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Journal of the American College of Nutrition, Vol. 17, No. 1, 86-91 (1998)
Published by the American College of Nutrition

Influence of Dietary Calcium Concentration on Body Size and Bone Composition in Rats During Recovery from Malnutrition

Patricia N. Rodriguez, Silvia M. Friedman, PhD, Patricia Boyer, PhD and Maria Luz de Portela, PhD

Department of Biochemistry (P.N.R., S.M.F.), University of Buenos Aires, ARGENTINA
Department of Physiology (P.B.), School of Odontology, University of Buenos Aires, ARGENTINA
Department of Nutrition (M.L.dP.), School of Pharmacy and Biochemistry, University of Buenos Aires, ARGENTINA

Address reprint requests to: Silvia M Friedman, PhD, Sucre 3042, 13 B (1428), Cap Fed, ARGENTINA.

Objective: The purpose of our study was to assess the influence of different levels of calcium (Ca) in a diet containing 30% protein on the rehabilitated of the body size from protein-energy malnutrition (PEM) and to establish the optimal Ca/protein ratio for attaining a normal body composition.

Methods: Weanling female Wistar rats were fed with protein-free diet up to a weight deficit of 20±1%. Then they were arranged in groups (T0) and fed diets with 30% protein and 0.0, 0.2, 0.4, 0.6, 0.9 or 1.2% Ca for 28 days (T28). Food and deionized water were given ad libitum. Body weight and length were recorded every 3 days. At T28, the animals were sacrificed to determine femur composition.

Results: At T13, weight-for-age (W/A) was within the normal range for rats consuming >=0.6% Ca. At T28 all groups showed adequate W/A. Although length-for-age was adequate during rehabilitated period, rate of weight gain improved when Ca was >=0.6%. Femur length did not show significant difference between groups. Total femur Ca content and mg Ca/g of dry-weight tissue increased with increments in dietary Ca concentration and tended to plateau with 0.4% Ca. Ca/P ratio reached the highest value with 0.9% Ca.

Conclusions: Our findings indicate that at a dietary protein level of 30% the Ca/protein ratio is a limiting factor in attaining of normal body size; this is achievable when Ca concentration is 1.2% and the Ca/protein ratio is 0.04.

Key words: calcium, body size, bone composition, protein-energy malnutrition






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Copyright © 1998 by the American College of Nutrition.