scholarly article | Q13442814 |
P356 | DOI | 10.1016/J.TRIPLEO.2011.03.026 |
P698 | PubMed publication ID | 22676824 |
P2093 | author name string | Li-ping Zhang | |
De-zhi Shang | |||
Zhi-qiang Wu | |||
Huan-ye Liu | |||
Zhi-qing Jiang | |||
P2860 | cites work | Platelet alpha-granules | Q28267795 |
The use of autologous platelet-rich plasma (platelet gel) and autologous platelet-poor plasma (fibrin glue) in cosmetic surgery | Q30652395 | ||
Fabrication of pre-determined shape of bone segment with collagen-hydroxyapatite scaffold and autogenous platelet-rich plasma | Q33354427 | ||
Platelet autologous growth factors decrease the osteochondral regeneration capability of a collagen-hydroxyapatite scaffold in a sheep model | Q33704433 | ||
Bone marrow stromal stem cells: nature, biology, and potential applications | Q33947448 | ||
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Porosity of 3D biomaterial scaffolds and osteogenesis | Q36110106 | ||
Testing the critical size in calvarial bone defects: revisiting the concept of a critical-size defect | Q37762133 | ||
In vitro evaluation of freeze-dried bone allografts combined with platelet rich plasma and human bone marrow stromal cells for tissue engineering | Q38288766 | ||
Platelet-rich plasma contains high levels of platelet-derived growth factor and transforming growth factor-beta and modulates the proliferation of periodontally related cells in vitro | Q44529720 | ||
Effect of platelet concentration in platelet-rich plasma on peri-implant bone regeneration | Q44819487 | ||
The effect of platelet-rich plasma on healing in critical-size long-bone defects | Q47226302 | ||
Osteogenesis in cranial defects: reassessment of the concept of critical size and the expression of TGF-beta isoforms | Q47231782 | ||
Injectable tissue-engineered bone using autogenous bone marrow-derived stromal cells for maxillary sinus augmentation: clinical application report from a 2-6-year follow-up | Q47322628 | ||
Mesenchymal stem cells and platelet-rich plasma enhance bone formation in sinus grafting: a histomorphometric study in minipigs | Q47763763 | ||
Promoted new bone formation in maxillary distraction osteogenesis using a tissue-engineered osteogenic material | Q47962424 | ||
Effect of platelet-rich plasma on the early bone formation around Ca-P-coated and non-coated oral implants in cortical bone | Q48034600 | ||
Platelet-rich plasma improves expansion of human mesenchymal stem cells and retains differentiation capacity and in vivo bone formation in calcium phosphate ceramics. | Q50474597 | ||
Allogenous bone grafts improved by bone marrow stem cells and platelet growth factors: clinical case reports. | Q51024603 | ||
Controlled release of platelet growth factors enhances bone regeneration at rabbit calvaria. | Q51041715 | ||
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Nasal augmentation using injectable alginate and mesenchymal stem cells in the rabbit. | Q51113808 | ||
Simultaneous implant placement and bone regeneration around dental implants using tissue-engineered bone with fibrin glue, mesenchymal stem cells and platelet-rich plasma. | Q51135964 | ||
Bone healing in a rabbit mandibular defect using platelet-rich plasma. | Q51577690 | ||
Platelet-derived growth factors enhance proliferation of human stromal stem cells | Q57003383 | ||
Use of platelet-rich plasma under autogenous onlay bone grafts | Q57702303 | ||
A histological and radiological comparison of the healing of defects in the rabbit calvarium with and without implanted heterogeneous anorganic bone | Q69869247 | ||
Platelet concentration and its effect on bone formation in calvarial defects: an experimental study in rabbits | Q77062705 | ||
Risks of using platelet rich plasma gel | Q77291988 | ||
Autologous concentrated platelet-rich plasma (cPRP) for local application in bone regeneration | Q78772028 | ||
P433 | issue | 3 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 327-333 | |
P577 | publication date | 2012-03-01 | |
P1433 | published in | Oral Surgery, Oral Medicine, Oral Pathology, and Oral Radiology | Q7099375 |
P1476 | title | Repair of calvarial defects in rabbits with platelet-rich plasma as the scaffold for carrying bone marrow stromal cells. | |
P478 | volume | 113 |
Q28076740 | Application of platelet-rich plasma with stem cells in bone and periodontal tissue engineering |
Q41978896 | Bone progenitors produced by direct osteogenic differentiation of the unprocessed bone marrow demonstrate high osteogenic potential in vitro and in vivo |
Q34292249 | In vivo ossification of a scaffold combining β-tricalcium phosphate and platelet-rich plasma |
Q27012858 | New and emerging strategies in platelet-rich plasma application in musculoskeletal regenerative procedures: general overview on still open questions and outlook |
Q42849822 | Paracrine effect of the bone morphogeneticprotein-2 at the experimental site on healing of the adjacent control site: a study in the rabbit calvarial defect model |
Q38517840 | Platelet-Rich Plasma Promotes Axon Regeneration, Wound Healing, and Pain Reduction: Fact or Fiction |
Q59430741 | Rapid bone regeneration by Escherichia coli-derived recombinant human bone morphogenetic protein-2 loaded on a hydroxyapatite carrier in the rabbit calvarial defect model |
Q39363095 | Serum albumin enhances bone healing in a nonunion femoral defect model in rats: a computer tomography micromorphometry study |
Q37154425 | Superparamagnetic iron oxide is suitable to label tendon stem cells and track them in vivo with MR imaging |
Q33730532 | The combination of nano-calcium sulfate/platelet rich plasma gel scaffold with BMP2 gene-modified mesenchymal stem cells promotes bone regeneration in rat critical-sized calvarial defects. |
Q49263872 | To what extent does hyaluronic acid affect healing of xenografts? A histomorphometric study in a rabbit model |
Q41698968 | Transplantation of Autologous Bone Marrow Mesenchymal Stem Cells with Platelet-Rich Plasma Accelerate Distraction Osteogenesis in A Canine Model. |
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