Negative urgency and ventromedial prefrontal cortex responses to alcohol cues: FMRI evidence of emotion-based impulsivity.
- Authors
- Cyders, Melissa A; Dzemidzic, Mario; Eiler, William J; Coskunpinar, Ayca; Karyadi, Kenny; Kareken, David A
- Year
- 2014
- Journal
- Alcoholism, clinical and experimental research
- PMID
- 24164291
- DOI
- 10.1111/acer.12266
- PMCID
- PMC3946804
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 ageΒ =Β 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 (pΒ <Β 0.001) confirmed [AcOΒ >Β 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)Β ΓΒ Mood factorial models, AcO activation was greater than AppCo in left vmPFC (pΒ <Β 0.001), left mPFC (pΒ =Β 0.002), and right vmPFC (pΒ =Β 0.01) regions. Mood did not interact significantly with activation, but the covariate of trait negative urgency accounted for significant variance in left vmPFC (pΒ =Β 0.01) and right vmPFC (pΒ =Β 0.01) [AcOΒ >Β 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.
Outline of the imaging session. A total of six functional imaging scans of combined olfactory/visual stimulation were performed (24 2-second odor events in each of the 3 stimulus classes of AcO, AppCo, and SO were intermixed with 32 2-second IAPS image presentations), with two scans completed for each mood (2 positive image scans, 2 negative image scans, and 2 neutral image scans). Scan order was randomly assigned, with a break after the first three scans, although randomization was restricted so that all three moods were experienced prior to and again following the break.
Significant interaction between drink type (AcO = alcohol, AppCo = grape juice) for self-reported craving levels (p = 0.028), such that the difference in craving between alcohol and grape juice was accentuated in the negative and positive mood conditions.
Main Effect of olfactory cues. Brain regions showing [AcO > SO; left panel] and [AcO > AppCo; right panel] BOLD activation pooling over Mood Condition, cluster-level significance, pfdr < 0.05, display height p = 0.001. Four ROIs were identified: left ventromedial prefrontal cortex (red box), right ventromedial prefrontal cortex (blue box), left medial prefrontal cortex (green box) and right medial prefrontal cortex (not shown). The dashed line indicates the boundaries between the medial and prefrontal ROIs (z = β6 on sagittal views; top panel), and between the right and left vmPFC boundaries (x = 0 on axial views; bottom panel). For more details see Table 2. Color bar represents the t-statistic value.
Mood (3: Negative, Neutral, Positive) Γ Odor (2: [AcO > SO] and [AppCo > SO]) Linear Mixed-Effects Model Results in four medial frontal regions of interest.
Positive correlation between negative urgency and [AcO>SO] BOLD activation in Left and Right vmPFC. Positive correlation between mean [AcO > SO] BOLD activity as extracted (height threshiold p < 0.001) from the left vmPFC (red box) and right vmPFC (blue box) with negative urgency (NUR). For reference, the inset shows a voxel-wise map of the correlation between [AcO > SO] and NUR in voxel-wise analysis (display threshold, p < 0.05; masked for [AcO > SO] activation).
Interaction between Negative Urgency and Craving Type (Alcohol, Grape) for self-reported craving levels.
Negative Urgency (NUR) as a mediator between mean [AcO > SO] BOLD activation in the left and right ventromedial prefrontal cortex mean BOLD activation and (a) Subjective Alcohol Craving (ACQ; left panel) and (b) Problematic Alcohol Use (AUDIT; right panel).
No entities extracted from this document yet.
No uploaded files.
