Synergism of biochemical and mechanical stimuli in the differentiation of human placenta-derived multipotent cells into endothelial cells.
about
Endothelial differentiation of amniotic fluid-derived stem cells: synergism of biochemical and shear force stimuliEnhancement of renal epithelial cell functions through microfluidic-based coculture with adipose-derived stem cells.Angiogenesis in differentiated placental multipotent mesenchymal stromal cells is dependent on integrin alpha5beta1.Age-related decreases of serum-response factor levels in human mesenchymal stem cells are involved in skeletal muscle differentiation and engraftment capacityPhysicochemical control of adult stem cell differentiation: shedding light on potential molecular mechanisms.Fluid shear stress promotes an endothelial-like phenotype during the early differentiation of embryonic stem cellsMapping the mechanome of live stem cells using a novel method to measure local strain fields in situ at the fluid-cell interfaceSynergy of endothelial and neural progenitor cells from adipose-derived stem cells to preserve neurovascular structures in rat hypoxic-ischemic brain injuryEndothelial differentiation of adipose-derived stem cells from elderly patients with cardiovascular disease.Rho/MRTF-A-Induced Integrin Expression Regulates Angiogenesis in Differentiated Multipotent Mesenchymal Stem CellsRole of nitric oxide in placental vascular development and function.Three-dimensional, soft neotissue arrays as high throughput platforms for the interrogation of engineered tissue environments.Shear Stress Induces Differentiation of Endothelial Lineage Cells to Protect Neonatal Brain from Hypoxic-Ischemic Injury through NRP1 and VEGFR2 Signaling.Shear stress blunts tubuloglomerular feedback partially mediated by primary cilia and nitric oxide at the macula densa.Periodontal ligament cells cultured under steady-flow environments demonstrate potential for use in heart valve tissue engineering.c-Maf regulates pluripotency genes, proliferation/self-renewal, and lineage commitment in ROS-mediated senescence of human mesenchymal stem cells.Novel sources of fetal stem cells: where do they fit on the developmental continuum?Endothelial differentiation of bone marrow mesenchyme stem cells applicable to hypoxia and increased migration through Akt and NFκB signals.Response of mesenchymal stem cells to shear stress in tissue-engineered vascular graftsDirected stem cell differentiation by fluid mechanical forces.Perinatal sources of mesenchymal stem cells: Wharton's jelly, amnion and chorion.Biomimetic three-dimensional microenvironment for controlling stem cell fateEndothelial differentiation of mesenchymal stromal cells: when traditional biology meets mechanotransduction.Blood flow and stem cells in vascular disease.The role of mechanical stimuli in the vascular differentiation of mesenchymal stem cells.Heparan sulfate proteoglycan mediates shear stress-induced endothelial gene expression in mouse embryonic stem cell-derived endothelial cellsSpheroid formation and neural induction in human adipose-derived stem cells on a chitosan-coated surface.Mechanical characterization of differentiated human embryonic stem cellsAnalysing calcium dependent and independent regulation of eNOS in endothelium triggered by extracellular signalling events.The stability evaluation of mesenchymal stem cells differentiation toward endothelial cells by chemical and mechanical stimulation.A multiphase model for chemically- and mechanically- induced cell differentiation in a hollow fibre membrane bioreactor: minimising growth factor consumption.Shear stress magnitude is critical in regulating the differentiation of mesenchymal stem cells even with endothelial growth medium.Shear stress and VEGF enhance endothelial differentiation of human adipose-derived stem cells.Association of SIRT1 expression with shear stress induced endothelial progenitor cell differentiation.
P2860
Q24631307-6E9D072E-C1F4-485F-9B12-667D3A8DC121Q30541886-ED3DBEDC-6A23-47AF-9DD3-8B0E8851ED93Q33511750-F846C223-F78B-484A-8A5C-3581075447FCQ33637253-C31A42A3-7EC2-4822-9EC3-C6683B94A4B8Q33773343-3D39365F-86F5-4855-8F9B-947C71EE6B16Q34353003-80DF0041-B902-4690-B44E-EEC2BFB918DEQ34412085-DB9E2BFC-96AE-45C7-90A7-C3E34264D971Q34497342-F2B8D2C4-E5D3-46D9-A7CD-D0521FDED52AQ35084111-7B38A84C-1770-47E8-91C6-0BDD96EEBB3CQ35534545-9D4157F4-A847-45A0-B17B-1860E9F9BE60Q35555933-EBBF84FB-5395-4910-9E62-EADB918E118DQ35648714-8AE6ABD5-2BF2-4B24-8125-A7FD4B1BD105Q36174215-858B2E0B-4039-4AE6-A791-D88DDBA44E8BQ36339259-CCC4EE5F-9758-4293-84A8-CEC22CCE669DQ36525928-651DBA21-A0D8-4CCE-9FAF-F6C4DAE04241Q36546379-3CCE41C2-D472-4F4F-ABEC-23F631C76EFCQ37479813-6261EEE9-D687-424B-AB76-B6465BBC2851Q37630834-B57B5B37-4817-45A4-8B89-D674DDE47D8CQ37728948-69F01452-B451-4116-90AD-5BA0229BA40AQ37835833-C2E8CD91-2435-47F7-A4B5-7FD3639C8556Q37904841-F825933F-59E9-4FEC-BA7E-8D3650DB2757Q38050778-BF466EAB-42E7-4579-9BA6-2CFB5647109BQ38053921-FF94023E-CB44-43FB-AAFA-3EA0C85A50B6Q38091966-096547B5-4E8F-458C-8B4D-13B4445A617BQ38538896-9936EA42-D306-4B72-B281-C6CE0A51861BQ39539594-262CC2BE-9C4B-477E-83C5-068D80E4E62FQ39653405-ED6E7FAE-4C59-4FF1-A4F5-E107F4A3925DQ39978854-F1D25CC7-032B-41EC-8946-B10CDCC76A8DQ42443326-6594F0E2-A2D8-4152-AFC7-A394867E6FEAQ47929732-54902220-4863-4FEB-A8AB-41729CC923E3Q50866856-BACDC83C-7CC4-4589-8CF8-3E10741DA156Q53412805-1F9423AB-FE87-488A-A070-716AD9B0C91EQ54331611-97BDBFDF-425F-41B1-8FA8-C5522D9E8701Q54501311-D2FE087F-B88E-47F9-AA78-6C34B28CB0A6
P2860
Synergism of biochemical and mechanical stimuli in the differentiation of human placenta-derived multipotent cells into endothelial cells.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh
2008年學術文章
@zh-hant
name
Synergism of biochemical and m ...... cells into endothelial cells.
@en
Synergism of biochemical and m ...... cells into endothelial cells.
@nl
type
label
Synergism of biochemical and m ...... cells into endothelial cells.
@en
Synergism of biochemical and m ...... cells into endothelial cells.
@nl
prefLabel
Synergism of biochemical and m ...... cells into endothelial cells.
@en
Synergism of biochemical and m ...... cells into endothelial cells.
@nl
P2093
P1476
Synergism of biochemical and m ...... cells into endothelial cells.
@en
P2093
B Linju Yen
Cheng-Nan Chen
Chia-Ching Wu
Chih-Chung Chien
Jeng-Jiann Chiu
Yao-Chang Chen
You-Chen Chao
P304
P356
10.1016/J.JBIOMECH.2007.11.008
P577
2008-01-10T00:00:00Z