Modification and application characteristics of polylactide/hydroxyapatite composite as bone repairing material

Journal of Clinical Rehabilitative Tissue Engineering Research

Volumn 11, Issue 31, 2007, Pages 6244-6247

  Cui, Yang ^a   Liu, Yi ^a   Huang, Wei ^b  

^a THE FIRST HOSPITAL OF JILIN UNIVERSITY   (China)

^b Tumor Hospital of Jilin Province   (China)

Author keywords

[No Author keywords available]

Indexed keywords

COPOLYMER; HYDROXYAPATITE; POLYLACTIDE;

BIOCOMPATIBILITY; BONE REGENERATION; BONE REMODELING; CARTILAGE; INTERNET; MEDICAL RESEARCH; MEDLINE; ORTHOPEDICS; REVIEW; THERMOSTABILITY; TISSUE ENGINEERING;

EID: 34548732461     PISSN: 16738225     EISSN: None     Source Type: Journal    
DOI: None     Document Type: Review

References (32)

1. Chinese source.
2. Chinese source.
3. Rose FR, Oreffo RO. Bone tissue engineering: Hope vs hype. Biochem Biophys Res Commun 2002; 292(1): 1-7
4. Chinese source.
5. Ripamonti U, Crooks J, Kirkbride AN. Sintered porous hydroxyapatites with intrinsic osteoinductive activity: geometric induction of bone formation. South Afr J Sci 1999; 95(8): 335-343
6. Panda RN, Hsieh MF, Chung RJ, et al. FTIR, XRD, SEM and solid state NMR investigations of carbonate-containing hydroxyapatite nano-particles synthesized by hydroxide-gel technique. J Phys Chem Solid 2003; 64 (2): 193-199
7. Kutty MG, Olberding JP, Bhaduri S, et al. Physical and mechanical properties of microwave sintered nano-crystalline hydroxyapatite. Ceramic Eng Sci Proceedings 2002; 23: 637-644
8. Huang J, Brooks RA, Best SM. Evaluation of the biocompatibility of nano-sized carbonate-substituted hydroxyapatite after hydrothermal treatment. Key Eng Mater 2003; 33(3):261-265
9. Mike T, Masaka K, Imai Y, et al. Experience with freeze-dried PGLA/HA/ rhBMP-2 as a bone graft substitute. J Craniomaxillofac Surg 2000; 28(5): 294-299
10. Zhang SM, Liu J,Zhou W,et al. Interfacial fabrication and property of hydroxyapatite/polylactide resorbable bone fixation composites. Current Appl Phys 2005; 5: 516-518
11. Borum L, Wilson OC. Surface modification of hydroxyapatte. Part II. Silica. Biomaterials 2003; 24(21): 3681-3688
12. Liu Q, de Wijn JR, Bakker D, et al. Polyacids as bonding agents in hydroxyapatite polyester-ether (Polyactive 30/70) composites. J Mater Sci Mater Med 1998; 9(1):23-30
13. Wang X, Li Y, Wei J, et al. Development of biomimetic nano-hydroxyapatite/poly (hexamethylene adipamide) composites. Biomaterials 2002; 23(24):4787-4791
14. Dong GC, Sun JS, Yao CH, et al. A study on grafting and characterization of HMDI-modified calcium hydrogenphosphate. Biomaterials 2001; 22(23): 3179-3189
15. Borum-Nicholas L, Wilson OC Jr. Surface modification of hydroxyapatite. Part I. Dodecyl alcohol. Biomaterials 2003; 24(21): 3671-3679
16. Tanaka H, Futaoka M,Hino R. Surface modification of calcium hydroxyapatite with pyrophosphoric acid.J Colloid Interface Sci 2004;269 (2):358-363
17. Hong Z, Zhang P, He C,et al. Nano-composite of poly(L-lactide) and surface grafted hydroxyapatite: mechanical properties and biocompatibility. Biomaterials 2005; 26(32): 6296-6304
18. Qiu XY, Chen L, Hu JL, et al. Surface-modified hydroxyapatite linked by L-lactic acid oligomer in the absence of catalyst. J Polymer Sci: Part A: Polymer Chemistry 2005; 43(21): 5177-5185
19. Chinese source.
20. Cui FZ, Zhang Y, Wen HB, et al.Microstructure evolution in external callus of human long bone.Mater Sci Eng C 2000; 11(1):27-33
21. Khan YM, Katti DS, Laurencin CT. Novel polymer-synthesized ceramic composite-based system for bone repair: An in vitro evaluation. J Biomed Mater Res A 2004; 69(4): 728-737
22. Chinese source.
23. Agrawal CM, Ray RB. Biodegradable polymeric scaffolds for musculoskeletal tissue engineering. J Biomed Mater Res 2001; 55(2): 141-150
24. Kuboki Y, Jin Q, Takita H. Geometry of carriers controlling phenotypic expression in BMP-induced osteogenesis and chondrogenesis.J Bone Joint Surg Am 2001;83-A Suppl 1 (Pt 2):S105-115
25. Liao SS,Cui FZ.In vitro and in vivo degradation of mineralized collagen-based composite scaffold: nanohydroxyapatite/collagen/poly (L-lactide). Tissue Eng 2004; 10(1-2):73-80
26. Lewandrowskii KU, Bondre SP, Wise DL, et al. Enhanced bioactivity of a poly (propylene fumarate) bone graft substitute by augmentation with nano-hydroxyapatite. Biomed Mater Eng 2003;13(2):115-124
27. Ginebra MP, Driessens FC, Planell JA. Effect of the particle size on the micro and nanostructure features of a calcium phosphate cement: a kinetic analysis. Biomaterials 2004; 25(17):3453-3462
28. Liao S,Wang W, Uo M,et al. A three-layered nano-carbonated hydroxyapatite/collagen/PLGA composite membrane for guided tissue regeneration. Biomaterials 2005; 26(36): 7564-7571
29. Carlson GA, Dragoo JL,Samimi B,et al. Bacteriostatic properties of biomatrices against common orthopaedic pathogens. Biochem Biophys Res Commun 2004; 321(2): 472-478
30. Kim SS, Sun Park M,Jeon O, et al. Poly (lactide-co-glycolide)/ hydroxyapatite composite scaffolds for bone tissue engineering. Biomaterials 2006;27(8):1399-1409
31. Chinese source.
32. Chinese source.