The objective of this study is to develop a skeletal muscle prosthetic composed entirely of natural or otherwise bioresorbable materials that recapitulates the structure and function of intact muscle. in our fabrication strategy we begin by electrospinning (see Mathews et al., this volume) a hollow, cylindrical fascial sheath composed of poly-glycolic acid (PGA), poly-lactic acid (PLA), Type I collagen microfibers or a blend of these materials (figure 1). The resulting fascial sheath is a highly porous fabric composed of interwoven fibers that range from less than 1 micron to 2-5 microns in diameter (patents pending). Next, we isolate neonatal rat skeletal myoblasts by enzymatic dissociation. The dissociated tissue is subjected to an interval of differential adhesion to enrich the preparation in skeletal muscle myoblasts. The final cell pellet of myoblasts is then suspended at high density in Type I collagen. This suspension is polymerized at 37°C for 10-15 minutes and used to fill a fascial sheaths (patents pending).