Nearly half of all cancer patients suffer from excessive weight loss due to the loss of adipose and skeletal muscle tissues, or cachexia. This progressive illness not only impairs quality of life for ...

Researchers at the University of Houston are pushing the boundaries of biomedical innovation with a discovery that could transform treatment for one of cancer's most devastating complications. In a ...

Cancer cachexia is a multifactorial syndrome marked by a severe loss of body weight due primarily to the wasting of skeletal muscle and adipose tissue. This syndrome is often accompanied by systemic ...

Researchers at the University of Houston are pushing the boundaries of biomedical innovation with a discovery that could transform treatment for one of cancer’s most devastating complications. In a ...

Bioengineers have developed a mechanically active adhesive named MAGENTA, which functions as a soft robotic device able to extend and contract muscles from the outside. In an animal model, MAGENTA ...

HOUSTON – A newly identified gene, atrogin-1, is involved in muscle loss associated with cancer, diabetes, fasting and kidney disease as well as in the atrophy occurring with disuse, inactivity, and ...

Skeletal muscle atrophy, or wasting, is a devastating and often irreversible syndrome during the aging process and for patients with advanced cancer. Muscle wasting involves a decrease in muscle mass ...

Scientists at Duke-NUS Medical School have uncovered how exercise helps aging muscles regain their ability to repair ...

Today, muscle atrophy is often unavoidable when you can't move due to severe injury, old age or diseases like amyotrophic lateral sclerosis (ALS) and multiple sclerosis (MS). However, Harvard ...

Muscles are made to move. Stretching and contraction stimulate biochemical pathways within muscle that maintain tissue health. When movement slows—when a broken limb is immobilized in a cast, for ...