Open Study of the Neurobiological Effects of Intranasal Ketamine in Children and Adults With Bipolar Disorder
NCT ID: NCT05209217
Last Updated: 2022-01-27
Study Results
Results pending
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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Recruitment Status
UNKNOWN
Total Enrollment
20 participants
Study Classification
OBSERVATIONAL
Study Start Date
2019-06-04
Study Completion Date
2023-01-15
Brief Summary
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Aim 1: Test the hypothesis that participants with Bipolar Disorder - Fear of Harm Phenotype have an enhanced amygdala fMRI response to fearful threatening stimuli, increased resting beta and gamma EEG spectral activity in temporal leads and blunted posterior insula response to cold when partially withdrawn from ketamine with normalization of these responses following intranasal administration of ketamine.
Aim 2. Test the hypothesis that ketamine alters response to fearful-threatening visual stimuli and cold sensation by altering functional connectivity of the amygdala and insula with the hypothalamus, thalamus, hippocampus and ventromedial prefrontal cortex, and identify specific alterations that correlate with degree of pre-post ketamine change.
Aim 3. Test the hypothesis that low-dose medicinal ketamine, unlike high-dose recreation ketamine, is not associated with an increase in number of focal areas of abnormality on morphometric scans based on duration of use.
Aim 2. Test the hypothesis that ketamine alters response to fearful-threatening visual stimuli and cold sensation by altering functional connectivity of the amygdala and insula with the hypothalamus, thalamus, hippocampus and ventromedial prefrontal cortex, and identify specific alterations that correlate with degree of pre-post ketamine change.
Aim 3. Test the hypothesis that low-dose medicinal ketamine, unlike high-dose recreation ketamine, is not associated with an increase in number of focal areas of abnormality on morphometric scans based on duration of use.
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Detailed Description
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Clinically, the Fear of Harm phenotype is characterized by early age of onset, severe mood swings, treatment resistance, separation anxiety, fearful-aggressive obsessions, parasomnias (e.g. night-terrors) and thermal dysregulation (Papolos et al. 2009). These youth typically received little benefit from standard treatments (i.e., antipsychotic medication and mood stabilizers) often wind up home-schooled due to excessive fears of the school environment and frequently require multiple periods of inpatient care (Papolos et al. 2009; Papolos et al. 2013). Key features seen in FOH that distinguish these youths from other youths with BD include fear sensitization and thermal dysregulation. Children with FOH often experience thermal discomfort (e.g., feeling hot, excessive sweating) in neutral ambient temperature conditions, as well as no discomfort during exposure to the cold, and alternate noticeably between being excessively hot in the evening and cold in the morning (Murphy, Frei, and Papolos 2014). Ketamine, an NMDA receptor antagonist was selected as a potential treatment for FOH because of its effectiveness in the reduction of fear sensitization and capacity to dose-dependently lower body temperature in animal studies, and has been found to be clinically efficacious in the treatment of FOH (Papolos et al. 2018; Papolos et al. 2013). There are two main reasons for proposing to conduct a neuroimaging study. First, intranasal ketamine can produce an almost immediate improvement in clinical state. This makes it possible to scan a subject whose dose of ketamine has largely worn off in order to assess blood flow and functional connectivity and then to rescan the individual within hours of receiving intranasal ketamine in order to correlate degree of clinical improvement with alterations in blood flow and connectivity. This will provide information on both the neurobiological basis of ketamine response and information on the possible biological underpinnings of FOH. Second, there is some concern, based on a report of examining brain scans in chronic ketamine abusers, that ketamine in daily doses 10X higher than clinically prescribed every 3-4 days can produce some evidence for structural brain damage4. Hence, it would be valuable to scan individuals undergoing long term treatment with intranasal ketamine to rule out or monitor for pathological changes in brain structure.
Conditions
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Bipolar Disorder
Study Design
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Observational Model Type
COHORT
Study Time Perspective
PROSPECTIVE
Study Groups
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Participant Group
Participants will all have history of good to excellent clinical response to intranasal ketamine for at least two months and on a treatment schedule varying from use every other day to every fifth day. Participants will be tested one or two days beyond their customary administration date and again 2-3 hours after their administration of ketamine.
Ketamine
Intervention Type
DRUG
Intranasal administration of their customary prescribed dose
Interventions
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Ketamine
Intranasal administration of their customary prescribed dose
Intervention Type
DRUG
Eligibility Criteria
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Inclusion Criteria
* Males and Females
* Age 14 - 40 years
* Clinical diagnosis of Bipolar Disorder -Fear of Harm Phenotype
* Meets Papolos criteria for FOH based on independent interviews.
* Taking intranasal ketamine for at least 2 months.
* Must be on an every three or every four-day dosing regimen
* Dosage will not exceed 300 mg per dosing interval.
* Willing to delay ketamine dose by 2 days past their prescribed dosing interval
* Prior experience having tolerated this degree of delay.
* Willing to participate in daily assessments during period of ketamine withdrawal prior to traveling to Belmont ,MA.
* Willing to provide urine sample to screen for drugs of abuse (all participants and pregnancy in females.)
* Age 14 - 40 years
* Clinical diagnosis of Bipolar Disorder -Fear of Harm Phenotype
* Meets Papolos criteria for FOH based on independent interviews.
* Taking intranasal ketamine for at least 2 months.
* Must be on an every three or every four-day dosing regimen
* Dosage will not exceed 300 mg per dosing interval.
* Willing to delay ketamine dose by 2 days past their prescribed dosing interval
* Prior experience having tolerated this degree of delay.
* Willing to participate in daily assessments during period of ketamine withdrawal prior to traveling to Belmont ,MA.
* Willing to provide urine sample to screen for drugs of abuse (all participants and pregnancy in females.)
Exclusion Criteria
* Any psychiatric hospitalization within the past 6 months
* Lifetime history of suicide attempts
* Co-occurring substance use disorders
* Any change in concomitant medications within the last 2 months
* Lifetime history of suicide attempts
* Co-occurring substance use disorders
* Any change in concomitant medications within the last 2 months
Minimum Eligible Age
14 Years
Maximum Eligible Age
40 Years
Eligible Sex
ALL
Accepts Healthy Volunteers
No
Sponsors
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Juvenile Bipolar Research Foundation
OTHER
Sponsor Role
collaborator
Mclean Hospital
OTHER
Sponsor Role
lead
Responsible Party
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Martin H Teicher
Director of the Developmental Biopsychiatry Research Program
Responsibility Role
PRINCIPAL_INVESTIGATOR
Principal Investigators
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Martin H Teicher, MD, PhD
Role: PRINCIPAL_INVESTIGATOR
Mclean Hospital
Locations
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McLean Hospital
Belmont, Massachusetts, United States
Site Status
RECRUITING
Countries
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United States
Central Contacts
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Facility Contacts
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References
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Other Identifiers
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2017P001822
Identifier Type: -
Identifier Source: org_study_id
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