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Department of Dairy Science, Michigan State University, East Lansing 48824
ABSTRACT
A carbohydrate-free diet formulated to determine the effect of dietary carbohydrates on digestive enzymes in the young calf consisted of 30% 'fat and 70% of a protein premix which contained 92% protein. After an adaptation of about 3 days, calves consumed this diet readily and gained weight. Sixteen male Holstein calves were fed the basal carbohydrate-free diet from 6 to 21 days of age after which they were divided into four groups, three of which received added carbohydrates: (I) lactose, (II) galactose, or (III) glucose at 4.5 g/kg body weight daily for 2 wk. The fourth group (IV), control, continued to receive the basal only.
Lactase activities per milligram protein in the mucosa of the proximal one-third of the small intestine from calves receiving these diets were 10.2, 7.8, 5.8, and 4.7 (x 10–2 µM disaccharide hydrolyzed/min). Values from diet I were greater than from either III or IV. Intestinal maltase followed a trend similar to that for lactose, with diet I higher than IV. There were no significant differences between any of the treatments in the distal section. Pancreatic amylase activity was less in calves receiving the glucose-supplemented diet (31.4) than in those fed the carbohydrate-free diet (65.2).
Preprandial blood glucose rapidly declined in calves on the carbohydrate-free dietary regime and was not increased by the addition of any sugars to the diet. Glucose disappeared from the blood faster in calves which received carbohydrates for 2 wk than in those on a carbohydrate-free ration. Increases in blood glucose after feeding galactose were low compared to those from either glucose or lactose diets.
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