Effects of Theta Burst Stimulation on the Brain, Behavior, and Clinical Symptoms in Adults With Bipolar Disorder

Sponsor

Mary Phillips, MD MD (Cantab) (Other)

Overall Status

Recruiting

CT.gov ID

NCT04696471

Collaborator

National Institute of Mental Health (NIMH) (NIH)

134

Enrollment

Location

Arms

52.9

Anticipated Duration (Months)

2.5

Patients Per Site Per Month

Study Details

Study Description

Brief Summary

Bipolar Disorder (BD) is a common and highly debilitating psychiatric disorder, however, the predisposing brain mechanisms are poorly understood. Here, the investigators aim to examine the immediate effect of transcranial brain stimulation (TBS) on brain activity and emotions in adults with and without BD as a first stage toward understanding the predisposing brain mechanisms of BD. The investigators hypothesize that TBS will reduce brain activity while playing a game with rewards in all adults, but the TBS will reduce brain activity more in the adults with BD compared to adults without BD. Furthermore, the investigators hypothesize that this reduced brain activity will be associated with reduced BD symptoms, such as negative emotions.

Condition or Disease	Intervention/Treatment	Phase
Bipolar Disorder	Device: Continuous Theta Burst Stimulation (cTBS) Device: Sham Continuous Theta Burst Stimulation (Sham cTBS)	N/A

Detailed Description

This study aims to examine the effects of noninvasive stimulation on brain activity as measured by functional magnetic resonance imaging (fMRI) in participants with and without Bipolar I Disorder. Eligible participants will undergo 5 study visits: a screening visit, a baseline MRI visit, and 3 cTBS visits. Participants will receive brain stimulation and undergo fMRI scanning at each of the 3 cTBS study visits, however, at one of the visits, the brain stimulation will be a sham. The research associates and participants will be blinded to when the sham occurs, which will be randomized beforehand. Certain information is withheld to protect the scientific integrity of the study design

Study Design

Study Type:

Interventional

Anticipated Enrollment :

134 participants

Allocation:

Randomized

Intervention Model:

Crossover Assignment

Masking:

Quadruple (Participant, Care Provider, Investigator, Outcomes Assessor)

Primary Purpose:

Basic Science

Official Title:

Elucidating Neural Mechanisms of Hypo/Mania Using Theta Burst Stimulation

Actual Study Start Date :

Apr 6, 2021

Anticipated Primary Completion Date :

Sep 1, 2025

Anticipated Study Completion Date :

