Keywords: سختی زیر بغل; Substrate stiffness; Micro-grooved topography; Smooth muscle differentiation; Micropipette aspiration; Cell mechanical properties; Mechanobiology;
مقالات ISI سختی زیر بغل (ترجمه نشده)
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Keywords: سختی زیر بغل; Valvular interstitial cell; Morphology distribution; Phenotype; Quiescent; Activated; Substrate stiffness; Passage number;
Keywords: سختی زیر بغل; Substrate stiffness; Neural network activity; ECM protein;
Keywords: سختی زیر بغل; Substrate stiffness; Macro-porosity; Differentiation; Mesenchymal stem cells; Mechanotransduction; Tissue engineering; Cell-matrix interactions;
Keywords: سختی زیر بغل; Cell Migration; Durotaxis; Substrate Stiffness; Fibronectin; Laminin;
Keywords: سختی زیر بغل; Endothelial cell; Endothelial function; Substrate stiffness; Polyelectrolyte multilayer films; Vascular endothelial growth factor;
Keywords: سختی زیر بغل; Hematopoietic stem cell; 3D microenvironment; Substrate stiffness; Heparin; Cell fate;
Keywords: سختی زیر بغل; Injectable hydrogels; Chitosan; Hyaluronic acid; Substrate stiffness; Articular chondrocytes;
Keywords: سختی زیر بغل; Cell adhesion; Integrin clustering; Ligand spacing; Substrate stiffness; Monte Carlo simulation;
Keywords: سختی زیر بغل; Cell elasticity; Biomechanics; Optical tweezers; Elastic modulus; Substrate stiffness
Keywords: سختی زیر بغل; Mechanotransduction; Substrate stiffness; 3D culture; Tissue engineering; Stem cell differentiation;
Keywords: سختی زیر بغل; Endothelial cell; Collective migration; Substrate stiffness; Rho kinase; Integrins;
Keywords: سختی زیر بغل; Human embryonic stem cells; Pancreatic differentiation; Substrate stiffness; Diabetes; Alginate encapsulation
Keywords: سختی زیر بغل; cell polarity; mechanobiology; micropatterning; cell forces; collective cell migration; substrate stiffness
Keywords: سختی زیر بغل; Extracellular matrix; Cellular microarrays; Traction force microscopy; Substrate stiffness; Liver progenitor cells;
Keywords: سختی زیر بغل; Polyelectrolyte multilayer films; Substrate stiffness; Biomaterials; Nucleus; Chromatin plasticity; Histone deacetylase inhibition;
Keywords: سختی زیر بغل; Substrate stiffness; Microcontact printing; Microenvironment; Polyacrylamide hydrogels; Stem cell differentiation;
Keywords: سختی زیر بغل; Substrate stiffness; Cardiac fibrosis; Myocardial cells; Cardiac fibroblasts; Gelatinases;
Keywords: سختی زیر بغل; Graphene; Cytocompatibility; Cell function and behavior; Substrate stiffness; Surface wetting property
Induction of quiescence (G0) in bone marrow stromal stem cells enhances their stem cell characteristics
Keywords: سختی زیر بغل; Quiescence (G0); BMSC; Transcriptome; Suspension culture; Adhesion; Substrate stiffness; Cell cycle; Osteoblastic differentiation; Reprogramming;
Substrate stiffness modulates the multipotency of human neural crest derived ectomesenchymal stem cells via CD44 mediated PDGFR signaling
Keywords: سختی زیر بغل; Neural crest; Ectomesenchymal stem cells; Substrate stiffness; Multipotency; CD44; PDGFRβ;
Reduced substrate stiffness promotes M2-like macrophage activation and enhances peroxisome proliferator-activated receptor γ expression
Keywords: سختی زیر بغل; PPARγ; Peroxisome proliferator-activated receptor γ; ECM; extracellular matrix; TGF-β; transforming growth factor-β; PI3K; phosphoinositide 3-kinase; F-actin; filamentous-actin; TNF-α; tumor necrosis factor-α; IL; interleukin; FCS; fetal calf serum;
