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Association of Body Mass and Brain Activation during Gastric Distention: Implications for Obesity
Author(s) -
Dardo Tomasi,
GeneJack Wang,
Ruiliang Wang,
W. Walter Backus,
Allan Geliebter,
Frank Telang,
Millar C. Jayne,
Christopher Wong,
Joanna S. Fowler,
Nora D. Volkow
Publication year - 2009
Publication title -
plos one
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.99
H-Index - 332
ISSN - 1932-6203
DOI - 10.1371/journal.pone.0006847
Subject(s) - amygdala , dopaminergic , hypothalamus , endocrinology , pons , medicine , serotonergic , thalamus , midbrain , insula , neuroscience , putamen , ventral tegmental area , psychology , dopamine , serotonin , central nervous system , receptor
Background Gastric distention (GD), as it occurs during meal ingestion, signals a full stomach and it is one of the key mechanisms controlling food intake. Previous studies on GD showed lower activation of the amygdala for subjects with higher body mass index (BMI). Since obese subjects have dopaminergic deficits that correlate negatively with BMI and the amygdala is innervated by dopamine neurons, we hypothesized that BMI would correlate negatively with activation not just in the amygdala but also in other dopaminergic brain regions (midbrain and hypothalamus). Methodology/Principal Findings We used functional magnetic resonance imaging (fMRI) to evaluate brain activation during GD in 24 healthy subjects with BMI range of 20–39 kg/m 2 . Using multiple regression and cross-correlation analyses based on a family-wise error corrected threshold P  = 0.05, we show that during slow GD to maximum volumes of 500 ml and 700 ml subjects with increased BMI had increased activation in cerebellum and left posterior insula, and decreased activation of dopaminergic (amygdala, midbrain, hypothalamus, thalamus) and serotonergic (pons) brain regions and anterior insula, regions that were functionally interconnected with one another. Conclusions The negative correlation between BMI and BOLD responses to gastric distention in dopaminergic (midbrain, hypothalamus, amygdala, thalamus) and serotonergic (pons) brain regions is consistent with disruption of dopaminergic and serotonergic signaling in obesity. In contrast the positive correlation between BMI and BOLD responses in posterior insula and cerebellum suggests an opposing mechanism that promotes food intake in obese subjects that may underlie their ability to consume at once large food volumes despite increasing gastric distention.

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