Sep 1, 2025

Arms and Interventions

Arm	Intervention/Treatment
Experimental: Left ventrolateral prefrontal cortex (vlPFC)/Left SS/Left vlPFC sham A random number sequence will be generated for randomization of the 3 cTBS scan session order to which each participant is assigned: left vlPFC cTBS (cTBS applied to the left ventrolateral prefrontal cortex) left SS cTBS (cTBS applied to the left somatosensory area) left vlPFC sham TBS (go through the motions of applying cTBS to the left ventrolateral prefrontal cortex but very low current is administered so that the participant feels like cTBS is being administered even though the current is too low to stimulate brain cells) Participants will know that one session will be a sham, but they will be blinded to which session is the sham.	Device: Continuous Theta Burst Stimulation (cTBS) cTBS is a brief stimulation of a part of the brain with a magnetic field that passes through the scalp and skull safely. It is FDA-approved as a treatment for psychological conditions including depression; however, this device is not approved for the treatment of adults with Bipolar Disorder I or for use in healthy adults. This research study is using the cTBS off label in all participants (those with and without Bipolar Disorder I) to examine research questions Other Names: Transcranial Magnetic Stimulation (TMS) Device: Sham Continuous Theta Burst Stimulation (Sham cTBS) Sham cTBS goes through the motions of applying cTBS to the brain but administers very low current so that the participant feels like cTBS is being administered even though the current is too low to stimulate brain cells. Participants will know that one session will be a sham, but they will be blinded to which session is the sham Other Names: Sham Transcranial Magnetic Stimulation (Sham TMS)
Experimental: Left vlPFC/Left vlPFC sham/Left SS A random number sequence will be generated for randomization of the 3 cTBS scan session order to which each participant is assigned: left vlPFC cTBS (cTBS applied to the left ventrolateral prefrontal cortex) left SS cTBS (cTBS applied to the left somatosensory area) left vlPFC sham TBS (go through the motions of applying cTBS to the left ventrolateral prefrontal cortex but very low current is administered so that the participant feels like cTBS is being administered even though the current is too low to stimulate brain cells) Participants will know that one session will be a sham, but they will be blinded to which session is the sham.	Device: Continuous Theta Burst Stimulation (cTBS) cTBS is a brief stimulation of a part of the brain with a magnetic field that passes through the scalp and skull safely. It is FDA-approved as a treatment for psychological conditions including depression; however, this device is not approved for the treatment of adults with Bipolar Disorder I or for use in healthy adults. This research study is using the cTBS off label in all participants (those with and without Bipolar Disorder I) to examine research questions Other Names: Transcranial Magnetic Stimulation (TMS) Device: Sham Continuous Theta Burst Stimulation (Sham cTBS) Sham cTBS goes through the motions of applying cTBS to the brain but administers very low current so that the participant feels like cTBS is being administered even though the current is too low to stimulate brain cells. Participants will know that one session will be a sham, but they will be blinded to which session is the sham Other Names: Sham Transcranial Magnetic Stimulation (Sham TMS)
Experimental: Left SS/Left vlPFC sham/Left vlPFC A random number sequence will be generated for randomization of the 3 cTBS scan session order to which each participant is assigned: left vlPFC cTBS (cTBS applied to the left ventrolateral prefrontal cortex) left SS cTBS (cTBS applied to the left somatosensory area) left vlPFC sham TBS (go through the motions of applying cTBS to the left ventrolateral prefrontal cortex but very low current is administered so that the participant feels like cTBS is being administered even though the current is too low to stimulate brain cells) Participants will know that one session will be a sham, but they will be blinded to which session is the sham.	Device: Continuous Theta Burst Stimulation (cTBS) cTBS is a brief stimulation of a part of the brain with a magnetic field that passes through the scalp and skull safely. It is FDA-approved as a treatment for psychological conditions including depression; however, this device is not approved for the treatment of adults with Bipolar Disorder I or for use in healthy adults. This research study is using the cTBS off label in all participants (those with and without Bipolar Disorder I) to examine research questions Other Names: Transcranial Magnetic Stimulation (TMS) Device: Sham Continuous Theta Burst Stimulation (Sham cTBS) Sham cTBS goes through the motions of applying cTBS to the brain but administers very low current so that the participant feels like cTBS is being administered even though the current is too low to stimulate brain cells. Participants will know that one session will be a sham, but they will be blinded to which session is the sham Other Names: Sham Transcranial Magnetic Stimulation (Sham TMS)
