scholarly article | Q13442814 |
P2093 | author name string | Brendon M Baker | |
Dawn M Elliott | |||
Robert L Mauck | |||
Nandan L Nerurkar | |||
Su-Jin Heo | |||
Jung-Woog Shin | |||
P2860 | cites work | Multivalent integrin-specific ligands enhance tissue healing and biomaterial integration | Q24599082 |
Multilineage potential of adult human mesenchymal stem cells | Q27860737 | ||
Matrix elasticity directs stem cell lineage specification | Q27860761 | ||
Cell shape, cytoskeletal tension, and RhoA regulate stem cell lineage commitment | Q28255124 | ||
Growth factors, matrices, and forces combine and control stem cells | Q29616603 | ||
Novel nanofiber-based scaffold for rotator cuff repair and augmentation | Q30437053 | ||
Inactivation of the C. elegans lipin homolog leads to ER disorganization and to defects in the breakdown and reassembly of the nuclear envelope | Q30489388 | ||
Engineering on the straight and narrow: the mechanics of nanofibrous assemblies for fiber-reinforced tissue regeneration. | Q33634560 | ||
Fabrication and modeling of dynamic multipolymer nanofibrous scaffolds | Q33697197 | ||
The influence of an aligned nanofibrous topography on human mesenchymal stem cell fibrochondrogenesis. | Q33907570 | ||
Engineering gene expression and protein synthesis by modulation of nuclear shape | Q34011846 | ||
Evaluation of the complex transcriptional topography of mesenchymal stem cell chondrogenesis for cartilage tissue engineering. | Q34083281 | ||
Mechano-topographic modulation of stem cell nuclear shape on nanofibrous scaffolds | Q34259090 | ||
Biophysical regulation of histone acetylation in mesenchymal stem cells | Q34800912 | ||
Dynamic tensile loading improves the functional properties of mesenchymal stem cell-laden nanofiber-based fibrocartilage | Q34811713 | ||
Anisotropic mechanosensing by mesenchymal stem cells | Q35133684 | ||
Nanofibrous biologic laminates replicate the form and function of the annulus fibrosus | Q36152358 | ||
Engineered disc-like angle-ply structures for intervertebral disc replacement. | Q36172350 | ||
Long-term dynamic loading improves the mechanical properties of chondrogenic mesenchymal stem cell-laden hydrogel | Q36364993 | ||
Modeling interlamellar interactions in angle-ply biologic laminates for annulus fibrosus tissue engineering | Q36441809 | ||
Transfer of macroscale tissue strain to microscale cell regions in the deformed meniscus. | Q36791286 | ||
Engineering controllable anisotropy in electrospun biodegradable nanofibrous scaffolds for musculoskeletal tissue engineering | Q37130496 | ||
Tissue engineering with meniscus cells derived from surgical debris | Q37166763 | ||
Intervertebral disc tissue engineering using a novel hyaluronic acid-nanofibrous scaffold (HANFS) amalgam | Q37176606 | ||
Nuclear shape, mechanics, and mechanotransduction | Q37183946 | ||
Sizing up the nucleus: nuclear shape, size and nuclear-envelope assembly | Q37472616 | ||
In the middle of it all: mutual mechanical regulation between the nucleus and the cytoskeleton | Q37608731 | ||
"Aligned-to-random" nanofiber scaffolds for mimicking the structure of the tendon-to-bone insertion site. | Q39329700 | ||
Scale-dependent fiber kinematics of elastomeric electrospun scaffolds for soft tissue engineering | Q41508576 | ||
ISSLS prize winner: integrating theoretical and experimental methods for functional tissue engineering of the annulus fibrosus | Q42286059 | ||
The effect of nanofiber alignment on the maturation of engineered meniscus constructs. | Q42861878 | ||
Mechanical properties of the long-head of the biceps tendon are altered in the presence of rotator cuff tears in a rat model | Q42919940 | ||
Effect of fiber distribution and realignment on the nonlinear and inhomogeneous mechanical properties of human supraspinatus tendon under longitudinal tensile loading | Q42928030 | ||
Tissue-to-cellular level deformation coupling in cell micro-integrated elastomeric scaffolds | Q43229187 | ||
Effect of Fiber Orientation and Strain Rate on the Nonlinear Uniaxial Tensile Material Properties of Tendon | Q47383055 | ||
