Cyclic hydrostatic pressure promotes a stable cartilage phenotype and enhances the functional development of cartilaginous grafts engineered using multipotent stromal cells isolated from bone marrow and infrapatellar fat pad.
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Mechanoresponsive musculoskeletal tissue differentiation of adipose-derived stem cellsImprovement of In Vitro Three-Dimensional Cartilage Regeneration by a Novel Hydrostatic Pressure Bioreactor.Nanomechanics of Engineered Articular Cartilage: Synergistic Influences of Transforming Growth Factor-β3 and Oscillating Pressure.Adipose, Bone Marrow and Synovial Joint-Derived Mesenchymal Stem Cells for Cartilage Repair.Mechanical regulation of mesenchymal stem cell differentiation.Dynamic 3D culture: models of chondrogenesis and endochondral ossification.Simple Radical Polymerization of Poly(Alginate-Graft-N-Isopropylacrylamide) Injectable Thermoresponsive Hydrogel with the Potential for Localized and Sustained Delivery of Stem Cells and Bioactive Molecules.Design and Validation of Equiaxial Mechanical Strain Platform, EQUicycler, for 3D Tissue Engineered ConstructsCellular and Acellular Approaches for Cartilage Repair: A Philosophical Analysis.Microenvironmental factors that regulate mesenchymal stem cells: lessons learned from the study of heterotopic ossification.Infrapatellar fat pad-derived mesenchymal stromal cells from osteoarthritis patients: In vitro genetic stability and replicative senescence.Infrapatellar fat pad-derived stem cells maintain their chondrogenic capacity in disease and can be used to engineer cartilaginous grafts of clinically relevant dimensions.Infrapatellar Fat Pad Stem Cells: From Developmental Biology to Cell Therapy.Tissue Engineering Whole Bones Through Endochondral Ossification: Regenerating the Distal Phalanx.Equiaxial Strain Modulates Adipose-derived Stem Cell Differentiation within 3D Biphasic Scaffolds towards Annulus Fibrosus.Cyclic Tensile Strain Can Play a Role in Directing both Intramembranous and Endochondral Ossification of Mesenchymal Stem Cells.Meniscus ECM-functionalised hydrogels containing infrapatellar fat pad-derived stem cells for bioprinting of regionally defined meniscal tissue.Mechanical stimulation of mesenchymal stem cells: Implications for cartilage tissue engineering.Chondrogenesis of embryonic limb bud cells in micromass culture progresses rapidly to hypertrophy and is modulated by hydrostatic pressure.Engineering zonal cartilaginous tissue by modulating oxygen levels and mechanical cues through the depth of infrapatellar fat pad stem cell laden hydrogels.
P2860
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P2860
Cyclic hydrostatic pressure promotes a stable cartilage phenotype and enhances the functional development of cartilaginous grafts engineered using multipotent stromal cells isolated from bone marrow and infrapatellar fat pad.
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年学术文章
@wuu
2013年学术文章
@zh
2013年学术文章
@zh-cn
2013年学术文章
@zh-hans
2013年学术文章
@zh-my
2013年学术文章
@zh-sg
2013年學術文章
@yue
2013年學術文章
@zh-hant
name
Cyclic hydrostatic pressure pr ...... row and infrapatellar fat pad.
@en
Cyclic hydrostatic pressure pr ...... row and infrapatellar fat pad.
@nl
type
label
Cyclic hydrostatic pressure pr ...... row and infrapatellar fat pad.
@en
Cyclic hydrostatic pressure pr ...... row and infrapatellar fat pad.
@nl
prefLabel
Cyclic hydrostatic pressure pr ...... row and infrapatellar fat pad.
@en
Cyclic hydrostatic pressure pr ...... row and infrapatellar fat pad.
@nl
P1476
Cyclic hydrostatic pressure pr ...... row and infrapatellar fat pad.
@en
P2093
S F Carroll
P304
P356
10.1016/J.JBIOMECH.2013.12.006
P577
2013-12-13T00:00:00Z