Volumetric muscle loss (VML) is a devastating loss of muscle tissue that overwhelms the
native regenerative properties of skeletal muscle and results in lifelong functional deficits …

Skeletal muscle injuries typically result from traumatic incidents such as combat injuries
where soft-tissue extremity injuries are present in one of four cases. Further, about 4.5 …

A bioengineered skeletal muscle tissue as an alternative for autologous tissue flaps, which
mimics the structural and functional characteristics of the native tissue, is needed for …

Generating human skeletal muscle models is instrumental for investigating muscle
pathology and therapy. Here, we report the generation of three-dimensional (3D) artificial …

Progress toward finding a cure for muscle diseases has been slow because of the absence
of relevant cellular models and the lack of a reliable source of muscle progenitors for …

Tissue-engineered skeletal muscle can serve as a physiological model of natural muscle
and a potential therapeutic vehicle for rapid repair of severe muscle loss and injury. Here …

Biofabrication can be a tool to three-dimensionally (3D) print muscle cells embedded inside
hydrogel biomaterials, ultimately aiming to mimic the complexity of the native muscle tissue …

The musculoskeletal system is a vital body system that protects internal organs, supports
locomotion, and maintains homeostatic function. Unfortunately, musculoskeletal disorders …

The panniculus carnosus is a thin striated muscular layer intimately attached to the skin and
fascia of most mammals, where it provides skin twitching and contraction functions. In …

Skeletal muscle tissue can be created in vitro by tissue engineering approaches, based on
differentiation of muscle stem cells. Several approaches exist and generally result in three …