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  • Title: Comparison of effects of vegetable protein diet and animal protein diet on the initiation of anemia during vigorous physical training (sports anemia) in dogs and rats.
    Author: Yamada T, Tohori M, Ashida T, Kajiwara N, Yoshimura H.
    Journal: J Nutr Sci Vitaminol (Tokyo); 1987 Apr; 33(2):129-49. PubMed ID: 3612320.
    Abstract:
    The effect of the quality of dietary protein on the initiation of temporary anemia during vigorous physical training (sports anemia) was studied in dogs and rats. In the dog experiment, one group of dogs was fed a crude animal protein (AP) diet and the other a crude vegetable protein (VP) diet. After 6 weeks on the diets in a sedentary state (rest period), all the dogs were forced to run every day for two weeks (exercise period). The rat experiment was carried out using purified nutrient mixtures. Casein (C) was used as AP and gluten (G) as VP. Feeding was done for two weeks in two series with two diet groups of rats. One series was 15% protein feeding (15% C and 15% G) groups and the other 24% protein feeding (24% C and 24% G) groups. In each group, one group remained in a sedentary state (rest group), and the other ran vigorously on a treadmill every day for one week (exercise group). In a sedentary state, there was a slight tendency for the hemoglobin content or erythrocyte count to be reduced, even when the values remained within the normal range, in dogs and rats fed VP. On the other hand, after vigorous running, significant anemia (reduction of hemoglobin) appeared in the VP diet dogs and in all exercise rat groups except the 24% C group. It was confirmed that the anemia was caused by a reduction of erythrocyte resistance to hemolysis, which was closely related to changes in the lipid composition of blood (serum and especially erythrocytes). The change in lipid profile revealed by the experiments was a reduction of free cholesterol in blood associated with an increase of lysolecithin in dogs during the exercise period and in the rat exercise groups. It was suggested that repeated physical exercise increased the activity of LCAT (lecithin-cholesterol-acyltransferase) in the liver, spleen, etc., resulting in the above changes in lipid patterns in the blood. In dogs of AP and rats of 24% C, however, those changes in lipid pattern caused by exercise and sports anemia did not appear significantly. The different effects of the AP diet seemed to be due to the antagonistic effects of lysine, which was present in sufficient amounts in the diet. Thus the theoretical basis for our recommendation of a high amount of AP in the diet to prevent sports anemia was clarified by the present experiments.(ABSTRACT TRUNCATED AT 400 WORDS)
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