Volumetric muscle loss and muscle degeneration are conditions for which there are currently no effective treatment options. Human adipose stem cells (hASCs) offer promise in cell-based regenerative therapies to treat muscle damage due to their ability to self-renew and differentiate. However, in the absence of universal culture conditions that yield greater than 15% myogenic differentiation, the clinical potential of these cells is limited. Here we report on the evaluation of two different media recipes, three extracellular matrix (ECM) proteins, and a poly (ethylene glycol) (PEGDMA) hydrogel with a physiologically relevant elasticity to determine how the extracellular chemical and physical environment work together to enhance myogenic differentiation of hASCs. Our results identify a combination of unique biochemical and physical factors that promote myogenesis, laying the groundwork for creating a scaffold and culture medium that will effectively and efficiently direct myogenic differentiation of adult stem cells for clinical applications in the future.
Keywords: Hydrogel scaffolds; Myogenesis; Regenerative medicine; Stem cells.
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