| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 8837633 | Behavioural Brain Research | 2018 | 34 Pages |
Abstract
RYGB leads to changed responsivity of the frontoparietal control network that orchestrates top-down control to high-energy food compared to low-energy food and non-food cues, rather than in reward related brain regions, in a satiated state. Together with correlations with the shift in food preference from high- to low-energy foods this indicates a possible role in new food preference formation.
Keywords
DHEAMNIVTAeCBPMSFBOLD2-arachidonoylglycerol2-AGpalmitoylethanolamideoleoylethanolamidePEARYGBDLEHFHSPFCVASEnergy-densityDocosahexaenoylethanolamideLC–MS/MSOEARoux-en-Y gastric bypassendocannabinoidenzyme-linked immuno sorbent assayblood oxygenation level-dependentELISAfunctional magnetic resonance imagingfMRIdiffeomorphic anatomical registration through exponentiated Lie algebraRoux-en-Y gastric bypass surgeryDARTELSeaVisualOlfactorybody mass indexBMILiquid chromatography-tandem mass spectrometryphenylmethylsulfonyl fluorideprefrontal cortexObesityvisual analogue scaleMontreal Neurological Instituteventral tegmental areaFood cuesRewardPropylene glycolGhrelin
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Authors
Harriët F.A. Zoon, Suzanne E.M. de Bruijn, Paul A.M. Smeets, Cees de Graaf, Ignace M.C. Janssen, Wendy Schijns, Edo O. Aarts, Gerry Jager, Sanne Boesveldt,