Experimental: Left SS/Left vlPFC/Left vlPFC sham A random number sequence will be generated for randomization of the 3 cTBS scan session order to which each participant is assigned: left vlPFC cTBS (cTBS applied to the left ventrolateral prefrontal cortex) left SS cTBS (cTBS applied to the left somatosensory area) left vlPFC sham TBS (go through the motions of applying cTBS to the left ventrolateral prefrontal cortex but very low current is administered so that the participant feels like cTBS is being administered even though the current is too low to stimulate brain cells) Participants will know that one session will be a sham, but they will be blinded to which session is the sham.	Device: Continuous Theta Burst Stimulation (cTBS) cTBS is a brief stimulation of a part of the brain with a magnetic field that passes through the scalp and skull safely. It is FDA-approved as a treatment for psychological conditions including depression; however, this device is not approved for the treatment of adults with Bipolar Disorder I or for use in healthy adults. This research study is using the cTBS off label in all participants (those with and without Bipolar Disorder I) to examine research questions Other Names: Transcranial Magnetic Stimulation (TMS) Device: Sham Continuous Theta Burst Stimulation (Sham cTBS) Sham cTBS goes through the motions of applying cTBS to the brain but administers very low current so that the participant feels like cTBS is being administered even though the current is too low to stimulate brain cells. Participants will know that one session will be a sham, but they will be blinded to which session is the sham Other Names: Sham Transcranial Magnetic Stimulation (Sham TMS)
Experimental: Left vlPFC sham/Left SS/Left vlPFC A random number sequence will be generated for randomization of the 3 cTBS scan session order to which each participant is assigned: left vlPFC cTBS (cTBS applied to the left ventrolateral prefrontal cortex) left SS cTBS (cTBS applied to the left somatosensory area) left vlPFC sham TBS (go through the motions of applying cTBS to the left ventrolateral prefrontal cortex but very low current is administered so that the participant feels like cTBS is being administered even though the current is too low to stimulate brain cells) Participants will know that one session will be a sham, but they will be blinded to which session is the sham.	Device: Continuous Theta Burst Stimulation (cTBS) cTBS is a brief stimulation of a part of the brain with a magnetic field that passes through the scalp and skull safely. It is FDA-approved as a treatment for psychological conditions including depression; however, this device is not approved for the treatment of adults with Bipolar Disorder I or for use in healthy adults. This research study is using the cTBS off label in all participants (those with and without Bipolar Disorder I) to examine research questions Other Names: Transcranial Magnetic Stimulation (TMS) Device: Sham Continuous Theta Burst Stimulation (Sham cTBS) Sham cTBS goes through the motions of applying cTBS to the brain but administers very low current so that the participant feels like cTBS is being administered even though the current is too low to stimulate brain cells. Participants will know that one session will be a sham, but they will be blinded to which session is the sham Other Names: Sham Transcranial Magnetic Stimulation (Sham TMS)
Experimental: Left vlPFC sham/Left vlPFC/Left SS A random number sequence will be generated for randomization of the 3 cTBS scan session order to which each participant is assigned: left vlPFC cTBS (cTBS applied to the left ventrolateral prefrontal cortex) left SS cTBS (cTBS applied to the left somatosensory area) left vlPFC sham TBS (go through the motions of applying cTBS to the left ventrolateral prefrontal cortex but very low current is administered so that the participant feels like cTBS is being administered even though the current is too low to stimulate brain cells) Participants will know that one session will be a sham, but they will be blinded to which session is the sham.	Device: Continuous Theta Burst Stimulation (cTBS) cTBS is a brief stimulation of a part of the brain with a magnetic field that passes through the scalp and skull safely. It is FDA-approved as a treatment for psychological conditions including depression; however, this device is not approved for the treatment of adults with Bipolar Disorder I or for use in healthy adults. This research study is using the cTBS off label in all participants (those with and without Bipolar Disorder I) to examine research questions Other Names: Transcranial Magnetic Stimulation (TMS) Device: Sham Continuous Theta Burst Stimulation (Sham cTBS) Sham cTBS goes through the motions of applying cTBS to the brain but administers very low current so that the participant feels like cTBS is being administered even though the current is too low to stimulate brain cells. Participants will know that one session will be a sham, but they will be blinded to which session is the sham Other Names: Sham Transcranial Magnetic Stimulation (Sham TMS)

