The effect of graded levels of dietary ascorbic acid on blood and tissue ascorbic acid levels in mice has been studied. Six levels of dietary ascorbic acid (0, 0.076, 0.5, 1, 5 and 8%) were used. Plasma ascorbic acid rose as dietary ascorbic acid intake increased from 1 to 8%. Mice fed a diet with 5 or 8% added ascorbic acid had significantly higher levels of ascorbic acid in the heart, kidney, lung, muscle and spleen than did control mice fed an ascorbic acid-free diet. Mice fed a diet with 1% added ascorbic acid had elevated ascorbic acid levels in the heart, kidney, lung and spleen. No significant change was observed in ascorbic acid level in the brain, adrenal gland or leukocytes in any of the experimental groups. Ascorbic acid level in the eyes was only slightly higher in mice fed a diet containing 8% added ascorbic acid than in control mice. The observation that the kidney had the greatest increase in ascorbic acid content suggests that the kidney may be a very important organ not only in elimination but also in catabolism of this vitamin. A diet containing 0.5 or 0.076% added ascorbic acid did not significantly increase ascorbic acid content in any of the organs studied. Mice fed a diet with 0.076% added ascorbic acid had slightly, but statistically significantly, lower levels of ascorbic acid in the liver, lung, muscle and spleen that control mice. Mice fed a diet with 0.5% added ascorbic acid had a lower ascorbic acid content in the liver and muscle than the controls.(ABSTRACT TRUNCATED AT 250 WORDS)
Male guinea pigs received sodium ascorbate solution [equivalent to 1 g ascorbic acid/(kg body weight.d)] by intraperitoneal injection for 4 wk. During the ascorbic acid treatment period, plasma and urinary ascorbic acid levels rose markedly. Three weeks after the ascorbic acid treatment was withdrawn, mean urinary ascorbic acid levels were significantly lower than their corresponding basal levels. At both 2 and 5 wk after withdrawal of ascorbic acid treatment, mean plasma ascorbic acid levels were below normal. The results indicate that these animals had experienced a transient withdrawal effect after administration of large doses of ascorbic acid that lasted about 1 wk. This, in turn, indicates that the rate of ascorbic acid turnover was probably increased during treatment, and this effect persisted even after the ascorbic acid was withdrawn. Examination of data from each individual experimental animal revealed that the pattern of urinary ascorbic acid excretion after the withdrawal of large doses of ascorbic acid varied from animal to animal. Among the twelve experimental guinea pigs, seven had abnormally low urinary ascorbic acid levels 2-4 wk after the withdrawal of the large doses of ascorbic acid.
SummaryThe long-term and short-term influence of large oral doses of ascorbic acid on the urinary excretion of calcium has been investigated. In the first experiment, daily doses of a total of 10g of ascorbic acid were administered to healthy human subjects. Daily urinary samples of these subjects were collected before and during the treatment, and calcium contents of these samples were measured. Among the 22 subjects, 19 experienced no significant changes in urinary calcium levels during the ingestion of ascorbic acid, one subject experienced an increase, two had a decline. These changes in urinary calcium levels were relatively small and were within the changes from consuming normal diets.
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