Sci Mater Med       Date:  2010-10-02       Impact factor: 3.896

3.  Preparation and mechanical properties of carbon fiber reinforced hydroxyapatite/polylactide biocomposites.

Authors:  Lie Shen; Hui Yang; Jia Ying; Fei Qiao; Mao Peng
Journal:  J Mater Sci Mater Med       Date:  2009-06-02       Impact factor: 3.896

Review 4.  Biomaterials in orthopaedics.

Authors:  M Navarro; A Michiardi; O Castaño; J A Planell
Journal:  J R Soc Interface       Date:  2008-10-06       Impact factor: 4.118

5.  Electrospun PLGA and β-TCP (Rebossis-85) in a Lapine Posterolateral Fusion Model.

Authors:  J Christopher Nepola; Emily B Petersen; Nicole DeVries-Watson; Nicole Grosland; Douglas C Fredericks
Journal:  Iowa Orthop J       Date:  2019

6.  Poly(L-lactic acid)/vaterite composite coatings on metallic magnesium.

Authors:  Shinya Yamada; Akiko Yamamoto; Toshihiro Kasuga
Journal:  J Mater Sci Mater Med       Date:  2014-08-06       Impact factor: 3.896

7.  Solvent free production of porous PDLLA/calcium carbonate composite scaffolds improves the release of bone growth factors.

Authors:  H Schliephake; M Vucak; J Boven; S Backhaus; T Annen; M Epple
Journal:  Oral Maxillofac Surg       Date:  2014-09-03

8.  Effect of low-temperature plasma treatment of electrospun polycaprolactone fibrous scaffolds on calcium carbonate mineralisation.

Authors:  Anna A Ivanova; Dina S Syromotina; Svetlana N Shkarina; Roman Shkarin; Angelica Cecilia; Venera Weinhardt; Tilo Baumbach; Mariia S Saveleva; Dmitry A Gorin; Timothy E L Douglas; Bogdan V Parakhonskiy; Andre G Skirtach; Pieter Cools; Nathalie De Geyter; Rino Morent; C Oehr; Maria A Surmeneva; Roman A Surmenev
Journal:  RSC Adv       Date:  2018-11-22       Impact factor: 3.361

Review 9.  Segmental bone defects: from cellular and molecular pathways to the development of novel biological treatments.

Authors:  Spyros G Pneumaticos; Georgios K Triantafyllopoulos; Efthimia K Basdra; Athanasios G Papavassiliou
Journal:  J Cell Mol Med       Date:  2010-11       Impact factor: 5.310

10.  Degradation and osteogenic potential of a novel poly(lactic acid)/nano-sized β-tricalcium phosphate scaffold.

Authors:  Lu Cao; Ping-Guo Duan; Hui-Ren Wang; Xi-Lei Li; Feng-Lai Yuan; Zhong-Yong Fan; Su-Ming Li; Jian Dong
Journal:  Int J Nanomedicine       Date:  2012-11-28
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