Role of adult mesenchymal stem cells in bone tissue engineering applications: current status and future prospects.
about
Recent developments of functional scaffolds for craniomaxillofacial bone tissue engineering applicationsRole of nanotopography in the development of tissue engineered 3D organs and tissues using mesenchymal stem cellsBone tissue engineering: recent advances and challengesIsolation and characterization of canine umbilical cord blood-derived mesenchymal stem cellsMesenchymal stem cells and tissue engineering.Study of the involvement of allogeneic MSCs in bone formation using the model of transgenic mice.A2B adenosine receptor promotes mesenchymal stem cell differentiation to osteoblasts and bone formation in vivo.A sulfated nanofibrous mesh supporting the osteogenic differentiation of periosteum-derived cells.Potential of mesenchymal stem cells in gene therapy approaches for inherited and acquired diseases.Human embryonic stem cell-derived mesenchymal stroma cells (hES-MSCs) engraft in vivo and support hematopoiesis without suppressing immune function: implications for off-the shelf ES-MSC therapiesIntracellular release of 17-β estradiol from cationic polyamidoamine dendrimer surface-modified poly (lactic-co-glycolic acid) microparticles improves osteogenic differentiation of human mesenchymal stromal cellsSilk Nanofiber Hydrogels with Tunable Modulus to Regulate Nerve Stem Cell Fate.Comparative assessment of the effects of gender-specific heparan sulfates on mesenchymal stem cellsThe role of glucose, serum, and three-dimensional cell culture on the metabolism of bone marrow-derived mesenchymal stem cells.Comparison of immunological characteristics of mesenchymal stem cells derived from human embryonic stem cells and bone marrow.In vitro effects of RU486 on proliferation and differentiation capabilities of human bone marrow mesenchymal stromal cells.High-Fat Diet/Low-Dose Streptozotocin-Induced Type 2 Diabetes in Rats Impacts Osteogenesis and Wnt Signaling in Bone Marrow Stromal CellsTransplanted Umbilical Cord Mesenchymal Stem Cells Modify the In Vivo Microenvironment Enhancing Angiogenesis and Leading to Bone Regeneration.Effects of glucocorticoid receptor small interfering RNA delivered using poly lactic-co-glycolic acid microparticles on proliferation and differentiation capabilities of human mesenchymal stromal cells.Spinning around or stagnation - what do osteoblasts and chondroblasts really like?Three-dimensional multipotent progenitor cell aggregates for expansion, osteogenic differentiation and 'in vivo' tracing with AAV vector serotype 6.Epigallocatechin-3-gallate Protects against Hydrogen Peroxide-Induced Inhibition of Osteogenic Differentiation of Human Bone Marrow-Derived Mesenchymal Stem CellsHeart valve tissue engineering: concepts, approaches, progress, and challenges.Engineered protein coatings to improve the osseointegration of dental and orthopaedic implants.Experimental characterization and computational modelling of two-dimensional cell spreading for skeletal regeneration.Oxygen Tension-Controlled Matrices with Osteogenic and Vasculogenic Cells for Vascularized Bone Regeneration In Vivo.The cannabinoid receptor type 1 is essential for mesenchymal stem cell survival and differentiation: implications for bone health.Comparative characterization of mesenchymal stem cells from eGFP transgenic and non-transgenic miceStem cell-based therapy for prevention of delayed fracture union: a randomized and prospective preliminary studyOsteogenic differentiation of mesenchymal stem cells promoted by overexpression of connective tissue growth factor.Steroid regulation of proliferation and osteogenic differentiation of bone marrow stromal cells: a gender difference.Differential alkaline phosphatase responses of rat and human bone marrow derived mesenchymal stem cells to 45S5 bioactive glass.Adult stem cell mobilization enhances intramembranous bone regeneration: a pilot study.Cell-based approaches to the engineering of vascularized bone tissue.In vivo ectopic implantation model to assess human mesenchymal progenitor cell potential.Scaffold stiffness influences cell behavior: opportunities for skeletal tissue engineeringAn in-silico future for the engineering of functional tissues and organs.The role of osteoclasts in bone tissue engineering.Immunomodulation regulates mesenchymal stem cell-based bone regeneration.Stem cells for reutilization in bone regeneration.
