Preparation and characterization of nano-hydroxyapatite/polyvinyl alcohol gel composites

Journal Wuhan University of Technology, Materials Science Edition

Volumn 25, Issue 3, 2010, Pages 474-478

  Pan, Yusong ^a   Xiong, Dangsheng ^b  

^a ANHUI UNIVERSITY OF SCIENCE AND TECHNOLOGY   (China)

^b NANJING UNIVERSITY OF SCIENCE AND TECHNOLOGY   (China)

Author keywords

Freezing thawing; Microstructure; Morphology; Nano HA PVA gel composites

Indexed keywords

ARTICULAR CARTILAGE REPAIR; CRYSTALLINITIES; DISPERSANTS; DISTILLED WATER; FREEZE-THAW CYCLES; FREEZING-THAWING; FTIR; FTIR ANALYSIS; HIGH-CONTENT; IN-SITU SYNTHESIS; INTERFACIAL STRENGTH; MATRIX; NANO-HA; NANO-HYDROXYAPATITE; NANO-METER SCALE; POLYVINYL ALCOHOL GELS; SEM; TACTICITIES; TEM;

BIOLOGICAL MATERIALS; BIOMATERIALS; CARTILAGE; CHEMICAL BONDS; FREEZING; GELS; HYDROXYAPATITE; MECHANICAL PROPERTIES; MICROSTRUCTURE; MORPHOLOGY; THAWING; X RAY DIFFRACTION; X RAY DIFFRACTION ANALYSIS;

AGGLOMERATION;

EID: 77954741543     PISSN: 10002413     EISSN: None     Source Type: Journal    
DOI: 10.1007/s11595-010-0026-y     Document Type: Article

References (18)

1. Rebeccah J C, Ott R D, David N K. Friction Characteristics of a Potential Articular Cartilage Biomaterial[J]. Wear, 2003 (25): 1 064-1 068.
2. Shigo M, Katsuko S F, Takashi U, et al. Static and Dynamica Mechanical Properties of Extracellular Matrix Synthesized by Cultured Chondrocytes[J]. Mater. Sci. Eng. C, 2004(24): 425-429.
3. Karen J L B, Scott P, James F K. Biomaterial Developments for Bone Tissure Engineering[J]. Biomaterials, 2000 (21): 2 347-2 359.
4. Pan Y S, Xiong D S, Chen X L. Friction Characteristics of Poly (Vinyl Alcohol) Hydrogel as an Articular Cartilage Biomaterial[J]. Key Eng. Mater., 2007 (330-332): 1 297-1 300.
5. Noguchi T, Yamamuro T, Oka M. Poly (Vinyl Alcohol) Hydrogel as an Artificial Articular Cartilage: Evaluation of Biocompatibility[J]. Appl. Biomaterials, 1991, 2(2): 101-107.
6. Pan Y S, Xiong D S. Recent Development on Biotribology of Poly (Vinyl Alcohol) Hydrogel[J]. Tribology, 2006, 26(2): 188-192 (in Chinese).
7. Suciu A N, Iwatsubo T, Matsuda M. A Study upon Durability of the Artificial Knee Joint with PVA Hydrogel Cartilage[J]. JSME, Part C, 2004, 47(1): 199-208.
8. Stammen J A, Williams S, Ku D N. Mechanical Properties of a Novel PVA Hydrogel in Shear and Unconfined Compression[J]. Biomaterials, 2001 (22): 799-806.
9. Ahn E S, Gleason N J, Nakahira A. Nanostructure Processing of Hydroxyapatite-based Bioceramics[J]. Nano Letter, 2001, 1(3): 149-153.
10. Rosa R, Finizia A, Claudio D R, et al. X-ray Diffraction Analysis of Poly (Vinyl Alcohol) Hydrogels, Obtained by Freezing and Thawing Techniques[J]. Macromolecules, 2004 (37): 1 921-1 927.
11. Rusu V M, Ng C H, Wilke M, et al. Size-controlled Hydroxyapatite Nanoparitcles as Self-organized Organic- inorganic Composite Materials[J]. Biomaterials, 2005 (26): 5 414-5 426.
12. Nebahat D, Dilhan M K, Elvan B. Biocomposites of Nanohydroxyapatite with Collagen and Poly (Vinyl Alcohol)[J]. Colloids and Surfaces B: Biointerfaces, 2006 (48): 42-49.
13. Liu Y K, Houm D D, Wang G H. A Simple Wet Chemical Synthesis and Characterization of Hydroxyapatite Nanorods[J]. Mater. Chem. Phys., 2004 (86): 69-73.
14. Niu L T, Liu J X, Zhou J, et al. Preparation and Characterizaiton of Hydroxyapatite Extr-fine Powder by Using Polyvinyl Alcohol as Organic Modifier[J]. Dalian Institue of Light Industry, 2004, 23(4): 239-241(in Chinese).
15. 3OH) Nucleation at Silica Bioceramic Surfaces[J]. Phys. Chem. B, 2000, 104(18): 4 322-4 341.
16. Suprabha N, Arvind S. Systematic Evolution of a Porous Hydroxyapatite-Poly(vinylalcohol)-Gelatin Composite [J]. Colloids and surfaces B: Biointerfaces, 2004 (35): 29-32.
17. Chang M C, Tanaka J. FT-IR Study for Hydroxyapatite/Collagen Nanocomposites Cross-linked by Glutaraldehyde[J]. Biomaterials, 2002 (23): 4 811-4 818.
18. Chang M C, Ko C C, Douglas W H. Preparation of Hydroxyapatite-Gelatin Nanocomposites[J]. Biomaterials, 2003, 24(17): 2 853-2 862.