| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/J.BIOMATERIALS.2004.09.056 |
| P698 | PubMed publication ID | 15621247 |
| P50 | author | Clemens van Blitterswijk | Q16188853 |
| Pamela Habibović | Q68595998 | ||
| Klaas de Groot | Q6419552 | ||
| P2093 | author name string | Huipin Yuan | |
| Chantal M van der Valk | |||
| Gert Meijer | |||
| P433 | issue | 17 | |
| P304 | page(s) | 3565-3575 | |
| P577 | publication date | 2005-06-01 | |
| P1433 | published in | Biomaterials | Q15751139 |
| P1476 | title | 3D microenvironment as essential element for osteoinduction by biomaterials. | |
| P478 | volume | 26 |
| Q39237979 | 2.5D constructs for characterizing phase separated polymer blend surface morphology in tissue engineering scaffolds |
| Q54966347 | 3D bioactive composite scaffolds for bone tissue engineering. |
| Q37692234 | 3D printed tricalcium phosphate scaffolds: Effect of SrO and MgO doping on in vivo osteogenesis in a rat distal femoral defect model |
| Q37311061 | A clinically relevant model of osteoinduction: a process requiring calcium phosphate and BMP/Wnt signalling |
| Q39153526 | A mechanism for effective cell-seeding in rigid, microporous substrates. |
| Q39216286 | A new platelet cryoprecipitate glue promoting bone formation after ectopic mesenchymal stromal cell-loaded biomaterial implantation in nude mice |
| Q40131114 | A novel porous bioceramics scaffold by accumulating hydroxyapatite spherulites for large bone tissue engineering in vivo. II. Construct large volume of bone grafts |
| Q50523903 | A study of the relationship between process conditions and mechanical strength of mineralized red algae in the preparation of a marine-derived bone void filler. |
| Q27008300 | An overview of recent advances in designing orthopedic and craniofacial implants |
| Q30453864 | Bacterial cellulose-based materials and medical devices: current state and perspectives |
| Q35693009 | Benefits of biphasic calcium phosphate hybrid scaffold-driven osteogenic differentiation of mesenchymal stem cells through upregulated leptin receptor expression |
| Q35828282 | Bioactive and bioresorbable cellular cubic-composite scaffolds for use in bone reconstruction |
| Q55384033 | Bioceramics and bone healing. |
| Q50860893 | Biodegradation process of α-tricalcium phosphate and α-tricalcium phosphate solid solution bioceramics in vivo: a comparative study. |
| Q38407687 | Biomaterials for Bone Regenerative Engineering |
| Q47697394 | Biomaterials for Craniofacial Bone Regeneration. |
| Q39020519 | Biomimetic nanocomposites to control osteogenic differentiation of human mesenchymal stem cells |
| Q47150145 | Biphasic Calcium Phosphate Ceramics for Bone Regeneration and Tissue Engineering Applications. |
| Q39311321 | Bone healing with oxytocin-loaded microporous β-TCP bone substitute in ectopic bone formation model and critical-sized osseous defect of rat. |
| Q80275878 | Bone ingrowth in zirconia and hydroxyapatite scaffolds with identical macroporosity |
| Q42909435 | Bone-Forming Capabilities of a Newly Developed NanoHA Composite Alloplast Infused with Collagen: A Pilot Study in the Sheep Mandible. |
| Q38634288 | Calcium Orthophosphate-Based Bioceramics |
| Q28659433 | Calcium orthophosphates as bioceramics: state of the art |
| Q42325927 | Calcium phosphate combination biomaterials as human mesenchymal stem cell delivery vehicles for bone repair |
| Q48318757 | Cells responding to surface structure of calcium phosphate ceramics for bone regeneration |
| Q38226811 | Chitosan-based scaffolds for bone tissue engineering. |
| Q42144980 | Combined Effect of a Microporous Layer and Type I Collagen Coating on a Biphasic Calcium Phosphate Scaffold for Bone Tissue Engineering |
| Q52646900 | Comparison of three block bone substitutes for bone regeneration: long-term observation in the beagle dog. |
| Q45241000 | Construction of microenvironment onto titanium substrates to regulate the osteoblastic differentiation of bone marrow stromal cells in vitro and osteogenesis in vivo. |
| Q37900201 | Current progress in inorganic artificial biomaterials |
| Q39647097 | Cytocompatibility of porous biphasic calcium phosphate granules with human mesenchymal cells by a multiparametric assay. |
| Q39330227 | Deconvoluting the Bioactivity of Calcium Phosphate-Based Bone Graft Substitutes: Strategies to Understand the Role of Individual Material Properties |
| Q39213279 | Development and Characterization of Biphasic Hydroxyapatite/β-TCP Cements |
| Q46040431 | Ectopic bone formation in adipose-derived stromal cell-seeded osteoinductive calcium phosphate scaffolds |
| Q37298394 | Ectopic osteogenesis and angiogenesis regulated by porous architecture of hydroxyapatite scaffolds with similar interconnecting structure in vivo |