The role of T-stress and stress triaxiality combined with the geometry on tensile fracture energy of brittle adhesives
Keywords: سختی زیر بغل; Brittle adhesives; Mode I fracture energy; T-stress; Stress triaxiality; DCB; Bondline thickness; Substrate stiffness;
Substrate stiffness regulates arterial-venous differentiation of endothelial progenitor cells via the Ras/Mek pathway
Keywords: سختی زیر بغل; EPC; endothelial progenitor cell; ECM; extracellular matrix; Dil-acLDL; 1,1-dioctadecyl-3,3,3,3-tetramethylindo-carbocyanin-eperchlorate-labeled acetylated low-density lipoprotein; UEA; Ulex europaeus agglutinin; PDMS; polydimethylsiloxane; BSA; bovine se
In silico CDM model sheds light on force transmission in cell from focal adhesions to nucleus
Keywords: سختی زیر بغل; Cytoskeleton; Nucleus deformation; Substrate stiffness; Microposts; Computational modeling; Divided medium mechanics; Mechanobiology; Mechanotransduction;
Substrate stiffness orchestrates epithelial cellular heterogeneity with controlled proliferative pattern via E-cadherin/β-catenin mechanotransduction
Keywords: سختی زیر بغل; Epithelial cellular heterogeneity; Substrate stiffness; Proliferative pattern; E-cadherin/β-catenin mechanotransduction;
Substrate topography: A valuable in vitro tool, but a clinical red herring for in vivo tenogenesis
Keywords: سختی زیر بغل; Tendon; Surface topography; Substrate stiffness; Lithography; Tenocyte morphology; Tenocyte phenotype; Tenocyte trans-differentiation; Tissue regeneration
The regulation of β-adrenergic receptor-mediated PKA activation by substrate stiffness via microtubule dynamics in human MSCs
Keywords: سختی زیر بغل; Mesenchymal stem cell; Substrate stiffness; β-adrenergic receptor; FRET biosensor; Molecular imaging; Protein kinase A;
Diminished expression of h2-calponin in prostate cancer cells promotes cell proliferation, migration and the dependence of cell adhesion on substrate stiffness
Keywords: سختی زیر بغل; FBS; fetal bovine serum; mAb; monoclonal antibody; MES; 2-[N morpholino]ethanesulfonic acid; SDS-PAGE; SDS-polyacrylamide gel electrophoresis; PBS; phosphate buffered saline; H2-calponin; Cytoskeleton; Cell motility; Mechanical regulation; Substrate s
Effect of RGD functionalization and stiffness modulation of polyelectrolyte multilayer films on muscle cell differentiation
Keywords: سختی زیر بغل; Extracellular matrix; Arginylglycylaspartic acid; Substrate stiffness; Polyelectrolyte multilayer films; Myogenesis;
Substrate stiffness affects sarcomere and costamere structure and electrophysiological function of isolated adult cardiomyocytes
Keywords: سختی زیر بغل; Adult cardiomyocyte; Substrate stiffness; Fibrosis; Sarcomere; Costamere
From tissue mechanics to transcription factors
Keywords: سختی زیر بغل; Mechanotransduction; Mechanosensing; Substrate stiffness; Mechanical stress
Control of three-dimensional substrate stiffness to manipulate mesenchymal stem cell fate toward neuronal or glial lineages
Keywords: سختی زیر بغل; Nerve tissue engineering; 3-D scaffold; Mechanical property; Substrate stiffness; Mesenchymal stem cell
Substrate stiffness regulates temporary NF-κB activation via actomyosin contractions
Keywords: سختی زیر بغل; Actomyosin; Lung adenocarcinoma cell; NF-κB; Mechanotransduction; Substrate stiffness
Substrate stiffness regulates the proliferation, migration, and differentiation of epidermal cells
Keywords: سختی زیر بغل; Epidermal cells; Substrate stiffness; Proliferation; Migration; Differentiation