ISSLS prize winner: Collagen fibril sliding governs cell mechanics in the anulus fibrosus: an in situ confocal microscopy study of bovine discs. | Q48346341 | ||
The nuclear envelope lamina network has elasticity and a compressibility limit suggestive of a molecular shock absorber. | Q50671769 | ||
Mechanics of oriented electrospun nanofibrous scaffolds for annulus fibrosus tissue engineering. | Q51018409 | ||
Inhibition of in vitro chondrogenesis in RGD-modified three-dimensional alginate gels. | Q51101107 | ||
Chondrogenic differentiation and functional maturation of bovine mesenchymal stem cells in long-term agarose culture. | Q51328418 | ||
In situ intercellular mechanics of the bovine outer annulus fibrosus subjected to biaxial strains. | Q51725736 | ||
Investigation of the laminate structure of lumbar disc anulus fibrosus | Q68837455 | ||
Polar surface chemistry of nanofibrous polyurethane scaffold affects annulus fibrosus cell attachment and early matrix accumulation | Q83082471 | ||
P433 | issue | 11 | |
P921 | main subject | mesenchymal stem cell | Q1922379 |
cell morphology | Q66568582 | ||
P304 | page(s) | 2780-2790 | |
P577 | publication date | 2011-07-29 | |
P1433 | published in | Annals of Biomedical Engineering | Q15760783 |
P1476 | title | Fiber stretch and reorientation modulates mesenchymal stem cell morphology and fibrous gene expression on oriented nanofibrous microenvironments | |
P478 | volume | 39 |
Q44739079 | A novel device to quantify the mechanical properties of electrospun nanofibers |
Q35194350 | A novel stretching platform for applications in cell and tissue mechanobiology. |
Q45907923 | Actin and microtubules play distinct roles in governing the anisotropic deformation of cell nuclei in response to substrate strain. |
Q38189257 | Bio-chemo-mechanical models for nuclear deformation in adherent eukaryotic cells. |
Q36006822 | Cell Alignment Driven by Mechanically Induced Collagen Fiber Alignment in Collagen/Alginate Coatings |
Q89878702 | Cellular Geometry Sensing at Different Length Scales and its Implications for Scaffold Design |
Q47339379 | Crimped Nanofibrous Biomaterials Mimic Microstructure and Mechanics of Native Tissue and Alter Strain Transfer to Cells. |
Q35755016 | Cytoskeletal to Nuclear Strain Transfer Regulates YAP Signaling in Mesenchymal Stem Cells. |
Q35108001 | Decellularized ECM effects on human mesenchymal stem cell stemness and differentiation |
Q27023837 | Deconstructing the third dimension: how 3D culture microenvironments alter cellular cues |
Q37490627 | Differentiation alters stem cell nuclear architecture, mechanics, and mechano-sensitivity |
Q41141135 | Engineering the geometrical shape of mesenchymal stromal cells through defined cyclic stretch regimens |
Q47448626 | Expansion of mesenchymal stem cells on electrospun scaffolds maintains stemness, mechano-responsivity, and differentiation potential |
Q35236212 | From repair to regeneration: biomaterials to reprogram the meniscus wound microenvironment. |
Q35183538 | Impact of cellular microenvironment and mechanical perturbation on calcium signalling in meniscus fibrochondrocytes |
Q34913441 | Macro- to microscale strain transfer in fibrous tissues is heterogeneous and tissue-specific |
Q39455877 | Mechanically Induced Chromatin Condensation Requires Cellular Contractility in Mesenchymal Stem Cells. |
Q36723070 | Microstructural heterogeneity directs micromechanics and mechanobiology in native and engineered fibrocartilage |
Q39602013 | Modulation of mesenchymal stem cell shape in enzyme-sensitive hydrogels is decoupled from upregulation of fibroblast markers under cyclic tension. |
Q34700159 | Regulation of fibrochondrogenesis of mesenchymal stem cells in an integrated microfluidic platform embedded with biomimetic nanofibrous scaffolds |
Q36212976 | Sacrificial nanofibrous composites provide instruction without impediment and enable functional tissue formation |
Q35865353 | Salicylic Acid-Based Polymers for Guided Bone Regeneration Using Bone Morphogenetic Protein-2 |
Q39029494 | The Nuclear Option: Evidence Implicating the Cell Nucleus in Mechanotransduction |
Search more.