cardiac tissue engineering/regenerative medicine

Tissue engeneering and Cardiac Regeneration

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Tissue Engineering Unit

We have developed a three-dimensional skeletal muscle construct, the eX-vivo Muscle Engineered Tissue (X-MET), derived from murine skeletal muscle primary cultures containing satellite cells, fibroblasts, and endothelial cells. X-MET closely mimics native skeletal muscle architecture, providing an ideal in vitro model to study muscle homeostasis, differentiation, and muscle–nerve interactions in physiological and pathological conditions.

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Decellularized Human Dermal Matrix as a Biological Scaffold for Cardiac Repair and Regeneration

The complex and highly organized environment in which cells reside consists primarily of the extracellular matrix (ECM) that delivers biological signals and physical stimuli to resident cells. In the native myocardium, the ECM contributes to both heart compliance and cardiomyocyte maturation and function. Thus, myocardium regeneration cannot be accomplished if cardiac ECM is not restored. We hypothesize that decellularized human skin might make an easily accessible and viable alternate biological scaffold for cardiac tissue engineering (CTE).