Obesity is associated with glucose intolerance. Glucose is to a large extent disposed in the skeletal muscle. Peripheral insulin resistance, as well as decreased enzymatic activity in the skeletal muscle, has been suggested in type II diabetes. Potassium is essential for such enzymatic reactions. In this study, obese men, but not women, with glucose intolerance tended to have a lower total body potassium per kg body weight, indicating a smaller muscle mass, than weight-matched normoglycaemic men. They also had a lower skeletal muscle potassium content per 100 g dry weight (P less than 0.05) and a higher muscle Na/K-ratio (P less than 0.05) compared with obese men with normal glucose tolerance. Muscle fat and muscle sodium content were higher in obese men than in women with the same body mass index (P less than 0.01). The muscle electrolyte changes can be explained by a decrease in the insulin mediated Na/k-pump activity across the cell membrane or a smaller number of insulin receptors on the skeletal muscle cell in patients with glucose intolerance.