Influence of substrate rigidity on primary nucleation of cell adhesion: A thermal fluctuation model
Keywords: سختی زیر بغل; Integrin-dependent cell-substrate adhesion; Substrate stiffness; Thermal undulation; Energy potential well; Nucleation domain
The combined influence of substrate elasticity and ligand density on the viability and biophysical properties of hematopoietic stem and progenitor cells
Keywords: سختی زیر بغل; Hematopoietic stem cell; Substrate stiffness; Ligand density; Cytoskeleton; Fate
Influence of substrate stiffness on circulating progenitor cell fate
Keywords: سختی زیر بغل; TE; Tissue Engineering; cPC; Circulating Progenitor Cell; EC; Endothelial Cell; ECFC; Endothelial Colony Forming Cell; ECM; Extracellular Matrix; SMC; Smooth Muscle Cell; PBMC; Peripheral Blood Mononuclear Cell; FA; Focal Adhesion; TGF-β1; Transforming G
Cell-substrate interaction with cell-membrane-stress dependent adhesion
Keywords: سختی زیر بغل; Boundary element method; Cell adhesion; Cell membrane stress; Cohesive spring model; Elasticity; Finite element method; Mechanotransduction; Shell; Substrate stiffness;
The influence of substrate stiffness on the behavior and functions of Schwann cells in culture
Keywords: سختی زیر بغل; Schwann cells; Substrate stiffness; Adhesion; Proliferation; Migration; Neurotrophic actions;
A model for cell motility on soft bio-adhesive substrates
Keywords: سختی زیر بغل; Cell motility; Adhesion; Substrate stiffness; Cytoskeleton; Modeling;
Finite element analysis of the effects of focal adhesion mechanical properties and substrate stiffness on cell migration
Keywords: سختی زیر بغل; Cell-ECM interactions; Substrate stiffness; Traction; Focal adhesions; Finite element model;
Influence of substrate stiffness on cell–substrate interfacial adhesion and spreading: A mechano-chemical coupling model
Keywords: سختی زیر بغل; Cell–substrate interaction; Substrate stiffness; Adhesion strength; Spreading area; Mechano-chemical coupling model
Substrate stiffness regulates apoptosis and the mRNA expression of extracellular matrix regulatory genes in the rat annular cells
Keywords: سختی زیر بغل; Apoptosis; ECM metabolism; Cell spreading; Substrate stiffness; Intervertebral disc degeneration
Exogenous and endogenous force regulation of endothelial cell behavior
Keywords: سختی زیر بغل; Substrate stiffness; Shear stress; Cyclic strain; Angiogenesis; Cell mechanics
Integration of statistical modeling and high-content microscopy to systematically investigate cell–substrate interactions
Keywords: سختی زیر بغل; Extracellular matrix; Mesenchymal stem cell; Substrate stiffness; Mechanobiology; High-content screening
Parabolic dependence of material properties and cell behavior on the composition of polymer networks via simultaneously controlling crosslinking density and crystallinity
Keywords: سختی زیر بغل; Poly(propylene fumarate) (PPF); Poly(ɛ-caprolactone) diacrylate (PCLDA); Photo-crosslinking; Substrate stiffness; Cell–biomaterial interaction
The effect of substrate stiffness on adult neural stem cell behavior
Keywords: سختی زیر بغل; Neural stem cells; Substrate stiffness; Hydrogel scaffolds; Chitosan; Neurons; Oligodendrocytes
Elasticity-driven droplet movement on a microbeam with gradient stiffness: A biomimetic self-propelling mechanism
Keywords: سختی زیر بغل; Surface tension; Substrate stiffness; Directional motion; Elasticity; Solid/liquid interface