| Q34205876 | Ectopic osteoid and bone formation by three calcium-phosphate ceramics in rats, rabbits and dogs |
| Q90577296 | Ectopic transient overexpression of OCT-4 facilitates BMP4-induced osteogenic transdifferentiation of human umbilical vein endothelial cells |
| Q26779062 | Effect of Ceramic Scaffold Architectural Parameters on Biological Response |
| Q47156087 | Effect of Chemistry on Osteogenesis and Angiogenesis Towards Bone Tissue Engineering Using 3D Printed Scaffolds |
| Q36274803 | Effect of Hydroxyapatite porous characteristics on healing outcomes in rabbit posterolateral spinal fusion model |
| Q53497711 | Effect of a tunnel-structured β-tricalcium phosphate graft material on periodontal regeneration: a pilot study in a canine one-wall intrabony defect model. |
| Q52592810 | Effect of microporosity on scaffolds for bone tissue engineering. |
| Q56541867 | Effect of nanostructure on osteoinduction of porous biphasic calcium phosphate ceramics |
| Q47437772 | Effect of particle size on osteoinductive potential of microstructured biphasic calcium phosphate ceramic |
| Q53626163 | Effect of phase composition on protein adsorption and osteoinduction of porous calcium phosphate ceramics in mice. |
| Q42556398 | Effects of a ceramic biomaterial on immune modulatory properties and differentiation potential of human mesenchymal stromal cells of different origin. |
| Q92356016 | Effects of micro-porosity and local BMP-2 administration on bioresorption of β-TCP and new bone formation |
| Q47416246 | Effects of scaffold microstructure and low intensity pulsed ultrasound on chondrogenic differentiation of human mesenchymal stem cells |
| Q35828052 | Effects of trabecular calcium phosphate scaffolds on stress signaling in osteoblast precursor cells |
| Q59113422 | Enhanced Critical Size Defect Repair in Rabbit Mandible by Electrospun Gelatin/β-TCP Composite Nanofibrous Membranes |
| Q45761049 | Evaluation of a β-calcium metaphosphate bone Graft containing bone morphogenetic protein-7 in rabbit maxillary defects |
| Q38867108 | Exploring the Material-Induced Transcriptional Landscape of Osteoblasts on Bone Graft Materials |
| Q50201931 | Functionalized Surface Geometries Induce: "Bone: Formation by Autoinduction". |
| Q35739725 | Graphene: A Versatile Carbon-Based Material for Bone Tissue Engineering. |
| Q90225233 | Honeycomb blocks composed of carbonate apatite, β-tricalcium phosphate, and hydroxyapatite for bone regeneration: effects of composition on biological responses |
| Q53137926 | Human mesenchymal stromal cells response to biomimetic octacalcium phosphate containing strontium. |
| Q84511685 | Hybrid structure in PCL-HAp scaffold resulting from biomimetic apatite growth |
| Q47268843 | Hydoxyapatite/beta-tricalcium phosphate biphasic ceramics as regenerative material for the repair of complex bone defects |
| Q38662659 | Hydroxyapatite and tricalcium phosphate composites with bioactive glass as second phase: State of the art and current applications. |
| Q64084531 | Immune Modulation by Transplanted Calcium Phosphate Biomaterials and Human Mesenchymal Stromal Cells in Bone Regeneration |
| Q54497275 | Impact of biomaterial microtopography on bone regeneration: comparison of three hydroxyapatites. |
| Q36585360 | Implantation of silicon dioxide-based nanocrystalline hydroxyapatite and pure phase beta-tricalciumphosphate bone substitute granules in caprine muscle tissue does not induce new bone formation |
| Q38379782 | In vitro and in vivo bioactivity assessment of a polylactic acid/hydroxyapatite composite for bone regeneration |
| Q46291343 | In vitro and in vivo effects of puerarin on promotion of osteoblast bone formation |
| Q47888858 | In vivo behaviour of two different biphasic ceramic implanted in mandibular bone of dogs |
| Q53768721 | Increased Biocompatibility and Bioactivity after Energetic PVD Surface Treatments. |
| Q33275527 | Inflammatory reaction in rats muscle after implantation of biphasic calcium phosphate micro particles |
| Q47161469 | Injectable nanohydroxyapatite-chitosan-gelatin micro-scaffolds induce regeneration of knee subchondral bone lesions |
| Q50985415 | Interactions of total bone marrow cells with increasing quantities of macroporous calcium phosphate ceramic granules. |
| Q33649702 | Is macroporosity absolutely required for preliminary in vitro bone biomaterial study? A comparison between porous materials and flat materials |
| Q58418753 | Marine shells: Potential opportunities for extraction of functional and health-promoting materials |
| Q37302821 | Micropore-induced capillarity enhances bone distribution in vivo in biphasic calcium phosphate scaffolds |
| Q53496645 | Microporous calcium phosphate ceramics driving osteogenesis through surface architecture. |
