MPFC Theta Burst Stimulation as a Treatment Tool for Alcohol Use Disorder: Effects on Drinking and Incentive Salience
Overview
- Phase
- Not Applicable
- Intervention
- Not specified
- Conditions
- Alcohol Use Disorder
- Sponsor
- Medical University of South Carolina
- Enrollment
- 86
- Locations
- 1
- Primary Endpoint
- Change in alcohol cue task MRI activation 1-week post treatment from baseline
- Status
- Recruiting
- Last Updated
- last year
Overview
Brief Summary
The purpose of this study is to develop transcranial magnetic stimulation (TMS), specifically TMS at a frequency known as theta burst stimulation (TBS), to see how it affects the brain and changes the brain's response to alcohol-related pictures. TMS and TBS are stimulation techniques that use magnetic pulses to temporarily excite specific brain areas in awake people (without the need for surgery, anesthetic, or other invasive procedures). TBS, which is a form of TMS, will be applied over the medial prefrontal cortex, (MPFC), which has been shown to be involved with drinking patterns and alcohol consumption. This study will test whether TBS can be used as an alternative tool to reduce the desire to use alcohol and reducing the brain's response to alcohol-related pictures.
Detailed Description
With advances in optogenetic stimulation techniques, preclinical studies have demonstrated that activity in frontal-striatal neural circuits has a causal influence on heavy drinking and alcohol reinstatement. Clinically, however, this research has not yet been translated into a neural circuit based therapeutic technique for patients with alcohol use disorder (AUD). The long term goal of this multidisciplinary research study team is to determine the optimal parameters through which non-invasive transcranial magnetic stimulation can be used to improve alcohol drinking outcomes (abstinence, heavy drinking days) among individuals seeking behavioral treatment for AUD. Building on a foundation of several target identification studies and a small double-blinded clinical trial in treatment-engaged AUD patients performed by the study team in the Charleston Alcohol Research Center, here the investigator proposes a double-blind placebo controlled, randomized study to evaluate the efficacy of theta burst stimulation (TBS) to medial prefrontal cortex (mPFC) as a tool to decrease drinking and brain reactivity to alcohol cues among treatment-seeking individuals with AUD. Individuals will be screened initially by the Clinical Intake and Assessment core, then given an opportunity to enroll in this study, provide informed consent, and be randomized to receive real or sham TBS to the mPFC 36 sessions (3x/day on each of 3 days/week over 4 weeks, i.e., 12 days). The scientific premise of this 5 year proposal is that, by modulating the neural circuits that regulate alcohol cue-reactivity it will be possible to increase alcohol abstinence rates and decrease heavy drinking days over a 4 month period. With the combined scientific expertise in brain stimulation, neuroimaging, alcohol use disorder research in the Charleston Alcohol Research Center, and clinical practice at MUSC, the study team is uniquely suited to develop this critical line of research. The outcomes of the proposed Aims will provide an evidence-based foundation for a multisite clinical trial and will hasten progress towards developing a new neural circuit based treatment for patients with AUD.
Investigators
Lisa McTeague
Associate Professor
Medical University of South Carolina
Eligibility Criteria
Inclusion Criteria
- •Age 21-65 (to maximize participation; note: Scalp-to-Cortex distance will be included as a covariate to calculate adjusted TMS dose given expected cortical atrophy in heavy alcohol users and older adults and the demonstrated effect50 on TMS-fMRI responses in addiction)
- •Alcohol Use Disorder, determined by DSM-V criteria, using the Structured Clinical Interview for DSM-V
- •Consumption of more than 14 drinks (women) or 21 drinks (men) per week, with at least 4 heavy drinking days (defined as ≥ 4 drinks for women and ≥ 5 for men) per week during the 30-days prior to enrolling.
- •Able to read and understand questionnaires and informed consent.
Exclusion Criteria
- •Has metal placed above the neck
- •Is at elevated risk of seizure (i.e., has a history of seizures, is currently prescribed medications known to lower seizure threshold)
- •Has a history of moderate to severe alcohol withdrawal or medicated alcohol withdrawal
- •Has a history of claustrophobia
- •Has a history of chronic migraines
- •Has a history of traumatic brain injury, including a head injury that resulted in hospitalization, loss of consciousness for more than 10 minutes, or having ever been informed that they have an epidural, subdural, or subarachnoid hemorrhage
- •Has an unstable medical illness requiring planned medical/surgical intervention (e.g. chemotherapy, surgical procedure)
- •Medications: Is currently taking or initiates a new prescription for drugs known to improve alcohol drinking treatment outcomes (e.g. naltrexone, acamprosate, topiramate) or taking psychiatric/sleeping medications except for stable (1 month) antidepressants/SSRI's. \[Note: this criterion is for scientific rather than safety or patient comfort reasons\].
