03376nam 2201105z- 450 991063999010332120231214133636.03-0365-6103-X(CKB)5470000001633453(oapen)https://directory.doabooks.org/handle/20.500.12854/95896(EXLCZ)99547000000163345320202301d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierBiomaterials for Bone Tissue Engineering 2020BaselMDPI - Multidisciplinary Digital Publishing Institute20221 electronic resource (242 p.)3-0365-6104-8 This book presents recent advances in the field of bone tissue engineering, including molecular insights, innovative biomaterials with regenerative properties (e.g., osteoinduction and osteoconduction), and physical stimuli to enhance bone regeneration.Medicinebicsscbonecollagen type Ialginateconditioned mediumviabilityMSCosteogenesispulsed electromagnetic fieldosteogenic factorswool keratin scaffoldsbone tissue engineeringbiocompatibilitybiomaterialsbone augmentationbone conductionbone graftingcalcium hydroxyapatitetissue regenerationdental implantsosseointegrationosteoporosiszoledronateanimal modeltitanium membranetitanium foilocclusive titanium barrierguided bone regenerationosteoporotic conditionxenograftbone regenerationtitanium implantsadditive manufacturingreused powderunit cell topologytissue engineeringmechanical propertiesstem cellssurface functionalizationtitaniumprotein adsorptionsurface modificationscell interactionscollagen hydrogelcell deliveryolfactory ectomesenchyme stem cellsbioactive glassesalkali-freesol–gelbone remodelingbone disordersbiomechanicsscaffoldsmicroenvironment3D bioprintingcomputational modelingbone implantbone defectschitosandegree of deacetylationbone formationX-ray micro CThistologysheep tibiaMedicineBloise Noraedt1302704Fassina LorenzoedtBloise NoraothFassina LorenzoothBOOK9910639990103321Biomaterials for Bone Tissue Engineering 20203026435UNINA