| Q49718328 | Mineralized biomaterials mediated repair of bone defects through endogenous cells |
| Q44280477 | Morphological evidences of Bio-Oss® colonization by CD44-positive cells |
| Q46277499 | Nanobioengineered electrospun composite nanofibers and osteoblasts for bone regeneration |
| Q35234932 | Novel approaches to bone grafting: porosity, bone morphogenetic proteins, stem cells, and the periosteum |
| Q79832482 | Osteogenic properties of calcium phosphate ceramics and fibrin glue based composites |
| Q35100852 | Osteoinduction by Ca-P biomaterials implanted into the muscles of mice |
| Q85107626 | Osteoinduction of porous titanium: A comparative study between acid‐alkali and chemical‐thermal treatments |
| Q35092786 | Osteoinduction on acid and heat treated porous Ti metal samples in canine muscle |
| Q34068573 | Osteoinductive ceramics as a synthetic alternative to autologous bone grafting. |
| Q47197407 | Osteoinductive porous biphasic calcium phosphate ceramic as an alternative to autogenous bone grafting in the treatment of mandibular bone critical-size defects |
| Q43437475 | Porous CaP/silk composite scaffolds to repair femur defects in an osteoporotic model |
| Q51693136 | Porous biphasic calcium phosphate ceramics coated with nano-hydroxyapatite and seeded with mesenchymal stem cells for reconstruction of radius segmental defects in rabbits. |
| Q53288364 | Probing the Osteoinductive Effect of Calcium Phosphate by Using an In Vitro Biomimetic Model |
| Q38624342 | Production and Characterization of a New Bacterial Cellulose/Poly(Vinyl Alcohol) Nanocomposite. |
| Q58092823 | Production and characterisation of porous calcium phosphate structures with controllable hydroxyapatite/β-tricalcium phosphate ratios |
| Q46075396 | Proliferation and differentiation of human osteoblasts within 3D printed poly-lactic-co-glycolic acid scaffolds |
| Q49743154 | Promoting proliferation and differentiation of BMSCs by green tea polyphenols functionalized porous calcium phosphate. |
| Q58092644 | Recent developments in processing and surface modification of hydroxyapatite |
| Q33361948 | Regenerating articular tissue by converging technologies |
| Q37834565 | Relative influence of surface topography and surface chemistry on cell response to bone implant materials. Part 2: biological aspects. |
| Q59789496 | Scaffold Structural Microenvironmental Cues to Guide Tissue Regeneration in Bone Tissue Applications |
| Q37301787 | SiO2 and ZnO dopants in three-dimensionally printed tricalcium phosphate bone tissue engineering scaffolds enhance osteogenesis and angiogenesis in vivo |
| Q53496357 | SrO- and MgO-doped microwave sintered 3D printed tricalcium phosphate scaffolds: mechanical properties and in vivo osteogenesis in a rabbit model. |
| Q26766134 | Stepping into the omics era: Opportunities and challenges for biomaterials science and engineering |
| Q48233652 | Submicron-surface structured tricalcium phosphate ceramic enhances the bone regeneration in canine spine environment |
| Q37278132 | Systematical Evaluation of Mechanically Strong 3D Printed Diluted magnesium Doping Wollastonite Scaffolds on Osteogenic Capacity in Rabbit Calvarial Defects |
| Q82238206 | The effect of Emdogain and platelet-derived growth factor on the osteoinductive potential of hydroxyapatite tricalcium phosphate |
| Q40789491 | The effect of an alginate carrier on bone formation in a hydroxyapatite scaffold |
| Q33324300 | The effect of geometry on three-dimensional tissue growth |
| Q34200791 | The effect of particle size on the osteointegration of injectable silicate-substituted calcium phosphate bone substitute materials |
| Q38314723 | The enhanced effect of surface microstructured porous titanium on adhesion and osteoblastic differentiation of mesenchymal stem cells |
| Q36580145 | The homing of bone marrow MSCs to non-osseous sites for ectopic bone formation induced by osteoinductive calcium phosphate |
| Q55333479 | The modulation of stem cell behaviors by functionalized nanoceramic coatings on Ti-based implants. |
| Q35959241 | The progress of early phase bone healing using porous granules produced from calcium phosphate cement. |
| Q34106413 | The synthesis, characterisation and in vivo study of a bioceramic for potential tissue regeneration applications |
| Q81360326 | The thermal stability of hydroxyapatite in biphasic calcium phosphate ceramics |
| Q88270100 | Two-dimensional material-based bionano platforms to control mesenchymal stem cell differentiation |
| Q30492841 | Ultrasound effect on osteoblast precursor cells in trabecular calcium phosphate scaffolds |
| Q47393315 | Variation of the bone forming ability with the physicochemical properties of calcium phosphate bone substitutes |
| Q88104749 | [Porous orbital implants] |
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