01161nam0-2200361---450-99000955625040332120120413124934.00471529869000955625FED01000955625(Aleph)000955625FED0100095562520120413d1992----km-y0itay50------baengUS--------001yyUltrastructure processing of advanced materialsedited by Donald R. Uhlmann, Donald R. Ulrich.New YorkWileyc1992XXV, 723 p.ill.25 cmCeramicsCongressesGlassCongressesComposite materialsCongresses666Uhlmann,D. R.1112UlrichDonald R516087International Conference on Ultrastructure Processing of Ceramics, Glasses, and Composites4th<1989Tucson, Ariz>516086ITUNINARICAUNIMARCBK99000955625040332114 C.010.0933052DINMPDINMPUltrastructure processing of advanced materials853733UNINA03785nam 2201141z- 450 991058021130332120220706(CKB)5690000000011975(oapen)https://directory.doabooks.org/handle/20.500.12854/87432(oapen)doab87432(EXLCZ)99569000000001197520202207d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierDesign of Materials for Bone Tissue ScaffoldsBaselMDPI - Multidisciplinary Digital Publishing Institute20221 online resource (236 p.)3-0365-3954-9 3-0365-3953-0 The book proposes extensive and varied design strategies for bone tissue engineering. The design process of materials for bone tissue scaffolds presently represents an issue of crucial importance and is being studied by many researchers throughout the world. A number of studies have been conducted, aimed at identifying the optimal material, geometry, and surface that the scaffold must possess to stimulate the formation of the largest amounts of bone in the shortest time possible.Medicine and Nursingbicsscadditive manufacturingalcoholalcoholismallograftangiogenesisanimal modelantimicrobial compositebacterial cellulosebiomaterialbiomaterialsblock bone graftsbonebone biomaterialsbone fracturebone healingbone healthbone implantsbone morphogenetic proteinsbone regenerationbone repairbone substitutebone tissue engineeringcalcium carbonatecell growthcompressive strengthcomputational mechanobiologycustom made bonedental implantsdesign techniques for scaffoldelastic modulusepithelial growthfocal adhesionsgellan gumgeometry optimizationgeometry optimization of scaffoldsgraphene oxidehydroxyapatiteimplantologylactoferrinmechanical propertiesmechanobiologymesenchymal stem and progenitor cellsmesenchymal stem cellsmetamaterialsnanoAgosteogenic differentiationparametric CAD (Computer Aided Design) modelpoly(methyl methacrylate)polycarbonatepolydatinpolylysinepore sizeporosityporous calcium phosphateporous implantsporous materialsposterolateral spinal fusionprecision and translational medicinepython coderegenerative medicineresveratrolscaffold designstarfishtissue engineeringtitaniumunit cellβ-tricalcium phosphateMedicine and NursingBoccaccio Antonioedt1332310Boccaccio AntonioothBOOK9910580211303321Design of Materials for Bone Tissue Scaffolds3040813UNINA