Transplanted bone marrow cells localize to fracture callus in a mouse model.
about
Cell-based therapies for regenerating bone.Protective effect of berberine against oxidative stress-induced apoptosis in rat bone marrow-derived mesenchymal stem cells.Transplantation of mesenchymal stem cells overexpressing RANK-Fc or CXCR4 prevents bone loss in ovariectomized mice.Stem cell homing in musculoskeletal injuryMesenchymal stem cell characteristics of human anterior cruciate ligament outgrowth cellsCrucial role of IL1beta and C3a in the in vitro-response of multipotent mesenchymal stromal cells to inflammatory mediators of polytrauma.Cell sources for bone tissue engineering: insights from basic science.Bone engineering by controlled delivery of osteoinductive molecules and cells.MC3T3-E1 osteoprogenitor cells systemically migrate to a bone defect and enhance bone healingLentivirus transduced interleukin-1 receptor antagonist gene expression in murine bone marrow-derived mesenchymal stem cells in vitro.Association between in vivo bone formation and ex vivo migratory capacity of human bone marrow stromal cellsRegenerative effects of transplanted mesenchymal stem cells in fracture healing.The fate of systemically administrated allogeneic mesenchymal stem cells in mouse femoral fracture healing.Acute alcohol exposure impairs fracture healing and deregulates β-catenin signaling in the fracture callusExogenous MC3T3 preosteoblasts migrate systemically and mitigate the adverse effects of wear particlesThe stem cell niches in boneCirculating cells with osteogenic potential.Concise review: multipotent mesenchymal stromal cells in blood.Multifunctional cell-instructive materials for tissue regeneration.Production of VEGF receptor 1 and 2 mRNA and protein during endochondral bone repair is differential and healing phase specific.Adult stem cell mobilization enhances intramembranous bone regeneration: a pilot study.Cyclic arginine-glycine-aspartate peptides enhance three-dimensional stem cell osteogenic differentiation.Kidney-derived mesenchymal stem cells contribute to vasculogenesis, angiogenesis and endothelial repairMesenchymal stem cells systemically injected into femoral marrow of dogs home to mandibular defects to enhance new bone formation.Efficacy of minimally invasive techniques for enhancement of fracture healing: evidence today.Lessons from genetically altered mesenchymal stem cells (MSCs): candidates for improved MSC-directed myocardial repair.Biotechnological and biomedical applications of mesenchymal stem cells as a therapeutic system.The effect of cell passage number on osteogenic and adipogenic characteristics of D1 cellsGeneration of a bioengineered autologous bone substitute for palate repair: an in vivo study in laboratory animals.Recombinant human bone morphogenetic protein-7 enhances fracture healing in an ischemic environment.Integrin-adhesion ligand bond formation of preosteoblasts and stem cells in three-dimensional RGD presenting matricesThe modulation of MSC integrin expression by RGD presentation.Skeletal cell fate decisions within periosteum and bone marrow during bone regeneration.Apoptotic endothelial cells demonstrate increased adhesiveness for human mesenchymal stem cells.Tenomodulin highly expressing MSCs as a better cell source for tendon injury healing.Systemic and Local Administration of Allogeneic Bone Marrow-Derived Mesenchymal Stem Cells Promotes Fracture Healing in Rats.Intravenous transplantation of mesenchymal stem cells improves cardiac performance after acute myocardial ischemia in female rats.Alcohol exposure decreases osteopontin expression during fracture healing and osteopontin-mediated mesenchymal stem cell migration in vitro.A scaffold-free multicellular three-dimensional in vitro model of osteogenesis.In Situ Recruitment of Human Bone Marrow-Derived Mesenchymal Stem Cells Using Chemokines for Articular Cartilage Regeneration.
