Alaina L. Pearce scite author profile

The prevalence of obesity and eating disorders varies by sex, but the extent to which sex influences eating behaviors, especially in childhood, has received less attention. The purpose of this paper is to critically discuss the literature on sex differences in eating behavior in children and present new findings supporting the role of sex in child appetitive traits and neural responses to food cues. In children, the literature shows sex differences in food acceptance, food intake, appetitive traits, eating-related compensation, and eating speed. New analyses demonstrate that sex interacts with child weight status to differentially influence appetitive traits. Further, results from neuroimaging suggest that obesity in female children is positively related to neural reactivity to higher-energy-dense food cues in regions involved with contextual processing and object recognition, while the opposite was found in males. In addition to differences in how the brain processes information about food, other factors that may contribute to sex differences include parental feeding practices, societal emphasis on dieting, and peer influences. Future studies are needed to confirm these findings, as they may have implications for the development of effective intervention programs to improve dietary behaviors and prevent obesity.

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Executive and Reward-Related Function in Pediatric Obesity: A Meta-Analysis

Pearce

Leonhardt

Vaidya

2018

Childhood Obesity

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Small-to-moderate negative associations with obesity were observed for executive and reward-related performance, but not on reported impulsivity in studies with children younger than the age of 21 years. These results were not moderated by IQ, SES, and study/task characteristics. Age and gender moderated association with inhibition, with a larger obesity-related deficit in older and predominantly female samples. These results suggest cognitive and demographic intervention targets for prevention and mitigation of obesogenic behavior.

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Food commercials do not affect energy intake in a laboratory meal but do alter brain responses to visual food cues in children

et al. 2019

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Food commercials promote snack intake and alter food decision-making, yet the influence of exposure to food commercials on subsequent neural processing of food cues and intake at a meal is unclear. This study tested whether exposing children to food or toy commercials altered subsequent brain response to high-and low-energy dense food cues and influenced laboratory intake at a multi-item, ad libitum meal. Forty-one 7-9-year-old children (25 healthy weight; 16 with overweight/obesity) completed five visits as part of a within-subjects design where they consumed multi-item test-meals under three conditions: no exposure, food commercial exposure, and toy commercial exposure. On the fourth and fifth visits, functional magnetic resonance imaging (fMRI) was performed while children viewed low-and high-energy dense food images following exposure to either food or toy commercials. Linear mixed models tested for differences in meal energy intake by commercial condition. A whole-brain analysis was conducted to compare differences in response by commercial condition and child weight status. Meal intake did not differ by commercial condition (p = 0.40). Relative to toy commercials, food commercials reduced brain response to high-energy food stimuli in cognitive control regions, including bilateral superior temporal gyri, middle temporal gyrus, and inferior frontal gyrus. Commercial condition * weight status interactions were observed in orbitofrontal cortex, fusiform gyrus, and supramarginal gyrus. Children with overweight/obesity showed increased response in these regions to high-energy stimuli following food commercials. Food commercial exposure affected children's subsequent processing of food cues by reducing engagement of the prefrontal cortex, a region implicated in cognitive control. Even though food commercial exposure did not increase intake at a meal, the *

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Effect of Adolescent Bariatric Surgery on the Brain and Cognition: A Pilot Study

Pearce

Mackey

Cherry

et al. 2017

Obesity

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Objective Neurocognitive deficits in pediatric obesity relate to poor developmental outcomes. We sought preliminary evidence for changes in brain and cognitive functioning relevant to obesogenic behavior following vertical sleeve gastrectomy (VSG) in adolescents relative to wait-listed (WL) and healthy (HC) controls. Methods Thirty-six adolescents underwent fMRI twice 4 months apart, during executive, reward, and episodic memory encoding, in addition to behavioral testing for reward-related decision making. Results VSG adolescents lost weight, while WL gained weight and HC did not change between timepoints. Gains in executive and reward-related performance were larger in VSG than control groups. Group x Time interaction (p <0.05 corrected) in left prefrontal cortex during N-back showed greater pre-surgical activation and post-surgical reduction comparable to HC levels, but increased in WL between timepoints. Similarly, left striatal parametric response to reward value reduced after surgery to HC levels; WL did not change. Memory-related medial temporal activation did not change in any group. Conclusion Results provide pilot evidence for functional brain changes induced by VSG in adolescents with severe obesity. Weight loss and gain was paralleled by reduced and increased prefrontal activation, respectively, suggesting neural plasticity related to metabolic change.

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Individual differences in the influence of taste and health impact successful dietary self-control: A mouse tracking food choice study in children

Pearce

Adise

Roberts

et al. 2020

Physiology & Behavior

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Alaina L. Pearce

A Biopsychosocial Model of Sex Differences in Children’s Eating Behaviors

Executive and Reward-Related Function in Pediatric Obesity: A Meta-Analysis

Food commercials do not affect energy intake in a laboratory meal but do alter brain responses to visual food cues in children

Effect of Adolescent Bariatric Surgery on the Brain and Cognition: A Pilot Study

Individual differences in the influence of taste and health impact successful dietary self-control: A mouse tracking food choice study in children

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