Anxiety & Depression Association of America

Brain Stimulation and Decision-making

Purpose

Decision-making is an important process that is frequently shown to be impaired in patients with depression. While a number of preclinical and clinical studies have identified key regions involved in this process, it remains unclear exactly how these regions are influencing choice behavior especially when choices become more challenging. The goal of this project is to understand how these regions, such as the cingulate cortex, impact difficult choice behavior. Specifically, the researchers are interested in learning how disruptions in cognitive control might impact choice preferences during difficult decisions in depressed patients. To do this, this study will recruit participants with depression (as well as healthy controls) to perform game-like tasks in the laboratory while undergoing TMS or TI.

Condition

Depression

Eligibility

Eligible Ages: Between 18 Years and 50 Years
Eligible Genders: All
Accepts Healthy Volunteers: Yes

Inclusion Criteria

Provides written informed consent - Fluent English speaker - Absence of current drug use as assessed by subject history and/or urine drug screen

Exclusion Criteria

Pregnant or currently breast-feeding women or any woman of childbearing potential who is seeking to become pregnant or suspects that she may be pregnant, as assessed by subject report and/or urine pregnancy screen - Contraindications to fMRI scanning (including presence of a cardiac pacemaker or pacemaker wires, metallic particles in the body, vascular clips in the head or previous neurosurgery, prosthetic heart valves, claustrophobia) as assessed with the standard MRI screening form from the Facility for Research and Education in Neuroscience (FERN) - Unable to fit comfortably in the scanner - Contraindication to TMS, including history or family history of epilepsy, metallic implants in the head and/or neck, brain stimulators, vagus nerve stimulators, ventriculoperitoneal (VP) shunt, pacemakers - Current use of medications that may increase the risk of seizures (e.g., bupropion, varenicline, chlorpromazine, theophylline) or reduce the effects of rTMS, such as benzodiazepines - History or current serious or unstable medical illness, including cardiovascular, hepatic, renal, respiratory, endocrine, neurologic or hematologic disease, as assessed by subject history - Not right-handed as assessed by the Chapman handedness inventory or self report - History of head injury resulting in more than brief loss of consciousness, as assessed by subject history - History of cocaine or stimulant use (e.g., amphetamine, cocaine, methamphetamine), as assessed by subject history - History of use of dopaminergic drugs (including methylphenidate or other stimulant medication), as assessed by subject history - Current use or more than occasional use in the past year of tobacco products including cigarettes, e-cigarettes, cigars, snuff and chewing tobacco, or nicotine replacement products such as gum or patches, as assessed by subject history - Evidence of significant inconsistencies in self-report measures Additional Exclusion Criteria for Optional Ecological Momentary Assessment (EMA)Component for Subject Safety - Anything above minimal risk for suicide, as assessed during the clinical interview (SCID) at screening and the Columbia Suicide Severity Rating Scale (C-SSR). C-SSRS risk will be assessed as any score > 3. - Any physical or neuropsychiatric conditions that may worsen by and/or prevent walking or running. Additional Exclusion Criteria for Optional Ecological Momentary Assessment (EMA)Component for Data Quality - Meet criteria for current psychotic disorders, bipolar disorders, or severe substance use disorders as assessed by the Mini International Neuropsychiatric Interview. - Used psychotropic medications within the last six weeks as assessed by subject history. Additional Exclusion Criteria for Participants with Major Depressive Disorder: - Anything above minimal risk for suicide, as assessed during the clinical interview (SCID) at screening and the Columbia Suicide Severity Rating Scale (C-SSRS) - A symptom severity score of at least 11, as assessed by the Beck Depression Inventory (BDI)-II - History or current diagnosis of any of the following Diagnostic and Statistical Manual of Mental Disorders (DSM)-IV psychiatric illnesses: - Organic mental disorder - Schizophrenia spectrum disorders - Delusional disorder - Psychotic disorders not otherwise specified - Patients with mood congruent or mood incongruent psychotic features - Patients with bipolar mood disorders - Substance dependence - Substance abuse within the last 12 months (with the exception of cocaine or stimulant abuse; which will lead to exclusion - Absence of any psychotropic medications for at least 2 weeks. No patient will be asked to discontinue or otherwise interrupt any psychotropic medications to participate in this study. The listed "washout" periods are only applicable for patients who previously used psychotropic medications, but recently decided to discontinue their use for some other reason. - 6 weeks for fluoxetine - 6 months for neuroleptics - 2 weeks for benzodiazepines - 2 weeks for any other antidepressants Additional Exclusion Criteria for Healthy Controls: - Any current or past history of any DSM-IV psychiatric illnesses, presence of a DSM-IV psychiatric disorder within a first-degree relative, or current or past use of psychotropic medications - Score no greater than 10 on the BDI-II - Score > 1 on the SHAPS

