Daphne A. Roe scite author profile

The role of dietary fat in the regulation of energy intake was assessed by manipulating a conventional diet and measuring spontaneous food consumption. Twenty-four women each consumed a sequence of three 2-wk dietary treatments in which 15-20%, 30-35%, or 45-50% of the energy was derived from fat. These diets consisted of foods that were similar in appearance and palatability but differed in the amount of high-fat ingredients used. Relative to their energy consumption on the medium-fat diet, the subjects spontaneously consumed an 11.3% deficit on the low-fat diet and a 15.4% surfeit on the high-fat diet (p less than 0.0001), resulting in significant changes in body weight (p less than 0.001). A small amount of caloric compensation did occur (p less than 0.02), which was greatest in the leanest subjects (p less than 0.03). These results suggest that habitual, unrestricted consumption of low-fat diets may be an effective approach to weight control.

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Body composition and energy intake: do overweight women overeat and underreport?

Lissner

Habicht

Strupp

et al. 1989

The American Journal of Clinical Nutrition

126

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The relationship between energy consumption and body composition was evaluated in 63 women by use of energy-intake values that were precisely measured in a metabolic unit and corrected for deviations from energy balance. Energy requirement for the maintenance of body weight was not significantly correlated with adiposity expressed as percent body fat. However, energy requirement was positively associated with lean mass (p less than 0.0001) whereas fat mass added no predictive value to the same multivariate regression equation. Self-reported energy intake (before the experiments) was not correlated with lean mass and was underestimated by lean subjects at least as much as by obese subjects. Discrepant findings in the literature concerning relationships between obesity and energy intake may be explained by reporting error and by the relative lean mass of obese vs nonobese women but not by systematic underreporting unique to obese subjects.

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The Influence of Dietary Fiber Source on Human Intestinal Transit and Stool Output

Wrick

Robertson

Soest

et al. 1983

The Journal of Nutrition

157

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Wheat bran ground to a coarse and fine particle size, purified cellulose and ethanol-extracted cabbage fiber, fed to 24 adult males during an 80-day metabolic trial, were examined for effects on intestinal transit time, laxation and stool composition. Brilliant blue, plastic pellets, polyethylene glycol (PEG)-4000 and Cr(III) mordanted onto isolated bran fiber were simultaneously administered for transit measurements. Intersubject variability in response to fiber source was highly significant for all transit and stool measurements. Only coarse bran or cellulose addition increased transit speed (decreased transit time) over basal rates. Grinding of bran significantly reduced fecal output because of reduced fecal water. Only subjects consuming cellulose or fine bran reported difficult or uncomfortable defecations. Though cabbage produced the smallest fecal output, stools had a high moisture content comparable to those obtained from coarse bran, which suggests a large microbial output in response to a fermentable substrate. Significant negative correlations were produced when changes in dry matter or cell wall intakes were regressed with Cr (III) transit. These findings suggest that the level of either food or fiber in the diet are variables that influence intestinal transit time and should be controlled in studies measuring it. Increases in fiber intake linearly increased fecal output of water and dry matter. Regression slopes were characteristic of each fiber source.

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Effect of β -carotene supplementation on photosuppression of delayed-type hypersensitivity in normal young men

Fuller

Faulkner

Bendich

et al. 1992

The American Journal of Clinical Nutrition

127

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The aim of this study was to examine whether beta-carotene protects against the immunosuppression seen with long-wave ultraviolet-light (UV-A) exposure. Free-living, healthy men, aged 19-39 y received 30 mg beta-carotene/d or a placebo while on a single-menu, low-carotenoid diet. After 28 d all subjects received 12 exposures to a UV-A/B light source over a 16-d period. The total UV-A dose received ranged from 15.9 to 19.3 J/cm2. The total shorter-wave ultraviolet-light (UV-B) dose varied from 1.59 to 1.96 J/cm2. Follow-up continued for 21 d. Carotenoid assays and delayed-type hypersensitivity (DTH) tests were performed at baseline, pre-UV, post-UV, and after follow-up. The DTH-test responses were significantly suppressed in the placebo group after UV treatments. The suppression was inversely related to plasma beta-carotene concentrations in this group. There was no significant suppression of DTH test responses in the beta-carotene group. It is concluded that beta-carotene protects against photosuppression of immune function.

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Quantitative relationship between oral nitrate-reducing activity and the endogenous formation of N-nitrosoamino acids in humans

Shapiro

Hotchkiss

Roe

1991

Food and Chemical Toxicology

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Daphne A. Roe

Dietary fat and the regulation of energy intake in human subjects

Body composition and energy intake: do overweight women overeat and underreport?

The Influence of Dietary Fiber Source on Human Intestinal Transit and Stool Output

Effect of β -carotene supplementation on photosuppression of delayed-type hypersensitivity in normal young men

Quantitative relationship between oral nitrate-reducing activity and the endogenous formation of N-nitrosoamino acids in humans

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