Negative Balance of Calcium and Magnesium under Relatively Low Sodium Intake in Humans
スポンサーリンク
概要
- 論文の詳細を見る
The balance of minerals (sodium [Na], potassium [K], calcium [Ca], and magnesium [Mg]) was measured in six female students for 10 d while under a relatively low Na intake (100mmol/d or 2.2g/d) with receiving adequate Ca (20mmol/d or 800mg/d) and Mg (12mmol/d or 280mg/d), Both the plasma renin activity (PRA) and aldosterone level were above the reference ranges throughout the experiment, which implied that the subjects were Na deficient. However, the urine Na excretion was about the same as that ingested, while there was no substantial reduction of sweat Na concentration observed during moderate physical exercise (13.2±2.6mmol/L) (mean±SD), On the other hand, the urine Ca and Mg levels were high, but the apparent absorption of Ca and Mg was moderate (21±5%, 34±4%, respectively), which resulted in a negative balance of these two elements. It seems that the stored Na in the bone is eluted so as to compensate for the low dietary Na intake, while any excess Ca and Mg also inevitably flows into the blood stream with Na, which inhibited the intestinal absorption of both Ca and Mg and accelerates their excretion in urine.
- 財団法人 学会誌刊行センターの論文
- 2003-06-01
著者
-
NAKASHIMA Mieko
Institute of Applied Biochemistry
-
Kodama Naoko
Division Of Health Promotion National Institute Of Health And Nutrition
-
Suzuki Kazumasa
Laboratory Of Mineral Nutrition Division Of Human Nutrition The Incorporated Administrative Agency O
-
SUZUKI Kazumasa
Division of Human Nutrition, The National Institute of Health and Nutrition
-
NISHIMUTA MAMORU
Chiba Prefectural University of Health Science
-
Nishimuta M
Division Of Human Nutrition National Institute Of Health And Nutrition
-
Nishimuta Mamoru
Division Of Health Promotion National Institute Of Nutrition
-
Nishimura Mamoru
Division of Human Nutrition, The National Institute of Health and Nutrition
関連論文
- Intra- and Inter-Individual Variations of Blood and Urinary Water-Soluble Vitamins in Japanese Young Adults Consuming a Semi-Purified Diet for 7 Days
- Values of Water-Soluble Vitamins in Blood and Urine of Japanese Young Men and Women Consuming a Semi-Purified Diet Based on the Japanese Dietary Reference Intakes
- Effects of Stress on the Urinary Excretory Pattern of Niacin Catabolites, the Most Reliable Index of Niacin Status, in Humans
- Sodium and Potassium Balances in Japanese Young Adults
- Moisture and Mineral Content of Human Feces : High Fecal Moisture Is Associated with Increased Sodium and Decreased Potassium Content
- Equilibrium Intakes of Calcium and Magnesium within an Adequate and Limited Range of Sodium Intake in Human
- Positive Correlation between Dietary Intake of Sodium and Balances of Calcium and Magnesium in Young Japanese Adults : Low Sodium Intake Is a Risk Factor for Loss of Calcium and Magnesium
- Balances of Calcium, Magnesium and Phosphorus in Japanese Young Adults
- Negative Balance of Calcium and Magnesium under Relatively Low Sodium Intake in Humans
- EQUILIBRIUM ENERGY INTAKE ESTIMATED BY DIETARY ENERGY INTAKE AND BODY WEIGHT CHANGE IN JAPANESE YOUNG MALES
- 11. Effects of physical exercise on lipid metabolism in men maintained at constant weight.
- Nutritional Intakes in Community-Dwelling Older Japanese Adults : High Intakes of Energy and Protein Based on High Consumption of Fish, Vegetables and Fruits Provide Sufficient Micronutrients
- Effects of Stress on the Urinary Excretory Pattern of Niacin Catabolites, the Most Reliable Index of Niacin Status, in Humans
- EQUILIBRIUM ENERGY INTAKE ESTIMATED BY DIETARY ENERGY INTAKE AND BODY WEIGHT CHANGE IN JAPANESE YOUNG MALES
- Estimated Equilibrated Dietary Intakes for Nine Minerals (Na, K, Ca, Mg, P, Fe, Zn, Cu, and Mn) Adjusted by Mineral Balance Medians in Young Japanese Females
- Negative Balance of Calcium and Magnesium under Relatively Low Sodium Intake in Humans
- Estimated Equilibrated Dietary Intakes for Nine Minerals (Na, K, Ca, Mg, P, Fe, Zn, Cu, and Mn) Adjusted by Mineral Balance Medians in Young Japanese Females