scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1078177256 |
P356 | DOI | 10.1186/2047-783X-15-5-196 |
P932 | PMC publication ID | 3352008 |
P698 | PubMed publication ID | 20562058 |
P2093 | author name string | J Becker | |
J Windolf | |||
M Hakimi | |||
M Wild | |||
J Schneppendahl | |||
P Jungbluth | |||
J P Grassmann | |||
M Sager | |||
A R Hakimi | |||
A Kessner | |||
P2860 | cites work | Complications of iliac crest bone graft harvesting | Q28287579 |
Granular tricalcium phosphate in large cancellous defects | Q28300220 | ||
Bone repair techniques, bone graft, and bone graft substitutes | Q33547662 | ||
Osteoconductive materials and their role as substitutes for autogenous bone grafts | Q33725289 | ||
Calcium orthophosphates in medicine: from ceramics to calcium phosphate cements. | Q34196107 | ||
Technological issues for the development of more efficient calcium phosphate bone cements: a critical assessment. | Q34427419 | ||
Properties of osteoconductive biomaterials: calcium phosphates. | Q34591391 | ||
Porous tricalcium phosphate and transforming growth factor used for anterior spine surgery | Q36726802 | ||
Calcium phosphates as bone graft extenders | Q37004262 | ||
Next generation calcium phosphate-based biomaterials | Q37413264 | ||
Theoretical model to determine the effects of geometrical factors on the resorption of calcium phosphate bone substitutes | Q42622238 | ||
Histological evaluation of the bone response to calcium phosphate cement implanted in cortical bone | Q44264127 | ||
Osseous defect regeneration using autogenous bone alone or combined with Biogran or Algipore with and without added thrombocytes. A microradiologic evaluation | Q44381915 | ||
Phosphoserine--a convenient compound for modification of calcium phosphate bone cement collagen composites | Q45033309 | ||
Proliferation and differentiation of osteoblasts on Biocement D modified with collagen type I and citric acid | Q45059523 | ||
Grafting of massive tibial subchondral bone defects in a caprine model using beta-tricalcium phosphate versus autograft. | Q45242466 | ||
The effect of platelet-rich plasma on healing in critical-size long-bone defects | Q47226302 | ||
Effect of platelet-rich plasma on the in vitro proliferation and osteogenic differentiation of human mesenchymal stem cells on distinct calcium phosphate scaffolds: the specific surface area makes a difference | Q47448277 | ||
Osteogenicity of biphasic calcium phosphate ceramics and bone autograft in a goat model | Q48016806 | ||
Early effect of platelet-rich plasma on bone healing in combination with an osteoconductive material in rat cranial defects. | Q50471026 | ||
Preparation of porous apatite granules from calcium phosphate cement. | Q50852997 | ||
Guided bone regeneration at dehiscence-type defects using biphasic hydroxyapatite + beta tricalcium phosphate (Bone Ceramic) or a collagen-coated natural bone mineral (BioOss Collagen): an immunohistochemical study in dogs. | Q50916365 | ||
Influence of platelet-rich plasma on osteogenic differentiation of mesenchymal stem cells and ectopic bone formation in calcium phosphate ceramics. | Q51116042 | ||
Management of defects in the groin, thigh, and pelvic region with modified contralateral TRAM/VRAM flaps. | Q51304018 | ||
3D microenvironment as essential element for osteoinduction by biomaterials. | Q51561602 | ||
Reconstruction of goat femur segmental defects using triphasic ceramic-coated hydroxyapatite in combination with autologous cells and platelet-rich plasma. | Q51761182 | ||
Comparative study of biphasic calcium phosphates with different HA/TCP ratios in mandibular bone defects. A long-term histomorphometric study in minipigs. | Q53430603 | ||
Beta-TCP bone graft substitutes in a bilateral rabbit tibial defect model. | Q53452067 | ||
[The evaluation of balloonkyphoplasty for osteoporotic vertebral fractures. An interdisciplinary concept]. | Q53621695 | ||
Degradation characteristics of alpha and beta tri-calcium-phosphate (TCP) in minipigs. | Q53977887 | ||
Knochenersatzmaterialien | Q60609893 | ||
Synthesis and characterization of porous β-tricalcium phosphate blocks | Q61827149 | ||
Induktion von Knochengewebe auf unterschiedlichen Matrizes: Eine In-vitro- und In-vivo-Pilotstudie in der SCID Maus | Q61827152 | ||
Comparison of human bone marrow stromal cells seeded on calcium-deficient hydroxyapatite, β-tricalcium phosphate and demineralized bone matrix | Q61827160 | ||
The diagnostic value of the new method for the study of undecalcified bones and teeth with attached soft tissue (Säge-Schliff (sawing and grinding) technique) | Q69901759 | ||
Tissue-engineered bone regeneration | Q74268240 | ||
Three-dimensional observation of reconstruction course of rabbit experimental mandibular defect with rhBMP-2 and atelocollagen gel | Q79278294 | ||
Effects of platelet growth factors on human mesenchymal stem cells and human endothelial cells in vitro | Q80508622 | ||
Role of interconnections in porous bioceramics on bone recolonization in vitro and in vivo | Q80527315 | ||
Bone formation in a long bone defect model using a platelet-rich plasma-loaded collagen scaffold | Q81530294 | ||
Microporosity enhances bioactivity of synthetic bone graft substitutes | Q81718660 | ||
P433 | issue | 5 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 196-203 | |
P577 | publication date | 2010-05-01 | |
P1433 | published in | European Journal of Medical Research | Q5412732 |
P1476 | title | The progress of early phase bone healing using porous granules produced from calcium phosphate cement | |
P478 | volume | 15 |