Duchenne muscular dystrophy (DMD) causes dysfunction of muscle cells that help move blood through the circulatory system, a ...

Scientists have developed a novel approach of genome editing to repair muscle stem (satellite) cells, offering new hope for ...

Scientists discover that muscles repair themselves by moving thousands of internal nuclei, a rapid process that is key after ...

Researchers from Tokyo Metropolitan University have developed a way to treat aging-related muscular atrophy using regenerative medicine. Conventional methods to implant myoblasts, precursors to muscle ...

MUVON Therapeutics, a clinical-stage biotechnology company focused on developing a novel platform for the regeneration of ...

Researchers at the University of Houston are pushing the boundaries of biomedical innovation with a discovery that could transform treatment for cancer-induced cachexia, a debilitating syndrome ...

Cancer patients often lose excessive amounts of weight. This affects up to 80% of patients and is mainly due to a decrease in muscle mass and fatty tissue. This cancer-induced cachexia (CIC) is ...

A new study reveals that vesicles packed with healthy mitochondria can supercharge tissue repair and combat chronic disease, paving the way for next-generation regenerative treatments. Study: ...

Muscle memory isn't just about muscles; it's your brain and nervous system adapting to repeated movements, making them ...

MHH scientist investigates how pro-inflammatory cytokines interfere with muscle metabolism and actively transform muscles.