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ORIGINAL RESEARCH ARTICLE

Acute Versus Chronic Effects of Whey Proteins on Calcium Absorption in Growing Rats

Yongdong Zhao^*, Berdine R. Martin^*, Meryl E. Wastney, Linda Schollum and Connie M. Weaver^*,1

^* Foods and Nutrition Department, Purdue University, West Lafayette, Indiana 47907; Metabolic Modeling Services, Hamilton, New Zealand; and Fonterra Research Centre, Palmerston North, New Zealand

To whom requests for reprints should be addressed at ¹ Department of Foods and Nutrition, Purdue University, 700 W. State Street, West Lafayette, IN 47907-2059. E-mail: weavercm{at}purdue.edu

The acute and chronic effects of whey proteins on calcium metabolism and bone were evaluated. In acute studies, 8-week-old male rats were gavaged with 50 mg whey protein concentrate (WPC) and 25 mg calcium. ⁴⁵Ca was administered intravenously or orally. Kinetic studies were performed, and femurs were harvested. Four of seven WPCs significantly increased femur uptake of ⁴⁵Ca compared with controls. One WPC at 50 mg enhanced calcium absorption over a range of calcium intakes from 35.1 ± 9.4% to 42.4 ± 14.0% (P < 0.01). Three of the most effective WPCs were tested further in a chronic feeding study. One hundred 3-week-old rats were randomly divided into four adequate dietary calcium (ADC; 0.4% Ca) groups (control of 20% casein and three WPC groups with 1% substitution of casein with each of three WPCs) and two low calcium (LC; 0.2% Ca) groups (control of 20% casein and one WPC group with 1% substitution of casein with one WPC). After 8 weeks, there was no effect of WPCs on femur uptake of ⁴⁵Ca among ADC groups and there was no effect of WPCs on calcium retention, femur breaking force, femur bone mineral density, or total femur calcium at either dietary calcium intake. However, whole body bone mineral content (BMC) was significantly higher (P < 0.05) in the three whey protein concentrate ADC groups compared with the ADC control group. Total BMC at the proximal tibia in whey protein ADC groups was increased, as shown by peripheral quantitative computed tomography. Our results indicate that the acute calcium absorption–enhancing effect of whey proteins did not persist through long-term feeding in rats. However, the initial enhancement of calcium absorption by whey protein was sufficient to increase BMC.

Key Words: whey protein • calcium retention • absorption • kinetics