Evaluation of 31P NMR spectroscopy as an indicator of chemically induced hepatic toxicity in the rat: comparison with serum enzyme levels and pathology.

The progression of carbon tetrachloride-induced liver damage, determined by 31P NMR spectroscopy, was compared with selected serum enzyme and histological changes in rats. ATP levels declined as early as 8 h post-CCl4 administration, with partial recovery observed at 168 h. The results show that ATP reduction correlates with necrosis. In addition, early decline in ATP occurring prior to significant hepatocellular necrosis indicates abnormal energy metabolism.

Effects of potassium or potassium/magnesium supplementation on potassium content of body tissues and fluids in furosemide-treated rats on magnesium-deficient or magnesium-sufficient diet.

Persistent Mg2+ deficiency may interfere with restoration of normal tissue K+ levels. This study examined: a) the effects of chronic furosemide treatment on K+ of sartorius, aorta and ventricle of rats fed Mg2(+)-deficient (100 ppm) or Mg2(+)-sufficient (400 ppm) diet and deionized water; b) whether normal tissue K+ is restored by oral K+ or K+/Mg2+ supplementation with continued furosemide therapy. Levels of Mg2+ were also measured. Furosemide (20 mg/kg i.p.) decreased K+ in sartorius, aorta and ventricle by 5.5, 4.3 and 19.9 microEq/gm (p less than .05), respectively, in rats fed 100 ppm Mg2+ diet. Furosemide did not alter K+ levels in rats fed 400 ppm Mg2+ diet. K+ supplementation (1 mEq/kg for 7 days) restored K+ to normal in sartorius but the addition of Mg2+ supplementation was necessary to restore K+ levels to normal in ventricle and aorta. These data indicate that furosemide can decrease tissue K+ in rats on a Mg2(+)-deficient diet. This decrease can be reversed during diuretic administration by K+ supplementation in sartorius, or K+ plus Mg2+ supplementation in ventricle and aorta.