P2860
Q30444462-88C99942-CBF3-4868-9094-A70CB11FD453Q32183074-F9EB9B6A-9C63-4BB6-9746-AFE312A6209CQ33713146-EAEA4604-82DF-4135-B9BD-255F4E86B9BCQ34348053-79A272F9-FAE7-4D17-9FDE-CAF2068C3B0FQ34811785-4EE775DE-3B12-4DBC-B6AD-6E22A69F02D2Q35538801-DF07C93E-2DFE-4511-91AC-7E90C8C3B582Q35570031-82C09453-9A6D-42E0-8338-A3EF7147AE11Q35842639-7D12DA30-1B21-4052-80FD-534A1E8987E6Q35916995-1DA75392-E9C5-4762-85A3-AE893C2F5A1FQ35919694-6331BEFB-0DFC-4D85-B274-3E3E05247F9AQ36141009-F1F738C9-BBF7-466F-BEDB-048AA987032BQ36185562-C6393453-AD96-4066-9E1C-DA3118FD811DQ36210791-71545892-C0F0-4615-BE64-18BB46F11F7EQ36237326-BE09F440-C5D6-44EC-87DC-CB372369E8F4Q36408124-A66827F6-BF18-46F9-B7D2-BA05F0009019Q36467113-E37085B0-91BE-4E77-907B-851571712567Q36532598-844203B5-42F2-4114-88DA-3A081822AB6AQ36594578-2F52C523-A1F1-4565-8FDD-21AC39F5F0B2Q36804639-C75A8EAA-E427-4DF3-9A2A-53A93027D721Q37174627-2C129C66-20F6-40B1-9880-AA595D9C4A90Q37314007-5C6CBE97-211C-458A-A82C-3C7E091B1154Q37414061-15E18920-73EA-43FE-A867-424005834180Q37435235-77C3D8EF-E88A-4DF6-B1AB-070387832651Q37587957-696EFC6A-0E31-44B6-A26A-52E114AE603EQ37618597-713A09B8-2E32-433E-8212-F851E29475EDQ37955704-DD138031-6ED1-40ED-8183-3FAC92A58813Q38262146-BCB6E55B-DF70-4A62-834C-95C061833287Q38849540-39E765C0-9A36-4AAB-84BD-008B3754F15DQ38955192-126B2ED3-6CF7-4F97-AA62-2B57D0D0A635Q39803151-CD44876E-A92A-44B1-87BC-F52ECB2406C6Q40000646-EA49020F-F14B-49B3-8495-1EB93D71537AQ40613631-2A083363-7521-4C14-8C6A-2D9769217DD3Q40984742-0FE50736-8C0A-4AB6-95CC-024852B433F4Q42554345-68963240-A20D-4082-AE16-1C8AF32903DCQ43053525-AFDD4BB6-5C42-456B-82DF-25DF646ADD7EQ50440404-93ED6ADD-3A4C-4A39-B583-D5B049B24DFEQ51800711-309E92D4-96C6-4E9C-B9C2-9C8452E87B0FQ52716438-055CBA48-56BB-44C2-B798-10F30D481B45Q53268344-94CA3FAE-8BB6-46BF-8121-42E07933CF14Q53567352-8DEB0D47-D56B-4144-BF06-BC79431868FB
P2860
Transplanted bone marrow cells localize to fracture callus in a mouse model.
description
2002 nî lūn-bûn
@nan
2002 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Transplanted bone marrow cells localize to fracture callus in a mouse model.
@ast
Transplanted bone marrow cells localize to fracture callus in a mouse model.
@en
type
label
Transplanted bone marrow cells localize to fracture callus in a mouse model.
@ast
Transplanted bone marrow cells localize to fracture callus in a mouse model.
@en
prefLabel
Transplanted bone marrow cells localize to fracture callus in a mouse model.
@ast
Transplanted bone marrow cells localize to fracture callus in a mouse model.
@en
P2093
P2860
P1476
Transplanted bone marrow cells localize to fracture callus in a mouse model.
@en
P2093
Cay M Mierisch
Euichan Jang
Gary Balian
Michael J Devine
Peggy C Anderson
P2860
P304
P356
10.1016/S0736-0266(02)00051-7
P577
2002-11-01T00:00:00Z