Korean J Nutr.  2005 Jan;38(1):40-47.

Calcium and Phosphorus Balance Study by Soy Isoflavone Intake in Ovariectomized Rats

Affiliations
  • 1Department of Foods & Nutrition, Kookmin University, Seoul, Korea.

Abstract

This study was performed to determine the effect of three different concentrations of soy-isoflavones on calcium and phosphorus balance in either sham-operated or ovariectomized female rats. Seventy-two 16-week old Sprague-Dawley rats underwent sham operation or bilateral ovariectomy. They were provided diets containing different levels of soy isoflavones for 6 weeks: 50 ppm (low isoflavone intake; LI), 250 ppm (medium isoflavone intake; MI) and 500 ppm (high isoflavone intake; HI). The subsequent fecal and urinary excretions of calcium and phosphorus were then measured. In the sham-operated rats, body weight gains and food efficiency ratio of the MI and HI groups were significantly lower than the control group while food intake was not different. However, there was no significant difference in the ovariectomized rats. The fecal excretion of calcium was significantly lower in the LI, MI and HI groups than the control group in sham operated rats, and significantly lower in the HI group than the control group in ovariectomized rats. Also, apparent absorption rate of calcium and phosphorus did not show any significant difference among groups. Urinary excretion of calcium and phosphorus was significantly lower in the HI group than the LI group in the sham-operated rats. Urinary excretion of calcium was significantly higher in the control ovariectomized rats than in the control sham-operated rats. Retention of calcium and phosphorus did not show any significant difference in both groups. From the above result, we see that isoflavone intake increases calcium retention through an increase in calcium absorption and also suppresses the increase of calcium excretion in urine in ovariectomy. Therefore, it is suggested that isoflavone intake is recommended for menopausal women who experience sharp bone loss due to the decrease in estrogen hormone.

Keyword

isoflavone; balance study; Ca; P; apparent absorption rate

MeSH Terms

Absorption
Animals
Body Weight
Calcium*
Diet
Eating
Estrogens
Female
Humans
Isoflavones
Ovariectomy
Phosphorus*
Rats*
Rats, Sprague-Dawley
Calcium
Estrogens
Isoflavones
Phosphorus
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