Add to ORKGDynamic mechanical input is believed to play a critical role in the development of functional musculoskeletal tissues. To study this phenomenon, cyclic uniaxial mechanical stretch was applied to engineered ligaments using a custom-built bioreactor and the effects of different stretch frequency, amplitude, and duration were deter-mined. Stretch acutely increased the phosphorylation of p38 (3.5 – 0.74-fold), S6K1 (3.9 – 0.19-fold), and ERK1/2 (2.45 – 0.32-fold). The phosphorylation of ERK1/2 was dependent on time, rather than on frequency or ampli-tude, within these constructs. ERK1/2 phosphorylation was similar following stretch at frequencies from 0.1 to 1 Hz and amplitudes from 2.5 % to 15%, whereas phosphorylation reached maximal levels a...
Background and Objective Mechanical stretching modulates extracellular matrix (ECM) protein synthesi...
The aim of this study is to investigate the effects of scaffold structure on ligament tissue enginee...
Cells within tissues are subjected to mechanical forces caused by extracellular matrix deformation. ...
Dynamic mechanical input is believed to play a critical role in the development of functional muscul...
Intermittent cyclic stretching and incrementally increasing strain amplitude cyclic stretching were ...
In developing implantable tissues based on cellular remodeling of a fibrin scaffold, a key indicator...
Mesenchymal stem cells (MSCs) and fibroblasts are two major seed cells for ligament tissue engineeri...
Cyclic stretching is pivotal to maintenance of the ligaments. However, it is still not clear when li...
BACKGROUND: Cells within tissues are subjected to mechanical forces caused by extracellular matrix d...
Myoblast proliferation is crucial to skeletal muscle hypertrophy and regeneration. Our previous stud...
Vascular smooth muscle phenotype is regulated by environmental factors, such as mechanical forces, w...
<p>(A) RPTP-α<sup>+/+</sup> fibroblasts cultured on collagen-coated membranes were subjected to no m...
Mechanical conditioning is often used to enhance collagen synthesis, remodeling and maturation and, ...
Mechanical stimulation applied to damaged soft tissues, such as ligament, can promote tissue remodel...
This research was supported by the Undergraduate Research Opportunities Program (UROP)
Background and Objective Mechanical stretching modulates extracellular matrix (ECM) protein synthesi...
The aim of this study is to investigate the effects of scaffold structure on ligament tissue enginee...
Cells within tissues are subjected to mechanical forces caused by extracellular matrix deformation. ...
Dynamic mechanical input is believed to play a critical role in the development of functional muscul...
Intermittent cyclic stretching and incrementally increasing strain amplitude cyclic stretching were ...
In developing implantable tissues based on cellular remodeling of a fibrin scaffold, a key indicator...
Mesenchymal stem cells (MSCs) and fibroblasts are two major seed cells for ligament tissue engineeri...
Cyclic stretching is pivotal to maintenance of the ligaments. However, it is still not clear when li...
BACKGROUND: Cells within tissues are subjected to mechanical forces caused by extracellular matrix d...
Myoblast proliferation is crucial to skeletal muscle hypertrophy and regeneration. Our previous stud...
Vascular smooth muscle phenotype is regulated by environmental factors, such as mechanical forces, w...
<p>(A) RPTP-α<sup>+/+</sup> fibroblasts cultured on collagen-coated membranes were subjected to no m...
Mechanical conditioning is often used to enhance collagen synthesis, remodeling and maturation and, ...
Mechanical stimulation applied to damaged soft tissues, such as ligament, can promote tissue remodel...
This research was supported by the Undergraduate Research Opportunities Program (UROP)
Background and Objective Mechanical stretching modulates extracellular matrix (ECM) protein synthesi...
The aim of this study is to investigate the effects of scaffold structure on ligament tissue enginee...
Cells within tissues are subjected to mechanical forces caused by extracellular matrix deformation. ...