Can calories from ethanol contribute to body weight preservation by malnourished rats?

Our objective was to compare the use of calories from ethanol by well-nourished and malnourished rats in terms of body weight. Female Wistar rats weighing 170-180 g at the beginning of the study were used. The animals were divided into two groups (N = 12 each): group W received water ad libitum and group E an ethanol solution ad libitum as the only source of liquid throughout the experiment. The concentration of ethanol was increased weekly from 0 to 5, 10, 20 and 40 percent (v/v). In the well-nourished phase (A), all rats received food ad libitum (AW and AE). Ethanol treatment (AE) was then interrupted and water was offered to both groups. After 2 weeks both AW and AE rats were submitted to food restriction (50 percent of group AW food consumption), thus initiating the malnutrition phase (M). Liquid was offered as described before to the same W (MW) and E (ME) groups. The weight gain during the 1-week treatment of AE rats was similar to that of AW animals only when AE rats received the 5 percent (v/v) ethanol solution (9.16 vs 10.47 g). Weight loss was observed after exposure to 10 percent ethanol (P < 0.05) in spite of maintenance of caloric intake. Malnourished rats presented weight loss, which was attenuated by ethanol intake up to the 20 percent (v/v) solution and was related to an increased caloric offer. This effect was not observed with the 40 percent ethanol solution (-9.98 g). These data suggest that calories from ethanol were used to maintain body weight up to the concentration of 10 percent (v/v) (well-nourished) and 20 percent (v/v) (malnourished) and that ethanol has a toxic profile which depends on nutritional status.

Effects of ethanol and malnutrition on rat neuromotor development

The objective of the present study was to determine whether there is a synergistic effect of malnutrition and ethanol exposure on neuromotor development. Ethanol (E) (6 g/kg) or sucrose (S) (isocaloric to ethanol) was administered by gavage to ad libitum-fed (A) and malnourished (M) pregnant rats on days 18, 19 and 20 of pregnancy. Malnutrition was produced by food restriction to 50 of control intake. At birth, the offspring were weighed and transferred to surrogate mothers. Performance in the rim-escape test and on the rotating rod were evaluated on days 19 and 28 of life, respectively. Development of the adult swimming pattern was also studied. The results indicated that: 1) malnutrition alone decreased birth weight (g) significantly (AE, 5.56 +/- 0.36; AS, 6.31 +/- 1.05; ME, 4.81 +/- 0.73; MS, 5.23 +/- 0.57); 2) a synergistic interaction between alcohol exposure and malnutrition was observed only in the rim escape test (percent of falling rats: AE, 9; AS, 5; ME, 24; MS, 5); 3) only malnutrition retarded development of swimming; 4) malnourished dams gained more weight (g) than controls during treatment with ethanol (AE, 2.6 +/- 8.4, N = 6; AS, 3.1 +/- 8.4, N = 4; ME, 23.0 +/- 6.3, N = 7; MS, 29.0 +/- 9.0, N = 8). These results indicate a possible synergistic action between malnutrition and ethanol on neuromotor development and point to the importance of ethanol as a calorie source for malnourished animals.

Neurobehavioral development of rats exposed to toluene through maternal milk

Organic solvents have been detected in the milk of workers in the rubber industry exposed during gestation to a mixture of solvents at average concentrations lower than the currently accepted occupational limit of exposure (100ppm). The objective of the present study was to determine if exposure of rat offspring to toluene during laction, through maternal milk, would affect the developing brain. There month old, lactating Wistar rats were injedted with toluene (1.2 g/Kg, sc, N = 10) daily from laction day 2(day of delivery - day 1) to day 21. Controls (N=9) were injected with the vehicle (c0rn oil). Offspring (7 pups per litter) were evaluated form neurosomatic development and exploratory behavior before weaning and behavior in the open field. A second group of toluene treated ratas (N=6) and controls (N=6) was used to evaluate behavior of the offspring in the open-field on day 35 and performance in a shuttle box in adulthood. Toluene levels in blood and milk after a single 1.2 g/Kg sc injection were studied in a third group of rats on laction day 10. Toluene levels in milk 4 h after a single injection (10.3ñ6.2) were 5 times higher than in blood (2.1ñ0.8). No effects of treatment on offspring development or on any of the behavioral tests were observed. Sex differences were observed in open-field behavior and performance in the shuttle box. The present results suggest that exposure of pups to high concentrations of toluene through maternal milk does not result in blood levels high enough to affect growth or development