Insular cortex activity during food-specific inhibitory control is associated with academic achievement in children

Insular cortex activity during food-specific inhibitory control is associated with academic achievement in children

•The Insular cortex is activated in children during successful food-specific inhibitory control.•Children may use emotional and rational processing to inhibit highly palatable foods.•Academic achievement can help to prevent childhood obesity. Inhibitory control (IC) is usually poorer in children wit...

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Bibliographic Details
Published in:Physiology & behavior Vol. 257; p. 114001
Main Authors: Grandjean da Costa, Kell, Bortolotti, Henrique, Cabral, Daniel Aranha, Rêgo, Maria Luiza, Brito, Kaline, Cunha de Medeiros, Galtieri Otávio, Price, Menna, Palhano-Fontes, Fernanda, Barros de Araujo, Draulio, Fontes, Eduardo Bodnariuc
Format: Journal Article
Language:English
Published: Elsevier Inc 01-12-2022
Subjects:
BOLD signal
Cardiorespiratory fitness
Childhood obesity
Impulsive reaction
Response inhibition
Somatic maturation
Somatic maturation
Cardiorespiratory fitness
Response inhibition
Childhood obesity
Impulsive reaction
BOLD signal
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Summary:•The Insular cortex is activated in children during successful food-specific inhibitory control.•Children may use emotional and rational processing to inhibit highly palatable foods.•Academic achievement can help to prevent childhood obesity. Inhibitory control (IC) is usually poorer in children with overweight and obesity and has been associated with unhealthy eating behaviors and lower academic achievement. Food-specific IC tasks depicting salient unhealthy foods may be more sensitive to predicting fat accumulation and unhealthy behaviors than traditional IC tasks. However, the neural activation patterns in response to food-specific IC remain unclear, especially in developing children`s brains. Here, we investigated brain activity associated with food-specific IC in children with accumulated fat mass. 36 children with overweight and obesity performed a food-specific Go/No-Go task in an MRI scanner. We assessed the children's body composition with dual-energy x-ray absorptiometry, academic achievement, somatic maturation, and cardiorespiratory fitness. The left insular cortex was significantly activated during successful inhibition of palatable food cues and was associated with higher academic achievement. Also, linear regression showed that academic achievement correlated with insular cortex activation even when controlling for somatic maturation, cognitive performance, and cardiorespiratory fitness. Our results indicate that insular cortex activation, an area known for rational and emotional processing, is associated with successful inhibitory control in response to food images in children with overweight and obesity, while academic performance seems to play a role in the magnitude of this activation.
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ISSN:0031-9384
1873-507X
DOI:10.1016/j.physbeh.2022.114001