In this knowledge base
External
| Title | Authors | Journal | Year | Link |
|---|---|---|---|---|
| The modulatory effects of design-related and clinical factors in neural drug cue reactivity: An ALE meta-analysis. | Fascher M et al. | β | 2026 | β |
| Alcohol outcomes on anxiety, impulsivity and spatial memory: Possible Omega-3 amelioration effects. | Cabrera V et al. | β | 2025 | β |
| Testing a Reward-Processing Model of Negative Urgency in Women With and Without Binge Eating. | Racine SE et al. | β | 2025 | β |
| Theoretical Frameworks and Mechanistic Aspects of Alcohol Addiction: Alcohol Addiction as a Reward Deficit/Stress Surfeit Disorder. | Koob GF et al. | β | 2025 | β |
| Chronic ethanol exposure produces long-lasting, subregion-specific physiological adaptations in RMTg-projecting mPFC neurons. | Przybysz KR et al. | β | 2024 | β |
| Dual-systems models of the genetic architecture of impulsive personality traits: neurogenetic evidence of distinct but related factors. | Miller AP et al. | β | 2024 | β |
| Examining neural responses to anticipating or receiving monetary rewards and the development of binge eating in youth. A registered report using data from theΒ Adolescent Brain Cognitive Development (ABCD) study. | Lowe CJ et al. | β | 2024 | β |
| Negative Urgency Linked to Craving and Substance Use Among Adults on Buprenorphine or Methadone. | GonΓ§alves SF et al. | β | 2024 | β |
| Alcohol craving in the natural environment: Moderating roles of cue exposure, drinking, and alcohol sensitivity. | Kohen CB et al. | β | 2023 | β |
| A meta-analytic review of the effectiveness of mood inductions in eliciting emotion-based behavioral risk-taking and craving in the laboratory. | Um M et al. | β | 2023 | β |
| Decreased inter-brain synchronization in the right middle frontal cortex in alcohol use disorder during social interaction: An fNIRS hyperscanning study. | Guo L et al. | β | 2023 | β |
| Differentiating Individuals with and without Alcohol Use Disorder Using Resting-State fMRI Functional Connectivity of Reward Network, Neuropsychological Performance, and Impulsivity Measures. | Kamarajan C et al. | β | 2022 | β |
| Factors in the neurodevelopment of negative urgency: Findings from a community-dwelling sample. | Evans CL et al. | β | 2022 | β |
| Maladaptive Emotion Socialization as a Risk Factor for the Development of Negative Urgency and Subsequent Problem Drinking. | Atkinson EA et al. | β | 2022 | β |
| Social Support Effects on Neural Stress and Alcohol Reward Responses. | Fogelman N et al. | β | 2022 | β |
| Midcingulate Cortical Activations Interrelate Chronic Craving and Physiological Responses to Negative Emotions in Cocaine Addiction. | Zhornitsky S et al. | β | 2021 | β |
| Negative urgency as a risk factor for hazardous alcohol use: Dual influences of cognitive control and reinforcement processing. | Rawls E et al. | β | 2021 | β |
| Negative Urgency as a Risk Factor for Hazardous Alcohol Use: Dual Influences of Cognitive Control and Reinforcement Processing | Rawls E et al. | β | 2021 | β |
| Neural mechanisms of intimate partner aggression. | Chester DS et al. | β | 2021 | β |
| Balancing act: Neural correlates of affect dysregulation in youth depression and substance use - A systematic review of functional neuroimaging studies. | Rakesh D et al. | β | 2020 | β |
| Diminished Myoinositol in Ventromedial Prefrontal Cortex Modulates the Endophenotype of Impulsivity. | Jupp B et al. | β | 2020 | β |
| Greater delay discounting and cannabis coping motives are associated with more frequent cannabis use in a large sample of adult cannabis users. | Sofis MJ et al. | β | 2020 | β |
| History of suicidality and alcohol craving trajectories during inpatient treatment for alcohol use disorder. | Janakiraman R et al. | β | 2020 | β |
| Impulsive Responses to Positive and Negative Emotions: Parallel Neurocognitive Correlates and Their Implications. | Johnson SL et al. | β | 2020 | β |
| Integrated intervention program for alcoholism improves impulsiveness and disadvantageous reward processing/risk-taking. | Kumar R et al. | β | 2020 | β |
