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Bone-tissue regeneration ceramics

Materials for bone-tissue regeneration ceramics and polymers... [Pg.336]

Ohtsuld, C., Kamitakahara, M., and Miyazaki, T. (2009) Bioactive ceramic-based materials with designed reactivity for bone tissue regeneration. J. R. Soc. Interface, 6, S349-S360. [Pg.181]

Ceramic-polymer nanocomposites for bone-tissue regeneration... [Pg.331]

This chapter reviews biomedical grade ceramic-polymer nanocomposites, focussing on their impact and recent trends in the field of bone grafting and bone-tissue regeneration. [Pg.331]

Biomaterials must be properly selected because their physical, mechanical and biological properties will determine, to a great extent, the properties of the tissue-engineering scaffold. In Section 15.4, the main characteristics of monolithic biomaterials, precisely ceramics and polymers, are depicted, whereas in Section 15.5 the potential of ceramic-polymer nanocomposites in bone-tissue regeneration is illustrated. [Pg.336]

Table 15.4 Mechanical properties and clinical applications of ceramics for bone-tissue regeneration... [Pg.338]

CERAMIC MATERIALS FOR BONE TISSUE REPLACEMENT AND REGENERATION W, Swieszkowski, Z. Jaegermann, D.W, Hutmacher ", K.J. Kurzydlowski ... [Pg.525]

Ceramic Materials for Bone Tissue Replacement and Regeneration... [Pg.526]

There is a high potential for using bioceramics in bone tissue replacement and regeneration. The study shows possibility of treatment of bone defects using the porous alumina grafts, calcite porous scaffolds, polymer/ceramic biocomposite scaffolds, and ceramic coatings. [Pg.530]

CERAMIC MATERIALS FOR BONE TISSUE REPLACEMENT AND 525 REGENERATION... [Pg.670]

Relatively inert ceramics elicit minimal tissue response and lead to a thin layer of fibrous tissue immediately adjacent to the surface. Surface-active ceramics are partially soluble, resulting in ion-exchange and the potential to lead to a direct chemical bond with bone. Bulk bioactive ceramics are fiilly resorbable, have much greater solubility fiian surface-active ceramics, and may ultimately be replaced by an equivalent volume of regenerated tissue. The relative level of bioactivity mediates the thickness of Ae interfacial zone between the biomaterial surface and host tissue (Fig. 13.1). There are, however, no standardized measures of reactivity, but the most common are pH changes, ion solubility, tissue reaction, and any number of assays that assess some parameter of cell function. [Pg.304]

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See also in sourсe #XX -- [ Pg.337 , Pg.338 , Pg.339 , Pg.340 ]



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