- •Has a history of substance use disorder (other than nicotine) by DSM-V criteria in the past 6 months
- •Meets DSM V criteria for panic disorder, bipolar disorder, obsessive-compulsive disorder, schizophrenia, dissociative disorders, eating disorders, and any other psychotic disorder. \[Note: The inclusion of participants with other affective and anxiety disorders is essential because of the marked frequency of the co-existence of mood and other anxiety disorders among patients with AUD at large\]
Outcomes
Primary Outcomes
Change in alcohol cue task MRI activation 1-week post treatment from baseline
Time Frame: Baseline (Week 1), Post-treatment (4-weeks from baseline)
For the alcohol cue reactivity task, multivariate mixture model analyses will be used to calculate the difference in activation between the ALC and BEV blocks for vmPFC and ventral striatal ROIs, and to analyze maximum likelihood estimates for ALC vs. BEV activation as a function of time, treatment, and the cross-level interactions of these factors. Specifically, the cue task stimuli will be nested within time (post- vs. pre-treatment scan); time will be nested within participant; and participants will be nested within treatment (Sham vs. Active).
Change in Percent Heavy Drinking Days (PHDD) from baseline
Time Frame: Baseline (Week 1), Post-treatment (4-weeks from baseline), 1-month post treatment (Follow-up #1), 2-months post treatment (Follow-up #2), 3-months post treatment (Follow-up #3)
The primary outcome analysis will examine the TMS treatment effect (active vs. sham) on drinking outcomes-measured as percent heavy drinking days (PHDD) (heavy drinking day defined as 4 or more drinks for women and 5 or more drinks for men)-in the follow-up period beginning after the final treatment session. Collected via timeline follow back (TLFB) in three 28-day (month) intervals, this will be analyzed using multivariate mixture models to consider the effect of time (month after treatment) and the interaction of treatment with time, baseline drinking, number of treatment sessions received, and any other potential covariates (e.g., age, nicotine use, time since last drink). Drinking data will be collected on all randomized participants, irrespective of treatment completion. Lower percentages indicate fewer heavy drinking days in the 28-day interval.
Change in Percent Days Abstinent (PDA) from baseline
Time Frame: Baseline (Week 1), Post-treatment (4-weeks from baseline), 1-month post treatment (Follow-up #1), 2-months post treatment (Follow-up #2), 3-months post treatment (Follow-up #3)
The primary outcome analysis will examine the TMS treatment effect (active vs. sham) on drinking outcomes-measured as percent days abstinent (PDA) - in the follow-up period beginning after the final treatment session. Collected via timeline follow back (TLFB) in three 28-day (month) intervals, this will be analyzed using multivariate mixture models to consider the effect of time (month after treatment) and the interaction of treatment with time, baseline drinking, number of treatment sessions received, and any other potential covariates (e.g., age, nicotine use, time since last drink). Drinking data will be collected on all randomized participants, irrespective of treatment completion. Higher percentages indicate increased days abstinent from alcohol in the 28-day interval.
Secondary Outcomes
- Change in alcohol use via Obsessive-Compulsive Drinking Scale from baseline(Baseline (Week 1), Post-treatment (4-weeks from baseline), 1-month post treatment (Follow-up #1), 2-months post treatment (Follow-up #2), 3-months post treatment (Follow-up #3))
- Change in depression via Becks Depression Inventory-II from baseline(Baseline (Week 1), Post-treatment (4-weeks from baseline), 1-month post treatment (Follow-up #1), 2-months post treatment (Follow-up #2), 3-months post treatment (Follow-up #3))
- Changes in Snaith-Hamilton Pleasure Scale from baseline(Baseline (Week 1), Weekly throughout treatment (Weeks 1-4), Post-treatment (4-weeks from baseline))
- Change in anxiety via State-Trait Anxiety Inventory from baseline(Baseline (Week 1), Post-treatment (4-weeks from baseline), 1-month post treatment (Follow-up #1), 2-months post treatment (Follow-up #2), 3-months post treatment (Follow-up #3))
- Change in alcohol use via Alcohol Audit from baseline(Baseline (Week 1), Post-treatment (4-weeks from baseline), 1-month post treatment (Follow-up #1), 2-months post treatment (Follow-up #2), 3-months post treatment (Follow-up #3))
- Changes in cognitive performance from baseline(Baseline (Week 1), Post-treatment (4-weeks from baseline))