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Additionally, tissue engineering requires human cells to be grown and assembled ... Critically, the emulsion templating technique, permits the porous polymer scaffolds to be fabricated in almost any ...
which makes them ideal for the fabrication of tissue engineering scaffolds with polymers. Addition of carbon nanotubes to a polymer helps cell growth and promotes cell attachment, proliferation ...
Quality control of the materials used in various surgical applications is a key challenge for the tissue engineering industry. For example, living human cells are being used in scaffolds to repair ...
Sell conducts research in the areas of tissue engineering and regenerative medicine, particularly focusing on the potential for electrospinning to create extracellular matrix analogue scaffolds for ...
The use of tissue engineering in regenerative medicine, known as TERM, is an active area of research that involves creating functional tissue through the combination of cells, scaffolds, and growth ...
The cells may grow to adopt the shape of the scaffold, so this feature can also be used to generate an implant tissue of the correct shape. In tissue engineering and regenerative medicine, “scaffolds” ...
Cardiovascular Reparative Medicine and Tissue ... engineering tools and develop new strategies for engineering, regenerating, and reprogramming human iPS cells, tissues or organs to restore or ...
Degradable porous drug-loaded polymer scaffolds for localized cancer drug delivery and breast cell/tissue growth. Materials Science and Engineering C, 2020; 112: 110794. (* = undergraduate students) ...
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