BACKGROUND: Recent research has highlighted the role of emotion-based impulsivity (negative and positive urgency personality traits) for alcohol use and abuse, but has yet to examine how these personality traits interact with the brain's motivational systems. Using functional magnetic resonance imaging (fMRI), we tested whether urgency traits and mood induction affected medial prefrontal responses to alcohol odors (AcO). METHODS: Twenty-seven social drinkers (mean age = 25.2, 14 males) had 6 fMRI scans while viewing negative, neutral, or positive mood images (3 mood conditions) during intermittent exposure to AcO and appetitive control (AppCo) aromas. RESULTS: Voxel-wise analyses (p < 0.001) confirmed [AcO > AppCo] activation throughout medial prefrontal cortex (mPFC) and ventromedial PFC (vmPFC) regions. Extracted from a priori mPFC and vmPFC regions and analyzed in Odor (AcO, AppCo) × Mood factorial models, AcO activation was greater than AppCo in left vmPFC (p < 0.001), left mPFC (p = 0.002), and right vmPFC (p = 0.01) regions. Mood did not interact significantly with activation, but the covariate of trait negative urgency accounted for significant variance in left vmPFC (p = 0.01) and right vmPFC (p = 0.01) [AcO > AppCo] activation. Negative urgency also mediated the relationship between vmPFC activation and both (i) subjective craving and (ii) problematic drinking. CONCLUSIONS: The trait of negative urgency is associated with neural responses to alcohol cues in the vmPFC, a region involved in reward value and emotion-guided decision-making. This suggests that negative urgency might alter subjective craving and brain regions involved in coding reward value.
BACKGROUND: Recent research has highlighted the role of emotion-based impulsivity (negative and positive urgency personality traits) for alcohol use and abuse, but has yet to examine how these personality traits interact with the brain's motivational systems. Using functional magnetic resonance imaging (fMRI), we tested whether urgency traits and mood induction affected medial prefrontal responses to alcohol odors (AcO). METHODS: Twenty-seven social drinkers (mean age = 25.2, 14 males) had 6 fMRI scans while viewing negative, neutral, or positive mood images (3 mood conditions) during intermittent exposure to AcO and appetitive control (AppCo) aromas. RESULTS: Voxel-wise analyses (p < 0.001) confirmed [AcO > AppCo] activation throughout medial prefrontal cortex (mPFC) and ventromedial PFC (vmPFC) regions. Extracted from a priori mPFC and vmPFC regions and analyzed in Odor (AcO, AppCo) × Mood factorial models, AcO activation was greater than AppCo in left vmPFC (p < 0.001), left mPFC (p = 0.002), and right vmPFC (p = 0.01) regions. Mood did not interact significantly with activation, but the covariate of trait negative urgency accounted for significant variance in left vmPFC (p = 0.01) and right vmPFC (p = 0.01) [AcO > AppCo] activation. Negative urgency also mediated the relationship between vmPFC activation and both (i) subjective craving and (ii) problematic drinking. CONCLUSIONS: The trait of negative urgency is associated with neural responses to alcohol cues in the vmPFC, a region involved in reward value and emotion-guided decision-making. This suggests that negative urgency might alter subjective craving and brain regions involved in coding reward value.
Authors: David A Kareken; Eric D Claus; Merav Sabri; Mario Dzemidzic; Ann E K Kosobud; Alexander J Radnovich; Dwight Hector; Vijay A Ramchandani; Sean J O'Connor; Mark Lowe; Ting-Kai Li Journal: Alcohol Clin Exp Res Date: 2004-04 Impact factor: 3.455
Authors: Francesca M Filbey; Lara Ray; Andrew Smolen; Eric D Claus; Amy Audette; Kent E Hutchison Journal: Alcohol Clin Exp Res Date: 2008-07 Impact factor: 3.455
Authors: T Schulte; Y-C Jung; E V Sullivan; A Pfefferbaum; M Serventi; E M Müller-Oehring Journal: Brain Imaging Behav Date: 2017-12 Impact factor: 3.978
Authors: Bernadette M Cortese; Thomas W Uhde; Kathleen T Brady; F Joseph McClernon; Qing X Yang; Heather R Collins; Todd LeMatty; Karen J Hartwell Journal: Psychiatry Res Date: 2015-10-09 Impact factor: 3.222
Authors: Melissa A Cyders; Mario Dzemidzic; William J Eiler; Ayca Coskunpinar; Kenny A Karyadi; David A Kareken Journal: Cereb Cortex Date: 2014-06-05 Impact factor: 5.357
Authors: Sarah E Racine; Jessica L VanHuysse; Pamela K Keel; S Alexandra Burt; Michael C Neale; Steven Boker; Kelly L Klump Journal: J Abnorm Psychol Date: 2017-07
Authors: David S Chester; Donald R Lynam; Richard Milich; David K Powell; Anders H Andersen; C Nathan DeWall Journal: Neuroimage Date: 2016-02-15 Impact factor: 6.556
Authors: Chella Kamarajan; Ashwini K Pandey; David B Chorlian; Niklas Manz; Arthur T Stimus; Lance O Bauer; Victor M Hesselbrock; Marc A Schuckit; Samuel Kuperman; John Kramer; Bernice Porjesz Journal: Int J Psychophysiol Date: 2015-09-18 Impact factor: 2.997