Michaelides, A.; Mitchell, E.S.; Behr, H.; Ho, A.S.; Hanada, G.; Lee, J.; McPartland, S. Executive Function-Related Improvements on a Commercial CBT-Based Weight Management Intervention: Pilot Randomized Controlled Trial. Int. J. Environ. Res. Public Health2022, 19, 8763.
Michaelides, A.; Mitchell, E.S.; Behr, H.; Ho, A.S.; Hanada, G.; Lee, J.; McPartland, S. Executive Function-Related Improvements on a Commercial CBT-Based Weight Management Intervention: Pilot Randomized Controlled Trial. Int. J. Environ. Res. Public Health 2022, 19, 8763.
Michaelides, A.; Mitchell, E.S.; Behr, H.; Ho, A.S.; Hanada, G.; Lee, J.; McPartland, S. Executive Function-Related Improvements on a Commercial CBT-Based Weight Management Intervention: Pilot Randomized Controlled Trial. Int. J. Environ. Res. Public Health2022, 19, 8763.
Michaelides, A.; Mitchell, E.S.; Behr, H.; Ho, A.S.; Hanada, G.; Lee, J.; McPartland, S. Executive Function-Related Improvements on a Commercial CBT-Based Weight Management Intervention: Pilot Randomized Controlled Trial. Int. J. Environ. Res. Public Health 2022, 19, 8763.
Abstract
Executive functioning is a key component involved in many of the processes necessary for effective weight management behavior change (e.g., setting goals). Cognitive behavioral therapy (CBT) and third-wave CBT (e.g., mindfulness) are considered first-line treatments for obesity, but it is unknown to what extent they can improve or sustain executive functioning. This pilot randomized controlled trial examined if a CBT-based generalized weight management intervention would affect executive functioning and executive function-related brain activity in individuals with obesity or overweight. Participants were randomized to an intervention condition (N=24) that received the Noom Weight program or to a control group (N=26) receiving weekly educational newsletters. EEG measurements were taken during Flanker, Stroop, and N-back tasks at baseline and months 1 through 4. After 4 months, the intervention condition evidenced greater accuracy over time and, to some extent, neural markers of executive function (error-related negativity and beta and gamma band powers) compared to the control group on the Flanker and Stroop tasks. The intervention condition also lost more weight than controls (-7.1 pounds vs. +1.0 pounds). Given mixed evidence on whether CBT-based interventions can change markers of executive function, this study contributes preliminary evidence that a multicomponent CBT-based weight management intervention (i.e., that provide both support for weight management and is based on CBT) can help individuals sustain executive function compared to controls.
Keywords
CBT; obesity; mobile health; executive function; EEG
Subject
Social Sciences, Behavior Sciences
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.