ObjectiveRelapsing to overeating is a stubborn problem in obesity treatment. We tested the hypothesis that context cues surrounding palatable food (PF) intake have the power to disrupt caloric regulation even of less PF. Context cues are non-food cues that are in the environment where PF is habitually eaten.DesignRats were conditioned to associate intake of Oreo cookies as the PF to cages with distinct context cues that differed from cues in cages were they were only given chow. PF naturally stimulated greater caloric intake. The rats were then tested in the PF cage with only chow available to determine if the PF-paired cues, alone, could elicit overeating of plain chow.SubjectsNon food-deprived female Sprague-Dawley rats.MeasurementsIntake of plain chow under PF-paired cues vs. chow-paired cues was compared. This was also measured in tests that included a morsel of PF as a priming stimulus. We also controlled for any effect of binge-prone vs. binge–resistant status to predict cued-overeating.ResultsRats consumed significantly more chow when exposed to context cues previously paired with PF than with chow (p<0.01). This effect occurred using various cues (e.g., different types of bedding or wallpaper). The effect was strengthened by priming with a morsel of PF (p<0.001) and was unaffected by baseline differences in propensity to binge on PF.ConclusionContext-cues associated with PF intake can drive overeating even of a less PF and abolish the ability of rats to compensate for the calories of a PF primer. Just as drug-associated context cues can reinstate drug-addiction relapse, PF-paired cues may trigger overeating relapses linked to weight regain and obesity. This model should help identify the reflex-like biology that sabotages attempts to adhere to healthy reduced calorie regimens and call greater attention to the cue-factor in the treatment of binge-eating and obesity.
The need to obtain data from individual laboratory animals has forced many researchers to singlyhouse rodents and small animals. Isolation is an abnormal condition for many species, and adverse effects of single-housing on physiology and behavior threaten the validity of experimental results and generalization to humans, who are also social. This study assessed the practical use of a housing device -dubbed "Buddy Barrier" (BB) -that allows rats social stimulation in a paired-housing situation while at the same time permitting the collection of individual measures that traditionally require individual-housing. To assess stress responses to the BB, adult male rats were single or pairhousing for several days with and without a BB in the cage and fecal corticosterone metabolites (fCORT), food intake and body weight were monitored. Plasma corticosterone and adrenal catecholamine levels were also assessed at the end of the housing manipulation. Stress hormone measures did not differ in paired vs. singly-housed rats and paired rats quickly habituated to the BB taken in and out of the cage. Barring a trend for paired rats to eat more in the first 4hrs of the dark, there was no difference in 24hr intakes or body weight gain between singly and paired-housed rats. While the BB attenuated 24hr intakes in both groups, intakes normalized to non-BB conditions by the third BB reintroduction. A device such as the BB can enhance the welfare of animals by providing social enrichment without compromising the integrity of experimental manipulations in protocols that traditionally have required single-housing.
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