Natural biomaterials, such as collagen, gelatin, and chitosan, are considered as promising
candidates for use in tissue regeneration treatment, given their similarity to natural tissues …

Advanced in vitro models of human skeletal muscle tissue are increasingly needed to model
complex developmental dynamics and disease mechanisms not recapitulated in animal …

Damage that affects large volumes of skeletal muscle tissue can severely impact health,
mobility, and quality-of-life. Efforts to restore muscle function by implanting tissue …

Adult skeletal muscle harbours a population of muscle stem cells (MuSCs) that are required
for repair after tissue injury. In youth, MuSCs return to a reversible state of cell-cycle arrest …

We investigate the age-related metabolic changes that occur in aged and rejuvenated
myoblasts using in vitro and in vivo models of aging. Metabolic and signaling experiments …

Abstract Background Skeletal muscle (SkM) regenerates following injury, replacing
damaged tissue with high fidelity. However, in serious injuries, non-regenerative defects …

A mechanistic understanding of cell‐autonomous skeletal muscle changes after injury can
lead to novel interventions to improve functional recovery in an aged population. However …

Sarcopenia is a musculoskeletal disorder related to muscle mass and function; as the
worldwide population ages, its growing prevalence means a decline in quality of life and an …

Cellular senescence leads to the depletion of myogenic progenitors and decreased
regenerative capacity. We show that the small molecule 2, 6‐disubstituted purine, reversine …

Satellite cells (SCs), the adult Pax7-expressing stem cells of skeletal muscle, are essential
for muscle repair. However, in vitro investigations of SC function are challenging due to …