Outcome Measures

Primary Outcome Measures

Reward expectancy-related left ventrolateral prefrontal cortex activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted blood oxygen level-dependent (BOLD) signal from the left ventrolateral prefrontal cortex to the uncertain reward expectancy regressor during performance of the reward task
Reward expectancy-related right ventrolateral prefrontal cortex activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted BOLD signal from the right ventrolateral prefrontal cortex to the uncertain reward expectancy regressor during performance of the reward task
Reward expectancy-related left ventral striatum activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted BOLD signal from the left ventral striatum to the uncertain reward expectancy regressor during performance of the reward task
Reward expectancy-related right ventral striatum activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted BOLD signal from the left ventral striatum to the uncertain reward expectancy regressor during performance of the reward task
Reward expectancy-related left orbitofrontal cortex activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted BOLD signal from the left orbitofrontal cortex to the uncertain reward expectancy regressor during performance of the reward task
Reward expectancy-related right orbitofrontal cortex activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted BOLD signal from the left orbitofrontal cortex to the uncertain reward expectancy regressor during performance of the reward task
Reward expectancy-related midline rostral anterior cingulate cortex (rACC) activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted BOLD signal from the midline rostral anterior cingulate cortex (rACC) to the uncertain reward expectancy regressor during performance of the reward task
Reward expectancy-related midline dorsal anterior cingulate cortex activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted BOLD signal from the midline dorsal anterior cingulate cortex to the uncertain reward expectancy regressor during performance of the reward task
Reward expectancy-related left amygdala activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted BOLD signal from the left amygdala to the uncertain reward expectancy regressor during performance of the reward task
Reward expectancy-related right amygdala activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted BOLD signal from the left amygdala to the uncertain reward expectancy regressor during performance of the reward task
Reward expectancy-related left ventrolateral prefrontal cortex-right ventrolateral prefrontal cortex functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimate for functional connectivity between the left and right ventrolateral prefrontal cortices to the uncertain reward expectancy regressor during performance of the reward task
Reward expectancy-related left ventrolateral prefrontal cortex-left ventral striatum functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimate for functional connectivity between the left ventrolateral prefrontal cortex and left ventral striatum to the uncertain reward expectancy regressor during performance of the reward task
Reward expectancy-related left ventrolateral prefrontal cortex-right ventral striatum functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimate for functional connectivity between the left ventrolateral prefrontal cortex and right ventral striatum to the uncertain reward expectancy regressor during performance of the reward task
Reward expectancy-related left ventrolateral prefrontal cortex-left orbitofrontal cortex functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimate for functional connectivity between the left ventrolateral prefrontal cortex and left orbitofrontal cortex to the uncertain reward expectancy regressor during performance of the reward task
Reward expectancy-related left ventrolateral prefrontal cortex-right orbitofrontal cortex functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimate for functional connectivity between the left ventrolateral prefrontal cortex and right orbitofrontal cortex to the uncertain reward expectancy regressor during performance of the reward task
Reward expectancy-related left ventrolateral prefrontal cortex-midline rostral anterior cingulate cortex functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimate for functional connectivity between the left ventrolateral prefrontal cortex and midline rACC to the uncertain reward expectancy regressor during performance of the reward task
Reward expectancy-related left ventrolateral prefrontal cortex-midline dorsal anterior cingulate cortex functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimate for functional connectivity between the left ventrolateral prefrontal cortex and midline dorsal anterior cingulate cortex to the uncertain reward expectancy regressor during performance of the reward task
Reward expectancy-related left ventrolateral prefrontal cortex-left amygdala functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimate for functional connectivity between the left ventrolateral prefrontal cortex and left amygdala to the uncertain reward expectancy regressor during performance of the reward task
Reward expectancy-related left ventrolateral prefrontal cortex-right amygdala functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimate for functional connectivity between the left ventrolateral prefrontal cortex and right amygdala to the uncertain reward expectancy regressor during performance of the reward task

Secondary Outcome Measures

Reward expectancy-related left ventrolateral prefrontal cortex wholebrain functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS for each cTBS condition of the extracted parameter estimate for functional connectivity between the left ventrolateral prefrontal cortex and the whole brain to the uncertain reward expectancy regressor during performance of the reward task
Left ventrolateral prefrontal cortex activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted BOLD signal in the left ventrolateral prefrontal cortex to the contrast of possible win vs. neutral control conditions
Right ventrolateral prefrontal cortex activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted BOLD signal in the right ventrolateral prefrontal cortex to the contrast of possible win vs. neutral control conditions
Left ventral striatum activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted BOLD signal in the left ventral striatum to the contrast of possible win vs. neutral control conditions
Right ventral striatum activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted BOLD signal in the right ventral striatum to the contrast of possible win vs. neutral control conditions
Left orbitofrontal cortex activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted BOLD signal in the left orbitofrontal cortex to the contrast of possible win vs. neutral control conditions
Right orbitofrontal cortex activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted BOLD signal in the right orbitofrontal cortex to the contrast of possible win vs. neutral control conditions
Midline rostral anterior cingulate cortex activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted BOLD signal in the midline rostral anterior cingulate cortex to the contrast of possible win vs. neutral control conditions
Midline dorsal anterior cingulate cortex activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted BOLD signal in the midline dorsal anterior cingulate cortex to the contrast of possible win vs. neutral control conditions
Left amygdala activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted BOLD signal in the left amygdala to the contrast of possible win vs. neutral control conditions
Right amygdala activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted BOLD signal in the right amygdala to the contrast of possible win vs. neutral control conditions
Left ventral lateral prefrontal cortex-wholebrain functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimates of functional connectivity between the left ventrolateral prefrontal cortex and the wholebrain to the contrast of possible win vs. neutral control conditions
Prediction error-related left ventral striatum activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted BOLD signal in the left ventral striatum to the prediction error regressor
Prediction error-related right ventral striatum activity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted BOLD signal in the right ventral striatum to the prediction error regressor
Prediction error-related left ventral striatum-wholebrain functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimates of resting state functional connectivity between the left ventral striatum and the wholebrian to the prediction error regressor
Prediction error-related right ventral striatum-wholebrain functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimates of resting state functional connectivity between the right ventral striatum and the wholebrain

