AbstractMechanical deformation applied at the joint or tissue level is transmitted through the macroscale extracellular matrix to the microscale local matrix, where it is transduced to cells within these tissues and modulates tissue growth, maintenance, and repair. The objective of this study was to investigate how applied tissue strain is transferred through the local matrix to the cell and nucleus in meniscus, tendon, and the annulus fibrosus, as well as in stem cell-seeded scaffolds engineered to reproduce the organized microstructure of these native tissues. To carry out this study, we developed a custom confocal microscope-mounted tensile testing device and simultaneously monitored strain across multiple length scales. Results showed t...
It is believed that mechanical stimuli, such as stretching of the extracellular matrix, are transmit...
Understanding the mechanism of the load bearing and force transmission throughout fibrous biological...
Biological tissues have a complex hierarchical architecture that spans organ to subcellular scales a...
AbstractMechanical deformation applied at the joint or tissue level is transmitted through the macro...
AbstractCells within fibrocartilaginous tissues, including chondrocytes and fibroblasts of the menis...
Fiber-reinforced musculoskeletal soft tissues, such as the tendon, meniscus, and annulus fibrosus, a...
AbstractMechanical signals transferred between a cell and its extracellular matrix play an important...
Cells in vivo reside in a framework known as extracellular matrix (ECM). The ECM guides tissue struc...
Fibrochondrocytes within meniscal tissue have been shown to alter their biochemical activity in resp...
Full understanding of strain-induced collagen organization in complex tissue geometries to create ti...
Cells embedded within tissues respond to mechanical, chemical and biological signals. However, the d...
<p>Mesenchymal stem cells (MSCs) have been investigated with promising results for meniscus healing ...
The extracellular matrix consists of a complex mixture of fibrillar proteins, in which the architect...
AbstractTissue models reconstituted from cells and extracellular matrix (ECM) simulate natural tissu...
The transmission of mechanical muscle force to bone for musculoskeletal stability and movement is on...
It is believed that mechanical stimuli, such as stretching of the extracellular matrix, are transmit...
Understanding the mechanism of the load bearing and force transmission throughout fibrous biological...
Biological tissues have a complex hierarchical architecture that spans organ to subcellular scales a...
AbstractMechanical deformation applied at the joint or tissue level is transmitted through the macro...
AbstractCells within fibrocartilaginous tissues, including chondrocytes and fibroblasts of the menis...
Fiber-reinforced musculoskeletal soft tissues, such as the tendon, meniscus, and annulus fibrosus, a...
AbstractMechanical signals transferred between a cell and its extracellular matrix play an important...
Cells in vivo reside in a framework known as extracellular matrix (ECM). The ECM guides tissue struc...
Fibrochondrocytes within meniscal tissue have been shown to alter their biochemical activity in resp...
Full understanding of strain-induced collagen organization in complex tissue geometries to create ti...
Cells embedded within tissues respond to mechanical, chemical and biological signals. However, the d...
<p>Mesenchymal stem cells (MSCs) have been investigated with promising results for meniscus healing ...
The extracellular matrix consists of a complex mixture of fibrillar proteins, in which the architect...
AbstractTissue models reconstituted from cells and extracellular matrix (ECM) simulate natural tissu...
The transmission of mechanical muscle force to bone for musculoskeletal stability and movement is on...
It is believed that mechanical stimuli, such as stretching of the extracellular matrix, are transmit...
Understanding the mechanism of the load bearing and force transmission throughout fibrous biological...
Biological tissues have a complex hierarchical architecture that spans organ to subcellular scales a...