Bone reconstruction

Burger C, Chu B (2007) Functional nanofibrous scaffolds for bone reconstruction. Colloid. Surf. B 56 134-141. [Pg.17]

Brunner TJ, Grass RN, Bohner M, Stark WJ (2007) Effect of particle size, crystal phase and crystallinity on the reactivity of tricalcium phosphate cements for bone reconstruction. Journal of Materials Chemistry 17 4072 1078. [Pg.258]

The excellent performance of GICs as dental materials has lead to their evaluation as biocompatible bone reconstruction materials. Initial results from in vivo and in vitro studies appear very promising [253-257]. [Pg.23]

Guo, H Wei, J., and Liu, C.S. (2006) Development of a degradable cement of calcium phosphate and calcium sulfate composite for bone reconstruction. Biomed. Mater, 1, 193-197. [Pg.107]

Kamitakahara, M., Ohtsuki, C., and Miyazaki, T. (2007) Coating of bone-like apatite for development of bioactive materials for bone reconstruction. Biomed. Mater, 2 (4), R17-R23. [Pg.238]

Wang, Y. W. et al. Evaluation of three-dimensional scaffolds made of blends of hydroxyapatite and poly(3-hydroxybutyrate-co-3-hydroxyhexanoate) for bone reconstruction 5iomafer 2005, 26(8), 899-904 (a). [Pg.38]

Alexander H., Parsons J.R., Ricci J.L., Bajpai P.K., and Weiss A.B. 1987. Calcium-based ceramics and composites in bone reconstruction. Crit. Rev. 4 43—47. [Pg.623]

Ward, W.G., Yang, R.S., and Eckart, LL 1996. Endoprosthetic bone reconstruction following mahgnant tumor resection in skeletally immature patients. Orthop. Clin. N. Am. 27 493. [Pg.766]

Tantalum, which is used for a number of applications, was recently made into a porous material that could be used for bone reconstruction. The porous structure is made by depositing the metal onto a vitreous carbon scaffold using chemical vapor deposition/infiltration techniques. Its low stmctural density means that its stiffness (2.5-4 GPa) is closer to that of natural bone than the solid metal, and the porosity means that bone can fully integrate into the stmcture. forming an excellent bond. " ... [Pg.111]

S. Fare, P. Petrini, M.C. Tanzi, A. Bigi, N. Roveri, Biointegrable 3D polyurethane/a-TCP composites for bone reconstruction, in D. Mantovani (Ed.), Advanced Materials for Biomedical Application, Canadian Institute of Mining, Metallurgy and Petroleum, Montreal, Cananda, 2002, pp. 17—26. [Pg.306]

Ceramic powders SiC tor abrasives Nanosized TiQs tor sunscreen Bioactive glasses tor bone reconstruction Bayer process AI2Q3 tor the production of Al using Hall-H4roult cells... [Pg.677]

Stem cells, which makes it a potential source of allogeneic multipotent cells for bone healing.AM stem cells isolated have the capacity for in vitro osteogenesis, which makes them a potential source of allogeneic stem cells for application in bone reconstruction. ... [Pg.162]

Kamadjaja DB, et al. The osteogenic capacity of human amniotic membrane mesenchymal stem cell (hAMSC) and potential for application in maxillofacial bone reconstruction in vitro study. J BiomedSci Eng 2014 7 497-503. [Pg.173]

Other important applications of poly(VPA) and its copolymers are as polymer electrolyte membranes for fuel cells,in the medical field as components in dental cements,bone reconstruction, hydrogels for drug delivery, and in ion exchange membranes. ... [Pg.68]

Sertchook, H. Elimelech, H. Avnir, D., Amino-Polysiloxane Hybrid Materials for Bone Reconstruction. Chem. Mater. 2005,17, 4711-4716. [Pg.240]

The history of biomaterials (i.e. the use of natural or artificial materials in restoring the function of tissue or parts of the body) dates further back than even the most ancient ruins on this beautiful island of Sardinia. The Edgar Smith papyrus papers of over 4000 B.C. describe sutures and other wound closure devices. Later work around 2000 B.C. describe metals in bone repair. Somewhat later, the use of goose quills in vascular repair was mentioned. However, it was not until the 1800 s that we saw the real beginning of metals used in bone reconstruction surgery and in the 1930 s (with the beginning of plastic industries) to see the beginning use of polymers in a variety of reconstruction applications. [Pg.215]

Bioceramic used in bone reconstruction. (Mauro Fermari-ello/Photo Researchers, Inc.)... [Pg.283]

Chanchareonsook, N., Junker, R., Jongpaiboonkit, L., Jansen, J.A., 2014. Tissue-engineered mandibular bone reconstruction for continuity defects a systematic approach to the literature. Tissue Eng. B 20, 147—162. [Pg.415]

Development of a degradable cement of caldum phosphate and caldum sulfate composite for bone reconstruction. [Pg.411]

CoUagenous matrix (atelocoUagen) [72] Recombinant human bone morphogenetic protein-2 (rhBMP-2) FUm Bone graft substitute for bone reconstruction... [Pg.451]

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