Add to ORKGTo successfully develop a functional tissue-engineered vascular patch, recapitulating the hierarchical structure of vessel is critical to mimic mechanical properties. Here, we use a cell sheet engineering strategy with micropatterning technique to control structural organization of bovine aortic vascular smooth muscle cell (VSMC) sheets. Actin filament staining and image analysis showed clear cellular alignment of VSMC sheets cultured on patterned substrates. Viability of harvested VSMC sheets was confirmed by Live/Dead® cell viability assay after 24 and 48 hours of transfer. VSMC sheets stacked to generate bilayer VSMC patches exhibited strong inter-layer bonding as shown by lap shear test. Uniaxial tensile testing of monolayer VSMC sheets...
Three-dimensional (3D) engineered cardiovascular tissues have shown great promise to replace damaged...
Cell signalling and mechanics influence vascular pathophysiology and there is an increasing demand f...
Engineering three-dimensional (3D) vascularized constructs remains a challenge due to the inability ...
Cardiovascular disease remains the leading cause of death in the United States and oftentimes damage...
Vascular smooth muscle cells regulate blood flow by contracting and relaxing blood vessels. Vascular...
In blood vessel engineering, an optimal bioartifical scaffold can be characterized as a 3D tubular s...
This dissertation focuses on the development of novel methods for tissue engineering the medial laye...
University of Minnesota Ph.D. dissertation. August 2017. Major: Biomedical Engineering. Advisor: Pat...
Tissue engineered constructs with cells growing in an organized manner have been shown to have impro...
Cell culture substrates for contact guidance studies can be developed through polymer processing to ...
This report describes a high throughput microfluidic method to control cell placement in two-dimensi...
Cell sheet engineering has recently emerged as a promising strategy for scaffold-free tissue enginee...
Cell sheet engineering has recently emerged as a promising strategy for scaffold-free tissue enginee...
In the clinical and pharmacological fields, there is a need for the production of tissue-engineered ...
Every year, 400,000 coronary artery bypasses (CABG) are performed in the United States. However, one...
Three-dimensional (3D) engineered cardiovascular tissues have shown great promise to replace damaged...
Cell signalling and mechanics influence vascular pathophysiology and there is an increasing demand f...
Engineering three-dimensional (3D) vascularized constructs remains a challenge due to the inability ...
Cardiovascular disease remains the leading cause of death in the United States and oftentimes damage...
Vascular smooth muscle cells regulate blood flow by contracting and relaxing blood vessels. Vascular...
In blood vessel engineering, an optimal bioartifical scaffold can be characterized as a 3D tubular s...
This dissertation focuses on the development of novel methods for tissue engineering the medial laye...
University of Minnesota Ph.D. dissertation. August 2017. Major: Biomedical Engineering. Advisor: Pat...
Tissue engineered constructs with cells growing in an organized manner have been shown to have impro...
Cell culture substrates for contact guidance studies can be developed through polymer processing to ...
This report describes a high throughput microfluidic method to control cell placement in two-dimensi...
Cell sheet engineering has recently emerged as a promising strategy for scaffold-free tissue enginee...
Cell sheet engineering has recently emerged as a promising strategy for scaffold-free tissue enginee...
In the clinical and pharmacological fields, there is a need for the production of tissue-engineered ...
Every year, 400,000 coronary artery bypasses (CABG) are performed in the United States. However, one...
Three-dimensional (3D) engineered cardiovascular tissues have shown great promise to replace damaged...
Cell signalling and mechanics influence vascular pathophysiology and there is an increasing demand f...
Engineering three-dimensional (3D) vascularized constructs remains a challenge due to the inability ...