AI Article Synopsis
- Impulsivity in eating is linked to obesity, and delay discounting (DD) tasks help understand impulsive decision-making by comparing immediate versus delayed rewards.
- The study focused on adult women, comparing two groups with different body mass indexes (BMI) to analyze their decision-making related to food and money rewards.
- Results showed that participants with higher BMI (group B) had a steeper discounting for food rewards and exhibited less brain activation in areas related to executive control during decision-making, highlighting impulsivity as a key factor to address in interventions for obesity.
Article Abstract
Background: Impulsivity resulting in unrestrained eating has been implicated as a contributing factor for obesity. Delay discounting (DD) tasks where individuals choose between a smaller immediate reward and a larger delayed reward provide useful data to describe impulsive decision-making and to determine the extent to which delayed rewards are discounted.
Objective: To study the association between body mass index(BMI) and delay discounting for food and money in adult women.
Methods: We used a DD task with real food rewards to investigate impulsive decision-making as related to BMI in participants who self-identified as women. Participants in group A had a mean BMI of 21.4 (n = 14), and participants in group B had a mean BMI of 32.2 (n = 14). Each group was tested in a hungry state during a single session. We performed fMRI during a DD task requiring participants to choose between a food item (one sandwich) constituting a smaller immediate reward and multiple food items (two, three, or four sandwiches) constituting a series of larger delayed rewards available at different intervals. The steepness of the discounting curve for food was determined from these decisions. Participants then completed a monetary discounting task to facilitate a comparison of the discounting of food and monetary rewards.
Results: Participants in group B discounted food rewards more steeply than monetary rewards. Decisions for delayed rewards led to increased activations of brain areas related to executive control on fMRI, such as the head of the caudate nucleus and the anterior cingulate cortex (ACC) in group A, but not group B participants.
Conclusion: Our findings suggest that group B had difficulty deciding against the immediate food rewards due to insufficient recruitment of cortical control areas. Therefore, impulsivity is an important target for behavioral interventions in individuals with obesity.
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| http://dx.doi.org/10.1097/WNN.0000000000000377 | DOI Listing |
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