| Potions for Emotions: Do self-reported individual differences in negative-emotional drinking predict alcohol consumption in the laboratory following exposure to a negative experience? | Austin HRT et al. | β | 2020 | β |
| Random Forest Classification of Alcohol Use Disorder Using fMRI Functional Connectivity, Neuropsychological Functioning, and Impulsivity Measures. | Kamarajan C et al. | β | 2020 | β |
| Relationship of negative urgency to cingulo-insular and cortico-striatal resting state functional connectivity in tobacco use. | Um M et al. | β | 2020 | β |
| Different Food Odors Control Brain Connectivity in Impulsive Children. | de Celis-Alonso B et al. | β | 2019 | β |
| Facets of impulsivity and alcohol use: What role do emotions play? | Herman AM et al. | β | 2019 | β |
| Impulsivity Derived From the Dark Side: Neurocircuits That Contribute to Negative Urgency. | Zorrilla EP et al. | β | 2019 | β |
| Integrating Preclinical and Clinical Models of Negative Urgency. | Halcomb M et al. | β | 2019 | β |
| Neural responses to monetary incentives in bipolar disorder. | Johnson SL et al. | β | 2019 | β |
| Personality and Coping: Individual Differences in Responses to Emotion. | Segerstrom SC et al. | β | 2019 | β |
| Shared Neural Correlates Underlying Addictive Disorders and Negative Urgency. | Um M et al. | β | 2019 | β |
| Morphological and functional evidence of increased excitatory signaling in the prelimbic cortex during ethanol withdrawal. | Varodayan FP et al. | β | 2018 | β |
| Negative Urgency Mediates the Relation between Genetically-Influenced Serotonin Functioning and Alcohol Problems. | Wang FL et al. | β | 2018 | β |
| Recommendations for applying a multi-dimensional model of impulsive personality to diagnosis and treatment. | Um M et al. | β | 2018 | β |
| Correlation between Traits of Emotion-Based Impulsivity and Intrinsic Default-Mode Network Activity. | Zhao J et al. | β | 2017 | β |
| Eating disorder-specific risk factors moderate the relationship between negative urgency and binge eating: A behavioral genetic investigation. | Racine SE et al. | β | 2017 | β |
| The neural correlates of priming emotion and reward systems for conflict processing in alcoholics. | Schulte T et al. | β | 2017 | β |
| An fMRI Study of Responses to Sexual Stimuli as a Function of Gender and Sensation Seeking: A Preliminary Analysis. | Cyders MA et al. | β | 2016 | β |
| Craving versus control: Negative urgency and neural correlates of alcohol cue reactivity. | Chester DS et al. | β | 2016 | β |
| How do negative emotions impair self-control? A neural model of negative urgency. | Chester DS et al. | β | 2016 | β |
| Integrating affect and impulsivity: The role of positive and negative urgency in substance use risk. | Smith GT et al. | β | 2016 | β |
| Negative urgency, mood induction, and alcohol seeking behaviors. | VanderVeen JD et al. | β | 2016 | β |
| Neural Correlates and Connectivity Underlying Stress-Related Impulse Control Difficulties in Alcoholism. | Seo D et al. | β | 2016 | β |
| Ruminative subtypes and impulsivity in risk for suicidal behavior. | Valderrama J et al. | β | 2016 | β |
| Negative Urgency Mediates the Relationship between Amygdala and Orbitofrontal Cortex Activation to Negative Emotional Stimuli and General Risk-Taking. | Cyders MA et al. | β | 2015 | β |
| Neural correlates of high-risk behavior tendencies and impulsivity in an emotional Go/NoGo fMRI task. | Brown MR et al. | β | 2015 | β |
| Reward processing deficits and impulsivity in high-risk offspring of alcoholics: A study of event-related potentials during a monetary gambling task. | Kamarajan C et al. | β | 2015 | β |
| The fMRI BOLD response to unisensory and multisensory smoking cues in nicotine-dependent adults. | Cortese BM et al. | β | 2015 | β |
| Dopamine and glucose, obesity, and reward deficiency syndrome. | Blum K et al. | β | 2014 | β |
| Ventral frontal satiation-mediated responses to food aromas in obese and normal-weight women. | Eiler WJ et al. | β | 2014 | β |