The strain magnitude and contact guidance determine orientation response of fibroblasts to cyclic substrate strains.
about
Biomimetic substrate control of cellular mechanotransductionMatrix production and organization by endothelial colony forming cells in mechanically strained engineered tissue constructsHeading in the Right Direction: Understanding Cellular Orientation Responses to Complex Biophysical EnvironmentsRemodeling of engineered tissue anisotropy in response to altered loading conditions.Temporal effects of cyclic stretching on distribution and gene expression of integrin and cytoskeleton by ligament fibroblasts in vitro.Engineering of aligned skeletal muscle by micropatterning.Effect of mechanical boundary conditions on orientation of angiogenic microvessels.Fate of tenogenic differentiation potential of human bone marrow stromal cells by uniaxial stretching affected by stretch-activated calcium channel agonist gadolinium.Mechano-topographic modulation of stem cell nuclear shape on nanofibrous scaffoldsMultiarray cell stretching platform for high-magnification real-time imaging.Engineering meniscus structure and function via multi-layered mesenchymal stem cell-seeded nanofibrous scaffoldsCombined effects of microtopography and cyclic strain on vascular smooth muscle cell orientation.The guidance of stem cell differentiation by substrate alignment and mechanical stimulation.Effects of cell seeding and cyclic stretch on the fiber remodeling in an extracellular matrix-derived bioscaffold.Mechanical control of stem cell differentiation.Loss of mechanical strain impairs abdominal wall fibroblast proliferation, orientation, and collagen contraction function.Vascular Mechanobiology: Towards Control of In Situ Regeneration.Spatial patterning of cell proliferation and differentiation depends on mechanical stress magnitude.Repetitive mechanical stretching modulates IL-1beta induced COX-2, MMP-1 expression, and PGE2 production in human patellar tendon fibroblasts.EP4 receptor regulates collagen type-I, MMP-1, and MMP-3 gene expression in human tendon fibroblasts in response to IL-1 beta treatment.Competition between cap and basal actin fiber orientation in cells subjected to contact guidance and cyclic strain.Time-dependent combinatory effects of active mechanical loading and passive topographical cues on cell orientation.The use of a novel cardiac bioreactor system in investigating fibroblast physiology and its perspectives.Inflammatory response of human tendon fibroblasts to cyclic mechanical stretching.Contact guidance and collective migration in the advancing epithelial monolayer.Response of adherent cells to mechanical perturbations of the surrounding matrix.Prediction of Cell Alignment on Cyclically Strained Grooved Substrates.A magnetically actuated cellular strain assessment tool for quantitative analysis of strain induced cellular reorientation and actin alignment.Nonlinear dynamics of cell orientation.A new experimental system for simultaneous application of cyclic tensile strain and fluid shear stress to tenocytes in vitro.Modelling The Combined Effects Of Collagen and Cyclic Strain On Cellular Orientation In Collagenous Tissues.Strategies and Challenges for Bio-inspired Cardiovascular Biomaterials
P2860
Q26748528-FCA011A2-33AC-47BF-A5D3-D8B73918FE22Q27308049-9CA0A7A1-3CE7-456B-B886-158B07832E30Q28072132-D8F333BC-FF72-47E1-842A-00B3C409E240Q30435126-CE3D99C0-E097-4B85-9BFE-1826729FEDA6Q33487860-EFF5E65C-7E0F-4E83-A75A-D3BF50641F9AQ33680680-06F7E4BD-BF1D-48A1-B954-A000CBEC68BEQ33736577-EE7EB987-A1EB-4533-A060-ADBD94297805Q33842231-FD6A3B4D-24EF-48ED-8C79-B57582CFD470Q34259090-7206AFA9-6DE4-46C3-8500-3535A46A41A0Q34656590-5237E16E-843A-4D36-9709-0AA4B0EB737CQ35639696-EC7EAB6E-59EF-4666-9734-35B4F2DF1142Q36628421-ECEDC9A4-FE23-4BEE-9684-8C2062C04CBCQ36947645-F6770B81-49DB-4A35-A6E4-6C7C85A9595EQ37454708-DC4DB77A-F468-4EB1-94FB-643DB442A70EQ37968325-131EE757-7FD0-4362-8B93-BFD4657C6654Q38280231-EACCA7C7-C56F-4FAB-9CEA-48B3F15B658EQ38696893-CE466081-F87E-487C-9603-08F8CA21BB5EQ41817192-42B57EC8-F652-4948-BE50-BFBD1CB0FFA5Q41832760-743CD590-8915-496B-A395-D94C80BC0402Q42213826-951E17DA-EF44-41A0-A95C-AA32FE6CA16AQ42473633-8B7A5849-B278-4BE3-8648-8CE3264435CFQ42812484-D75E1D19-7323-4848-8CFB-9B40A95DAE8AQ42929184-AFC1CD3F-9C3D-4E4E-AC98-9C29E3751C69Q44772530-F464D16F-B21C-417E-964C-FE394FAD4C6DQ47636616-5ABB423B-54BB-4A0E-A1D2-0DA77CE7C0D0Q47685231-491B1BF0-C5E9-4688-8AEA-C86D9FEA535BQ51099710-D592FBAF-37AC-455A-AE0F-FC53CC33AB22Q51175144-A448C55D-852A-4008-8E08-E4CDDA68469BQ51708853-CA122446-F8C1-4F31-B023-FEC50F9E5249Q53097294-1775D2CA-D6FB-4772-8156-4A9540650481Q55262585-EEBF8AB3-2708-44B4-BBC6-073CD413941FQ57340497-B25BB41B-E48B-4AC4-96C4-FE87454A394A
P2860
The strain magnitude and contact guidance determine orientation response of fibroblasts to cyclic substrate strains.
description
2000 nî lūn-bûn
@nan
2000 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
The strain magnitude and conta ...... s to cyclic substrate strains.
@ast
The strain magnitude and conta ...... s to cyclic substrate strains.
@en
type
label
The strain magnitude and conta ...... s to cyclic substrate strains.
@ast
The strain magnitude and conta ...... s to cyclic substrate strains.
@en
prefLabel
The strain magnitude and conta ...... s to cyclic substrate strains.
@ast
The strain magnitude and conta ...... s to cyclic substrate strains.
@en
P2860
P1476
The strain magnitude and conta ...... s to cyclic substrate strains.
@en
P2093
P2860
P356
10.3109/03008200009005639
P577
2000-01-01T00:00:00Z