Structural and molecular basis of skeletal muscle diseases

Although elevation of the levels of serum alanine aminotransferase (ALT) following liver injury is well known, confusion exists concerning skeletal muscle injury as the cause of this rise. We reviewed the records of 16 patients who had muscle necrosis without evidence of liver disease. The patients

## Abstract This review summarizes current information regarding the changes in structure or function that occur in skeletal muscle secondary to spasticity. Most published studies have reported an increase in fiber size variability in spastic muscle. There is no general agreement regarding any shif

## Abstract Celiac disease is caused by inflammatory, gluten specific T cell responses in the small intestine. Invariably such responses are HLA‐DQ2 or HLA‐DQ8 restricted, providing an explanation for the strong association between celiac disease and these HLA‐class II alleles. It is now clear that

## Abstract Skeletal muscle is a tissue of high demand and it accounts for most of daily energy consumption. The classical concept of energy metabolism in skeletal muscle has been profoundly modified on the basis of studies showing the influence of additional factors (i.e., uncoupling proteins (UCP