Other Outcome Measures

Left ventrolateral prefrontal cortex-wholebrain resting state functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimates of resting state functional connectivity between the left ventrolateral prefrontal cortex and the wholebrain
Left ventrolateral prefrontal cortex-right ventrolateral prefrontal cortex resting state functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimates of resting state functional connectivity between the left and right ventrolateral prefrontal cortices
Left ventrolateral prefrontal cortex-left ventral striatum resting state functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimates of resting state functional connectivity between the left ventrolateral prefrontal cortex and the left ventral striatum
Left ventrolateral prefrontal cortex-right ventral striatum resting state functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimates of resting state functional connectivity between the left ventrolateral prefrontal cortex and the right ventral striatum
Left ventrolateral prefrontal cortex-left orbitofrontal cortex resting state functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimates of resting state functional connectivity between the left ventrolateral prefrontal cortex and the left orbitofrontal cortex
Left ventrolateral prefrontal cortex-right orbitofrontal cortex resting state functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimates of resting state functional connectivity between the left ventrolateral prefrontal cortex and the right orbitofrontal cortex
Left ventrolateral prefrontal cortex-midline rostral anterior cingulate cortex resting state functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimates of resting state functional connectivity between the left ventrolateral prefrontal cortex and the midline rostral anterior cingulate cortex
Left ventrolateral prefrontal cortex-midline dorsal anterior cingulate cortex resting state functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimates of resting state functional connectivity between the left ventrolateral prefrontal cortex and the midline dorsal anterior cingulate cortex
Left ventrolateral prefrontal cortex-left amygdala resting state functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimates of resting state functional connectivity between the left ventrolateral prefrontal cortex and the left amygdala
Left ventrolateral prefrontal cortex-right amygdala resting state functional connectivity [Change in magnitude immediately before and immediately after each cTBS condition at scan visits (30-60 mins)]
The difference in magnitude between pre and post cTBS scans for each cTBS condition of the extracted parameter estimates of resting state functional connectivity between the left ventrolateral prefrontal cortex and the right amygdala

Eligibility Criteria

Criteria

Ages Eligible for Study:

18 Years to 35 Years

Sexes Eligible for Study:

All

Accepts Healthy Volunteers:

Yes

Inclusion Criteria:

All participants

18-35 years of age
Scoring less than or equal to 8 on the Hamilton Rating Scale for Depression (HRSD) at screen visit

Participants with Bipolar Disorder (BD)

Diagnosis of Bipolar Disorder I/II (BDI/II) (DSM-5 criteria) in remission (euthymic for >2 months) or with mild-moderate hypomania
<15 on the Young Mania Rating Scale
Not psychotic
<3 on delusions, hallucinations, unusual thought content, and conceptual disorganization items of the Positive and Negative Syndrome Scale (PANSS)
Unmedicated for >2 months or on any combination (except antidepressant monotherapy) of anxiolytics (benzodiazepines, buspirone, pregabalin, hydroxyzine) as needed, and/or atypical antipsychotics, and/or lithium, and/or other mood stabilizers, and/or non-SNRI antidepressants and/or non benzodiazepine hypnotics taken for >2 months, as these are commonly-prescribed medications for BD

