scholarly article | Q13442814 |
P356 | DOI | 10.1016/J.BIOMATERIALS.2003.10.032 |
P698 | PubMed publication ID | 15020131 |
P50 | author | Marc Bohner | Q37837572 |
P2093 | author name string | F Baumgart | |
P433 | issue | 17 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | mathematical model | Q486902 |
P304 | page(s) | 3569-3582 | |
P577 | publication date | 2004-08-01 | |
P1433 | published in | Biomaterials | Q15751139 |
P1476 | title | Theoretical model to determine the effects of geometrical factors on the resorption of calcium phosphate bone substitutes | |
P478 | volume | 25 |
Q55455555 | 3D Printed, PVA⁻PAA Hydrogel Loaded-Polycaprolactone Scaffold for the Delivery of Hydrophilic In-Situ Formed Sodium Indomethacin. |
Q53487884 | A novel scaffold geometry for chondral applications: theoretical model and in vivo validation. |
Q42070977 | Bioeutectic® Ceramics for Biomedical Application Obtained by Laser Floating Zone Method. In vivo Evaluation |
Q53831990 | Bulk physicochemical, interconnectivity, and mechanical properties of calcium phosphate cements-fibrin glue composites for bone substitute applications. |
Q39379633 | Computational modelling of local calcium ions release from calcium phosphate-based scaffolds. |
Q26779062 | Effect of Ceramic Scaffold Architectural Parameters on Biological Response |
Q40101861 | Effectiveness of biphasic calcium phosphate block bone substitutes processed using a modified extrusion method in rabbit calvarial defects |
Q40833755 | Enzymatically biomineralized chitosan scaffolds for tissue-engineering applications. |
Q91015254 | Human iPSC-derived iMSCs improve bone regeneration in mini-pigs |
Q38699269 | Hydroxyapatite bone substitutes developed via replication of natural marine sponges |
Q89947311 | Implantation of an Injectable Bone Substitute Material Enables Integration Following the Principles of Guided Bone Regeneration |
Q45103177 | Injectable PLGA microsphere/calcium phosphate cements: physical properties and degradation characteristics |
Q46438093 | Mixed nano/micro-sized calcium phosphate composite and EDTA root surface etching improve availability of graft material in intrabony defects: an in vivo scanning electron microscopy evaluation. |
Q28086953 | Nanostructured platforms for the sustained and local delivery of antibiotics in the treatment of osteomyelitis |
Q58898321 | Optimization of culture conditions for osteogenically-induced mesenchymal stem cells in β-tricalcium phosphate ceramics with large interconnected channels |
Q85097059 | Platelet‐rich plasma on calcium phosphate granules promotes metaphyseal bone healing in mini‐pigs |
Q39598488 | Porous hydroxyapatite and gelatin/hydroxyapatite microspheres obtained by calcium phosphate cement emulsion |
Q50852997 | Preparation of porous apatite granules from calcium phosphate cement. |
Q43965001 | Quantitative characterization of porous commercial and experimental bone graft substitutes with microcomputed tomography |
Q33711085 | Recommendations and considerations for the use of biologics in orthopedic surgery |
Q38225282 | Regenerative orthopaedics: in vitro, in vivo...in silico. |
Q59019440 | Release Kinetics and Antibacterial Efficacy of Microporousβ-TCP Coatings |
Q61827110 | Resorbable biomaterials as bone graft substitutes |
Q83194118 | Sintering of biphasic calcium phosphates |
Q47202556 | Size matters: effects of PLGA-microsphere size in injectable CPC/PLGA on bone formation. |
Q36088267 | Small-sized granules of biphasic bone substitutes support fast implant bed vascularization |
Q37797647 | Structural and material approaches to bone tissue engineering in powder-based three-dimensional printing |
Q26822377 | Synthesis of spherical calcium phosphate particles for dental and orthopedic applications |
Q33783890 | The composite of bone marrow concentrate and PRP as an alternative to autologous bone grafting |
Q35959241 | The progress of early phase bone healing using porous granules produced from calcium phosphate cement. |
Search more.