GASTROINTESTINAL HYPOMOTILITY IN MAGNESIUM-DEFICIENT SHEEP
نویسندگان
چکیده
منابع مشابه
Disorders of gastrointestinal hypomotility
Ingestion and digestion of food as well as expulsion of residual material from our gastrointestinal tract requires normal propulsive, i.e. motor, function. Hypomotility refers to inherited or acquired changes that come with decreased contractile forces or slower transit. It not only often causes symptoms but also may compromise nutritional status or lead to other complications. While severe for...
متن کاملDisorders of gastrointestinal hypomotility [version 1; referees: 2 approved]
Ingestion and digestion of food as well as expulsion of residual material from our gastrointestinal tract requires normal propulsive, i.e. motor, function. Hypomotility refers to inherited or acquired changes that come with decreased contractile forces or slower transit. It not only often causes symptoms but also may compromise nutritional status or lead to other complications. While severe for...
متن کاملPhosphaturia in magnesium-deficient rats.
GINN, H. EARL, AND LINDA L. SHANBOUR. Phosphaturia in magnesium-dejcient rats. Am. J. Physiol. 2 12(6) : 1347-1350. rg67.-The effect of magnesium deficiency on urinary phosphate excretion was studied in rats rendered magnesium deficient by diet. Increased urinary phosphate excretion was observed. Tubular maximum reabsorption (Tm) of inorganic phosphate was lower in magnesium-deficient (0.9 =t 0...
متن کاملMagnesium and calcium utilization in sheep treated with magnesium alloy rumen bullets or fed magnesium sulfate.
A metabolism trial was conducted to assess some effects of magnesium alloy rumen bullets and magnesium sulfate on magnesium and calcium utilization in wether lambs fed a basal, semipurified diet (800 g/day) that contained .08% magnesium and .42% calcium. Four sheep were assigned randomly to each of four treatments: basal diet only (BD); basal diet plus two commercial magnesium bullets per anima...
متن کاملMagnesium transport in the gastrointestinal tract.
Magnesium is an essential (macro) mineral in vertebrates with many biochemical and physiological functions including activation of enzymes, involvement into metabolic pathways, regulation of membrane channels and muscle contraction. Despite these important functions, Mg++ homeostasis is not regulated by hormones, but depends on absorption from the gastrointestinal tract, requirement of the body...
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ژورنال
عنوان ژورنال: Canadian Journal of Animal Science
سال: 1980
ISSN: 0008-3984,1918-1825
DOI: 10.4141/cjas80-038