Targeting the Default Mode Network: A TMS-fMRI Study
Study Details
Study Description
Brief Summary
In post-traumatic stress disorder (PTSD), intrusive, traumatic, autobiographical memories lead to anxiety symptoms. Recent work suggests a new repetitive pulse transcranial magnetic stimulation (rTMS) brain target that might bring relief. Since this proposed target is not well understood, our goal is to use functional magnetic resonance imaging (fMRI) to identify the brain regions and networks that change with rTMS stimulation at this target area in PTSD patients. It is our hope that our work will lead to a personalized approach to rTMS treatment of PTSD based on brain imaging that can be used in a future clinical trial.
Participants will be asked to complete psychological testing and questionnaires as well as an initial MRI and two separate TMS-fMRI sessions. Total participation time across all visits is estimated to be five to six hours.
Research participation will take place at VA Palo Alto as well as at Stanford University.
| Condition or Disease | Intervention/Treatment | Phase |
|---|---|---|
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N/A |
Detailed Description
Post-traumatic stress disorder (PTSD) is a devastating illness in which traumatic autobiographical memories are intrusive and lead to anxiety symptoms. These symptoms align with functions of the default mode network (DMN) and, in fact, PTSD patients have abnormalities within the DMN and in its interactions with other networks, notably the salience network and the frontoparietal or central executive network.
Focal repetitive pulse transcranial magnetic stimulation (rTMS) enables neuromodulation of selected brain regions and connected networks to treat specific symptoms, but the brain targets to support this therapy in PTSD are under discovery. A recent analysis uncovered a brain circuit associated with improvement in anxiety and somatic symptoms following the rTMS treatment of depression. The left hemisphere region with the strongest fMRI functional connectivity with this circuit lies within anatomical area 8Av and the DMN. This association suggests that modulating the DMN through stimulation at left 8Av could be a novel rTMS approach for the treatment of anxiety and may help ameliorate anxiety symptoms in PTSD. This target would be novel since the vast majority of clinical trials of rTMS in PTSD have targeted the right frontal regions of the salience and frontoparietal networks instead of the DMN. One potential reason is that the most established nodes of the DMN do not lie directly below the scalp/skull and are thus unreachable by rTMS.
In this proposal, we test the overall hypothesis that left area 8Av can serve as a robust, direct brain target for the DMN, thus facilitating therapy for PTSD and the many other disorders involving the DMN. We propose to use TMS-fMRI in 30 participants with PTSD to test the causal connections between left 8Av and other regions that could mediate a response. We will test the connectivity between 8Av and the inferior parietal lobe (IPL), a region in the DMN involved in context processing, and other nodes of the DMN (e.g., posterior cingulate, ventromedial prefrontal cortex). We have pilot data in which we found the functional connection between 8Av and the IPL to be abnormal in people with anxiety relative to controls, and also that delivering rTMS to these regions ameliorates anxiety. We will also explore whether stimulation at 8Av modulates the anterior insula, a node of the salience network whose functional connectivity predicts benefit from prolonged exposure therapy in PTSD. We will measure the TMS-induced BOLD response in these areas to stimulation of 8Av and compare this response to conventional seed-based resting-state fMRI functional connectivity analyses that could serve as an alternative marker for capacity for modulation. In addition, we will deliver theta burst rTMS (cTBS) stimulation and study how connectivity changes with respect to baseline. Our overall goal is to characterize left 8Av functional connectivity in PTSD, and explore the effects of rTMS stimulation parameters. This project will thus provide a mechanistic understanding of rTMS therapy at 8Av, and will reveal the effects of a novel connectivity-based atlas target.
The participants in the study will come for three visits. During the first visit, participants will undergo MRI, psychological, and functional testing that will be used to characterize them as well as confirm their diagnoses and eligibility for the study. Participants will then undergo simultaneous TMS-fMRI and cTBS and fMRI in the second and third visits.
Study Design
Arms and Interventions
| Arm | Intervention/Treatment |
|---|---|
| Experimental: TMS-fMRI Participants will undergo simultaneous TMS-fMRI as part of this study. There will be two locations stimulated: one control region and one target region. Participants will be randomized with respect to the order of receiving stimulation at the locations, but all participants will receive stimulation at both locations as part of the study. All participants will be considered as one group but we will evaluate order effects as an explanatory variable. |
Device: TMS-fMRI
Participants will undergo simultaneous TMS and fMRI
Other Names:
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Outcome Measures
Primary Outcome Measures
- Resting-State fMRI Connectivity [This measure will be collected during the resting state fMRI (rsfMRI)]
We will calculate connectivity between the left 8Av and DMN nodes.
- FMRI BOLD Response [This measure will be collected during the TMS-fMRI session]
We will measure the immediate activation (blood-oxygen-level-dependent change) in brain regions related to PTSD following transcranial magnetic stimulation using interleaved TMS and fMRI.
- Changes in Connectivity after cTBS [This measure will be collected during the TMS-fMRI session]
We will measure connectivity changes between the left 8Av and DMN nodes from the initial resting state fMRI and a resting state fMRI collected immediately following inhibitory TMS (cTBS).
Eligibility Criteria
Criteria
Inclusion Criteria:
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Between 18 and 55 years of age
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Ability to maintain a Motor Threshold (MT) with single pulse TMS
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Ability to safely and comfortably undergo an MRI and TMS
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Able to read, verbalize, understand, and voluntarily sign the Informed Consent Form prior to participating in any study-specific procedures or assessments.
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PTSD diagnosis according to the DSM 5, as determined by the Clinician administered PTSD scale (CAPS-5) criteria.
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Commitment to maintaining a stable medication regimen between the two fMRI sessions
Exclusion Criteria:
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Inability to safely and comfortably undergo an MRI. MRI safety will be determined by the center where MRI's are collected.
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Inability to safely and comfortably undergo TMS. TMS exclusions include any history or condition that puts patients at risk.
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Significant dementia as determined by the Montreal Cognitive Assessments (MoCA)
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Common comorbid disorders of Veterans are allowed, but PTSD must be a primary diagnosis causing significant impairment that could not be accounted for by another diagnosis. Medical or mental health conditions that interact with or confound interpretation of PTSD symptoms and anxiety would be exclusionary.
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Being in urgent need of care that would make participation impossible
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Currently taking medications that increase the risk of seizure or influence hemodynamic response
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Presence of any other condition that has the potential to prevent study completion and/or have a confounding effect on the interpretation of results.
Contacts and Locations
Locations
No locations specified.Sponsors and Collaborators
- Allyson Rosen
- National Institute of Mental Health (NIMH)
Investigators
- Principal Investigator: Allyson C Rosen, Ph.D., PAVIR/Palo Alto VAHCS/Stanford University
Study Documents (Full-Text)
None provided.More Information
Publications
None provided.- ROANEW_0004