Although many studies have reported the robust effects of dietary restriction (DR) in retarding numerous aging processes in rodents, little is known about the outcomes of reducing caloric intake of a nutritious diet on aging in primates. Most primate studies have concerned the effects of malnutrition. We hypothesized that DR influences aging processes in primate species as it does in rodents. In the present study, 24 male rhesus (Macaca mulatta) monkeys (ages 0.6-5 years) and 25 male squirrel (Saimiri sp.) monkeys (ages 0.3-10 years) were provided diets formulated differently for each species but both fortified with vitamins and minerals (40% above recommended levels) as controls (approximating ad libitum levels) or experimentals (about 30% below the level of diet provided controls of comparable age and body weight). The results reported here concern the hypothesis that DR imposed during various developmental stages in these two primate species would affect morphometric parameters obtained at different occasions during the first 5 years of the study. Groups of older monkeys (rhesus: 18-25 years, n = 3; squirrel: 10-15 years, n = 4) were also included as controls for comparative purposes. Among groups of rhesus monkeys begun on DR prior to 6 years of age, growth in body weight and crown-rump length was reduced about 10-20% beginning after 1 year on the diet, with estimated food intake being reduced about 30-35% over this period. Measures of skin-fold thickness and various body circumference measures were also reduced in experimental groups of rhesus monkeys. In contrast, the DR regimen involving a different diet produced little impact on comparable measures in squirrel monkeys, with the estimated food intake being reduced only about 20-25% over this period. However evidence of divergence in some morphometric parameters in squirrel monkeys was beginning to emerge in young groups (<5 years(after 3 yers on the diet. © 1995 Wiley-Liss, Inc.
Keywords: Macaca mulatta; Saimirisp; adiposity; aging; development; morphometry; nutrition; obesity; skin‐fold thickness.
Copyright © 1995 Wiley‐Liss, Inc., A Wiley Company.