Fracture induced mobilization and incorporation of bone marrow-derived endothelial progenitor cells for bone healing.
about
Non-Hematopoietic Essential Functions of Bone Marrow Cells: A Review of Scientific and Clinical Literature and Rationale for Treating Bone DefectsHuman umbilical cord blood-derived CD34+ cells reverse osteoporosis in NOD/SCID mice by altering osteoblastic and osteoclastic activitiesIdentification of progenitor cells that contribute to heterotopic skeletogenesisMobilization of CD34+-progenitor cells in patients with severe trauma.Lnk-dependent axis of SCF-cKit signal for osteogenesis in bone fracture healing.Tendon progenitor cells in injured tendons have strong chondrogenic potential: the CD105-negative subpopulation induces chondrogenic degeneration.Characterising neovascularisation in fracture healing with laser Doppler and micro-CT scanning.A small interfering RNA targeting Lnk accelerates bone fracture healing with early neovascularization.SDF-1/CXCR4 axis in Tie2-lineage cells including endothelial progenitor cells contributes to bone fracture healing.Terminal differentiation is not a major determinant for the success of stem cell therapy - cross-talk between muscle-derived stem cells and host cells.Human gingival fibroblasts induced and differentiated into vascular endothelial-like cells.Identification of a New Cell Population Constitutively Circulating in Healthy Conditions and Endowed with a Homing Ability Toward Injured Sites.Stem and progenitor cells: advancing bone tissue engineering.Emerging role of circulating calcifying cells in the bone-vascular axisCXCL12/CXCR4 signaling and other recruitment and homing pathways in fracture repair.Endothelial progenitor cells and their potential therapeutic applications.Negative-pressure wound therapy induces endothelial progenitor cell mobilization in diabetic patients with foot infection or skin defects.Local transplantation of granulocyte colony stimulating factor-mobilized CD34+ cells for patients with femoral and tibial nonunion: pilot clinical trial.BMPs are mediators in tissue crosstalk of the regenerating musculoskeletal system.Review of vascularised bone tissue-engineering strategies with a focus on co-culture systems.Controlled release strategies for bone, cartilage, and osteochondral engineering--Part I: recapitulation of native tissue healing and variables for the design of delivery systems.Human adipose tissue stem cells: relevance in the pathophysiology of obesity and metabolic diseases and therapeutic applications.Cellular transitions and tissue engineering.Clinical impact of circulating CD34-positive cells on bone regeneration and healing.In vitro pre-vascularisation of tissue-engineered constructs A co-culture perspectiveStrategies to Stimulate Mobilization and Homing of Endogenous Stem and Progenitor Cells for Bone Tissue Repair.The role of vasculature in bone development, regeneration and proper systemic functioning.Controlled release of granulocyte colony-stimulating factor enhances osteoconductive and biodegradable properties of Beta-tricalcium phosphate in a rat calvarial defect model.The Use of Endothelial Progenitor Cells for the Regeneration of Musculoskeletal and Neural Tissues.Local transplantation of ex vivo expanded bone marrow-derived CD34-positive cells accelerates fracture healing.Nutraceutical augmentation of circulating endothelial progenitor cells and hematopoietic stem cells in human subjects.Mobilization of endogenous stem cell populations enhances fracture healing in a murine femoral fracture model.Morphological evidences of Bio-Oss® colonization by CD44-positive cells.CD34(+) cells seeded in collagen scaffolds promote bone formation in a mouse calvarial defect model.Significance of circulating endothelial progenitor cells in patients with fracture healing process.Mechanisms of bone response to injury.An emerging cell-based strategy in orthopaedics: endothelial progenitor cells.Local transplantation of G-CSF-mobilized CD34(+) cells in a patient with tibial nonunion: a case report.