Study Design

Phase: N/A
Study Type: Interventional
Allocation: Non-Randomized
Intervention Model: Parallel Assignment
Primary Purpose: Basic Science
Masking: None (Open Label)

Arm Groups

Arm	Description	Assigned Intervention
Active Comparator Participants with Major Depressive Disorder (MDD)	Participants with MDD will complete computer tasks while receiving TMS/ TI	Device: Neurostimulation Participants will be seated comfortably in a chair and asked to complete simple computer tasks. Participants will receive neurostimulation in the form of Transcranial Magnetic Stimulation (TMS) or Temporal Interference (TI). TMS: Either during, or just before any of the tasks, participants will receive either repetitive transcranial magnetic stimulation (rTMS) or single pulse TMS. During this, the researchers place a small plastic coil next to the participant's head. The coil will then generate a magnetic pulse, and stimulation will occur during presentation of the visual stimuli on which subjects will conduct behavioral or cognitive tasks. TI: Either during, or just before, any of the above tasks, participants will receive stimulation with TI. To do so, commercially available gel-based electrodes will be placed on the scalp to target the relevant brain region. The position targeted by the electrodes will be guided by previously defined coordinates.
Active Comparator Healthy Control	Participants without MDD will complete computer tasks while receiving TMS/TI	Device: Neurostimulation Participants will be seated comfortably in a chair and asked to complete simple computer tasks. Participants will receive neurostimulation in the form of Transcranial Magnetic Stimulation (TMS) or Temporal Interference (TI). TMS: Either during, or just before any of the tasks, participants will receive either repetitive transcranial magnetic stimulation (rTMS) or single pulse TMS. During this, the researchers place a small plastic coil next to the participant's head. The coil will then generate a magnetic pulse, and stimulation will occur during presentation of the visual stimuli on which subjects will conduct behavioral or cognitive tasks. TI: Either during, or just before, any of the above tasks, participants will receive stimulation with TI. To do so, commercially available gel-based electrodes will be placed on the scalp to target the relevant brain region. The position targeted by the electrodes will be guided by previously defined coordinates.

Recruiting Locations

More Details

Status: Recruiting
Sponsor: Emory University

Study Contact

Michael Treadway, PhD
404 727-3166
tread.lab.cbid@emory.edu

Detailed Description

In recent years, countless studies have employed functional magnetic resonance imaging (fMRI) and other imaging modalities to both discover and track activity in brain regions involved in performance or behavior in a wide range of tasks. Running in parallel, research involving neuromodulation has afforded researchers the opportunity to test the impact of direct stimulation on areas hypothesized to be involved in certain processes or behaviors. Among such technologies are transcranial magnetic stimulation (TMS) and temporal interference (TI). TMS and TI can be performed during any sort of cognitive or behavioral task to estimate an effect of the stimulated brain area; as such, TMS and TI have an exciting array of potential applications in research. One area, for example, is cost-benefit decision-making. Because of the potential biases associated with self-report measures-including simple recall errors, misinterpretations of the item, and social-conformity pressures-a number of psychological laboratories have advocated for the use of decision-making tasks as an alternative means of assessing motivation and reward-related symptoms. Such tasks ask individuals to chose how much they are willing to work, wait or risk in order to win various rewards. These measures have been used in a variety of behavioral and neuroimaging studies and in different clinical populations. This study will use TMS or TI in combination with a series of behavioral tasks to probe the relationship between areas known or hypothesized to be involved in cognition and/or cost-benefit decision-making, and performance on these tasks. The aim of this study is to understand the effect of TMS or TI stimulation of certain brain areas on performance in a series of cognition- and decision-based behavioral tasks. To do so, the researchers will stimulate areas of the cortex hypothesized to be selectively engaged with cognition of a given category, or cost-benefit decision-making (depending on the behavioral tasks used). This study will examine healthy controls and depressed patients to investigate these effects. Such an aim will not only provide a deeper understanding of decision-making for basic research, but will also hopefully inform understanding when decision-making is altered as in psychiatric populations.