P2860
Q26827234-8576F9F4-975A-4283-A298-D89C78B39245Q26997335-A5E7954D-DCF8-4A01-A54C-242150540D69Q27007788-37FB4327-FEF2-4FC6-ABCB-B2EA413F32BFQ33569179-E134C732-ABD6-4B04-98BE-6A4203CE7BC7Q33668967-002DCDAD-E2A5-4E27-8778-E09B973548A6Q33821538-008B9736-E52C-434F-927B-8A985B909E32Q34031056-32E9F2CF-FB9B-4CBA-B167-247905448273Q34323750-627121C3-E7B6-4F62-9B55-A53742C138BDQ34367266-3062EDB3-9D7E-4CCD-892C-1B38A3E23666Q34576397-4A4C9108-C375-4B98-9D67-9164707B1BA4Q34606728-1CC820AE-CF83-4E8E-B44A-50F7630BB6A6Q34723980-7C5D3D6D-CF90-43D9-AB53-FD6CD405C687Q34978967-35FE2148-2330-40B6-92F4-54E618F48E38Q34986559-FCD6BC8B-DA52-453A-B9A0-9484691A3FF5Q35100235-722CC3E7-DA14-4387-9BA8-7144B8D5CFDAQ35624319-B65EFD64-23F5-4A68-B19D-921546EFEDD8Q35752515-1FC25143-4076-4971-9EAB-2FB6E71D88D8Q35844400-28DFC2E8-7501-4667-9162-2EE01AC354ECQ35855686-F8AF1A45-39C7-4A48-B091-95FCCD9D6DFBQ35958575-D8B4C4CD-5FC7-4896-8ED9-00F4E0D5D32FQ36028349-39018B67-EBBE-4412-83DD-23F2BF36B878Q36605387-9320ED2B-9E53-41FA-B468-204438CF3DA7Q36629931-18709113-9865-42CB-BAC0-BB8610A8947EQ36631888-F769016B-0309-43B9-8912-FC4953738587Q36675868-DADC3D6F-2F5A-44B0-8EAE-B0D4C40176BBQ36825924-25FDD746-1E2D-4070-862F-EDB8E3D23760Q36999514-BD02C556-BB3D-4D73-B38D-F2E3BD27DD06Q37074199-0B4A7659-4F1F-4859-ACE8-180316FE8894Q37084844-ADE9F53C-A087-4C55-AED6-5148EA167F21Q37177471-5F620888-C760-4FD9-A137-6F88B24E1B20Q37193473-7BFD3C96-338B-4F8C-9FB8-BC1D4BDF63B2Q37235621-5F1E82E1-6C8A-4511-AC24-362D9427EE2EQ37314007-09C8ED2A-C6C6-48F4-82BE-795EE54306E0Q37320127-3ADB6ABD-ADCC-44E1-ADD0-A84F4E3B3BEFQ37325717-4B2E4342-8C82-45D9-95D8-E2348E9B7D31Q37499971-CB006A5E-D269-4B1A-88B4-E40E2E2C7A1AQ37827311-E2E352C0-C33F-408C-A502-BCBBA1266F3BQ38183343-4F97253C-DFAC-4B92-9F3E-1371A659A538Q38203944-F2D7FAF0-7A3E-4359-857E-3DCA884091D5Q38285851-46271999-4F53-400E-9D9D-DA3AAE39618D
P2860
Role of adult mesenchymal stem cells in bone tissue engineering applications: current status and future prospects.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
Role of adult mesenchymal stem ...... t status and future prospects.
@ast
Role of adult mesenchymal stem ...... t status and future prospects.
@en
type
label
Role of adult mesenchymal stem ...... t status and future prospects.
@ast
Role of adult mesenchymal stem ...... t status and future prospects.
@en
prefLabel
Role of adult mesenchymal stem ...... t status and future prospects.
@ast
Role of adult mesenchymal stem ...... t status and future prospects.
@en
P356
P1433
P1476
Role of adult mesenchymal stem ...... t status and future prospects.
@en
P2093
Joshua R Mauney
P304
P356
10.1089/TEN.2005.11.787
P577
2005-05-01T00:00:00Z