Participants without Bipolar Disorder

No present or lifetime history of BD or psychiatric disorder other than anxiety or non BD mood disorders
Not in a current depressive episode
No family history of BD

Exclusion Criteria:

All participants

History of head injury, neurological, pervasive developmental disorder (e.g. autism), systemic medical disease and treatment (medical records, participant report)
Family history of epilepsy (TBS exclusion criterion)
Use of substances with seizure risk (e.g., stimulants) in the past month, assessed as at screening, baseline, and before each fMRI-cTBS-fMRI session
Mini-Mental State Examination score (cognitive state) <24
Premorbid National Adult Reading Test Intelligent Quotient estimate<85
Visual disturbance: <20/40 Snellen visual acuity
Left/mixed handedness
History of alcohol/substance use disorder (SUD; all substances, including nicotine), and/or illicit substance use (except cannabis) over the last 6 months (SCID-5). Note: lifetime/present cannabis use (at non-abuse (<3 times in the past month) and non SUD levels) will be allowed, given its common usage in BD and young adults. Cannabis SUD over the last 6 months will not be allowed. Urine tests on scan days will exclude current illicit substance use (except cannabis). Salivary alcohol tests on scan days will exclude intoxicated individuals
Binge drinking in the week before, and/or >3 units/day for the 3 days before, and/or alcohol in the last 12 hrs before, any cTBS scan day, confirmed at screening and scan days (to avoid TBS during alcohol withdrawal). Alcohol/nicotine/ caffeine/cannabis use (below SCID-5 SUD, binge levels) will be allowed, and used as covariates
MRI exclusion criteria: metallic objects, e.g., surgical implants; claustrophobia; proneness; positive pregnancy test for females (performed at the MRRC) or self-report pregnancy
Inability to understand English
<18 years of age or >35 year of age
SNRI antidepressants and bupropion will not be allowed, as they can elevate seizure risk, a contraindication for TBS
Scoring greater than or equal to 8 on HRSD and in depressive episode is confirmed on SCID-5 at screen visit
Scoring greater than or equal to 18 on HRSD at any visit
In current depressive episode

Participants with Bipolar Disorder

BD diagnosis other than BDI/II
More severe hypo/mania (YMRS>15)
Psychosis
Using allowed psychotropic medication for <2 months
Using psychotropic medications other than those allowed in inclusion criteria
Unmedicated for <2 months

Participants without Bipolar Disorder

Present/ lifetime history of any psychiatric disorder other than anxiety and non BD mood disorders
Family history of of BD

Contacts and Locations

Locations

	Site	City	State	Country	Postal Code
1	University of Pittsburgh	Pittsburgh	Pennsylvania	United States	15213

Sponsors and Collaborators

Mary Phillips, MD MD (Cantab)
National Institute of Mental Health (NIMH)

Investigators

Principal Investigator: Mary Phillips, MD, MD, University of Pittsburgh
Principal Investigator: Fabio Ferrarelli, MD, PhD, University of Pittsburgh

Study Documents (Full-Text)

None provided.

More Information

Publications

None provided.

Responsible Party:

Mary Phillips, MD MD (Cantab), Professor, University of Pittsburgh

ClinicalTrials.gov Identifier:

NCT04696471

Other Study ID Numbers:

STUDY20060322
R01MH122990

First Posted:

Jan 6, 2021

Last Update Posted:

Apr 22, 2022

Last Verified:

Apr 1, 2022

Individual Participant Data (IPD) Sharing Statement:

Yes

Plan to Share IPD:

Yes

Studies a U.S. FDA-regulated Drug Product:

Studies a U.S. FDA-regulated Device Product:

Yes

Product Manufactured in and Exported from the U.S.:

Keywords provided by Mary Phillips, MD MD (Cantab), Professor, University of Pittsburgh

Bipolar Disorder

Magnetic Resonance Imaging

Transcranial Magnetic Stimulation

Additional relevant MeSH terms:

Bipolar Disorder

Study Results

No Results Posted as of Apr 22, 2022