Your search keyword '"Van Dael, Peter"' showing total 2 results

1. Substitution of casein by beta-casein or of whey protein isolate by alpha-lactalbumin does not affect mineral balance in growing rats.

Author

Van Dael P, Kastenmayer P, Clough J, Jarret AR, Barclay DV, and Maire JC

Subjects

Absorption, Animals, Food, Formulated, Growth, Male, Milk Proteins, Minerals pharmacokinetics, Nutritional Status, Proteins metabolism, Rats, Rats, Sprague-Dawley, Whey Proteins, Caseins pharmacology, Lactalbumin pharmacology, Minerals metabolism

Abstract

Bovine milk protein fractions that enable modification of the protein composition and amino acid profile of infant formulas to mimic those of human milk have recently become available. To determine the effects on protein quality and mineral bioavailability of replacing casein by beta-casein and of whey protein isolate by alpha-lactalbumin, 4 groups of growing rats were fed for 3 wk diets containing 10% protein as 1) casein (control); 2) beta-casein; 3) casein:whey (40:60); or 4) beta-casein:alpha-lactalbumin (40:60). Protein quality, determined as protein efficiency ratio (PER), net protein utilization (NPU), biological value (BV) and protein digestibility (PD), as well as body weight gain, were higher (P < 0.05) with consumption of the whey-adapted diets [casein:whey (40:60); beta-casein:alpha-lactalbumin (40:60)] compared with the casein diets (casein; beta-casein); however, there were no differences between the 2 casein diets or between the 2 whey-adapted diets. Apparent absorption of minerals (Ca, P, Fe, Zn) from the whey-adapted diets was higher than that from the casein diets (P < 0.05); but again, no differences were observed when casein or whey protein isolate were replaced by beta-casein or alpha-lactalbumin, respectively. Thus, substitution of casein by beta-casein or of whey protein isolate by alpha-lactalbumin does not affect protein quality or mineral bioavailability as determined in growing rats.

Published

2005

2. Substitution of Casein by β-Casein or of Whey Protein Isolate by α-Lactalbumin Does Not Affect Mineral Balance in Growing Rats.

Author

Van Dael, Peter, Kastenmayer, Peter, Clough, Jennifer, Jarret, Andrée-Rose, Barclay, Denis V., and Maire, Jean-Claude

Subjects

CASEINS, MILK proteins, LACTALBUMIN, ALBUMINS, BODY weight, WEIGHT gain, CASEIN-free diet, DIET

Abstract

Bovine milk protein fractions that enable modification of the protein composition and amino acid profile of infant formulas to mimic those of human milk have recently become available. To determine the effects on protein quality and mineral bioavailability of replacing casein by β-casein and of whey protein isolate by α-lactalbumin, 4 groups of growing rats were fed for 3 wk diets containing 10% protein as 1) casein (control); 2) β-casein; 3) casein:whey (40:60); or 4) β-casein:e-lactalbumin (40:60). Protein quality, determined as protein efficiency ratio (PER), net protein utilization (NPU), biological value (BV) and protein digestibility (PD), as well as body weight gain, were higher (P < 0.05) with consumption of the whey-adapted diets [casein:whey (40:60); β-casein:e-lactalbumin (40:60)] compared with the casein diets (casein; β-casein); however, there were no differences between the 2 casein diets or between the 2 whey-adapted diets. Apparent absorption of minerals (Ca, P, Fe, Zn) from the whey-adapted diets was higher than that from the casein diets (P < 0.05); but again, no differences were observed when casein or whey protein isolate were replaced by β-casein or α-lactalbumin, respectively. Thus, substitution of casein by β-casein or of whey protein isolate by α-lactalbumin does not affect protein quality or mineral bioavailability as determined in growing rats. [ABSTRACT FROM AUTHOR]

Published

2005