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Link to original content: https://pubmed.ncbi.nlm.nih.gov/19056602/
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Randomized Controlled Trial
. 2009 Jan;89(1):126-33.
doi: 10.3945/ajcn.2008.26574. Epub 2008 Dec 3.

Sleep curtailment is accompanied by increased intake of calories from snacks

Affiliations
Randomized Controlled Trial

Sleep curtailment is accompanied by increased intake of calories from snacks

Arlet V Nedeltcheva et al. Am J Clin Nutr. 2009 Jan.

Abstract

Background: Short sleep is associated with obesity and may alter the endocrine regulation of hunger and appetite.

Objective: We tested the hypothesis that the curtailment of human sleep could promote excessive energy intake.

Design: Eleven healthy volunteers [5 women, 6 men; mean +/- SD age: 39 +/- 5 y; mean +/- SD body mass index (in kg/m(2)): 26.5 +/- 1.5] completed in random order two 14-d stays in a sleep laboratory with ad libitum access to palatable food and 5.5-h or 8.5-h bedtimes. The primary endpoints were calories from meals and snacks consumed during each bedtime condition. Additional measures included total energy expenditure and 24-h profiles of serum leptin and ghrelin.

Results: Sleep was reduced by 122 +/- 25 min per night during the 5.5-h bedtime condition. Although meal intake remained similar (P = 0.51), sleep restriction was accompanied by increased consumption of calories from snacks (1087 +/- 541 compared with 866 +/- 365 kcal/d; P = 0.026), with higher carbohydrate content (65% compared with 61%; P = 0.04), particularly during the period from 1900 to 0700. These changes were not associated with a significant increase in energy expenditure (2526 +/- 537 and 2390 +/- 369 kcal/d during the 5.5-h and 8.5-h bedtime periods, respectively; P = 0.58), and we found no significant differences in serum leptin and ghrelin between the 2 sleep conditions.

Conclusions: Recurrent bedtime restriction can modify the amount, composition, and distribution of human food intake, and sleeping short hours in an obesity-promoting environment may facilitate the excessive consumption of energy from snacks but not meals.

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Figures

FIGURE 1
FIGURE 1
Average daily energy intake from meals (top panels), snacks (middle panels), and meals plus snacks (bottom panels) as a function of the initial body weight of the 11 subjects during the 8.5-h (left) and 5.5-h bedtime (right) conditions. Each panel shows a corresponding best-fit line along with the Spearman's correlation coefficient (r) and its P value.
FIGURE 2
FIGURE 2
A: Mean (±SE) daily energy balance of 11 subjects during the 8.5-h (open bars) and 5.5-h (solid bars) bedtime conditions. B: Individual variability in weight gain during each 14-d study period. Data points connected with a line reflect the change in body weight of the same individual during the 8.5-h (left) and 5.5-h (right) bedtime conditions. Triangles represent female and circles male subjects. Solid symbols: subjects who completed the 8.5-h bedtime intervention first; open symbols: subjects who started with the 5.5-h bedtime condition first. C: Mean (±SE) 24-h serum leptin concentrations before the start of the 8.5-h (open circles) and 5.5-h (solid circles) bedtime conditions (n = 11). D: Mean (±SE) 24-h leptin concentrations at the end of the 8.5-h (open circles) and 5.5-h (solid circles) bedtime conditions (n = 11). E: Mean (±SE) 24-h serum ghrelin concentrations before the start of the 8.5-h (open circles) and 5.5-h (solid circles) bedtime conditions (n = 9). F: Mean (±SE) 24-h ghrelin concentrations at the end of the 8.5-h (open circles) and 5.5-h (solid circles) bedtime conditions (n = 9).

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