P2860
Q26770338-03E8AB81-033B-438F-AA41-3E9ED4087D76Q28728315-8E87F323-C587-4C3B-9DAB-54DF02523583Q30436925-4C58105F-6A0A-4AE1-B3C9-0B577EBC9D77Q33610314-67B18C08-FFA5-46E3-9D45-22375EFFEDE2Q34161560-79CEE59F-02D5-41B9-8FAA-D6FEFF416A14Q34577174-1A62FC8E-6830-4AEC-BAA5-852CD73A6DCEQ34861945-B005583E-6262-41C6-9D59-044FC3BE2D46Q34880003-69EF0B9E-BDA5-4FDA-95B2-A1DF92201FB6Q35226489-034A747C-0F9C-4788-844E-EB0A19A26EFDQ35558497-2DF6D740-B3E0-4785-B3BB-D8685C41FA2DQ36203187-F2A2D660-9A64-4470-A7B8-E79A2923D1B3Q36272758-B2B1EA5E-EA28-40CD-8A90-924BD300732FQ36303725-BA477422-0FC2-4AB4-8E5C-4CAB2D9CCDDCQ36922455-F96190CE-2E32-430F-BE23-6E9341AA2F2CQ37043917-56841515-76A7-457F-B03A-A7BD1D071832Q37306806-4C475BA7-C746-4D26-970F-D359F1FC4916Q37361572-C4760406-3F2F-4D1F-A1B9-2278CEA4295EQ37516487-8B25699B-7C55-42F2-9E37-BB683076FCF1Q37983414-27E23827-E9D3-4DF8-A2EB-E5420F522EBBQ38061097-56179A00-25F7-4AC5-AC98-819AA81CFA27Q38069892-D290C132-4A61-45DA-8A14-8473DEB12D89Q38072796-34389B83-FE28-4857-BD96-5C5DA9C1546CQ38095518-425B5905-FE9E-4B75-B84C-0BE103FE940FQ38174143-2F3E9035-DFAA-4E00-8633-590E94F1CB71Q38234984-27310FF0-5713-409C-A792-4B7EA88CB7C4Q38530142-D6286D5D-87A5-4F30-A2D5-CCE44F1AC326Q38963012-0638B1EF-2D6C-44D3-A223-DA98986D3EE4Q39199163-8ABDBB3F-D7E1-4AF5-8DC7-A14CAB376174Q39274356-05DE07EB-6422-4BDC-ADC1-6089B8F9A048Q39559235-69ADD5CE-6D37-4226-9ED5-8EAAFA74EF88Q40277027-FC2B71F7-756E-4AA6-8FFF-4983912B550CQ42030264-476055E1-6110-43C7-B675-A817A5A75743Q44280477-43B318DD-3CA2-4B37-88FA-C6A884D27B94Q47898998-37584638-ECE3-413D-91A4-8759D489F9CCQ51344396-1561EB77-6BA0-49B1-937D-7B1DE71D481CQ52805840-21567A1B-B309-44E6-8C55-FB74ECC55E3CQ53180617-A4DC5A15-10ED-4153-9529-D40F85B2B98CQ53254102-6F65933F-0D0C-42A1-A40D-E84FCCA82037
P2860
Fracture induced mobilization and incorporation of bone marrow-derived endothelial progenitor cells for bone healing.
description
2008 nî lūn-bûn
@nan
2008 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Fracture induced mobilization ...... enitor cells for bone healing.
@ast
Fracture induced mobilization ...... enitor cells for bone healing.
@en
Fracture induced mobilization ...... enitor cells for bone healing.
@nl
type
label
Fracture induced mobilization ...... enitor cells for bone healing.
@ast
Fracture induced mobilization ...... enitor cells for bone healing.
@en
Fracture induced mobilization ...... enitor cells for bone healing.
@nl
prefLabel
Fracture induced mobilization ...... enitor cells for bone healing.
@ast
Fracture induced mobilization ...... enitor cells for bone healing.
@en
Fracture induced mobilization ...... enitor cells for bone healing.
@nl
P2093
P356
P1476
Fracture induced mobilization ...... enitor cells for bone healing.
@en
P2093
Akira Oyamada
Ayumi Yokoyama
Hiromi Nishimura
Hiroto Iwasaki
Masahiko Miwa
Masahiro Kurosaka
Miki Horii
Minoru Doita
Ryosuke Kuroda
Sang Yang Lee
P304
P356
10.1002/JCP.21309
P577
2008-04-01T00:00:00Z