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| ID | Type | Description | Link |
|---|---|---|---|
| 19-M-0107 |
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Background:
Most drugs that treat mood disorders take a long time to work. Ketamine works within hours. A dose can last for a week or more. Certain receptors in the brain might help ketamine work. A drug that blocks these receptors might affect how it works.
Objective:
To see if the antidepressant response of ketamine is linked to AMPA receptors.
Eligibility:
Adults ages 18-70 with major depression disorder without psychotic features
Design:
Participants will be screened under protocol 01-M-0254. They will have blood tests and a physical exam.
Participants will stay at the NIH Clinical Center for 5 weeks.
Phase 1 lasts 4 weeks. For 2 weeks, participants will taper off their psychiatric medicine. Then they will have the following tests:
For phase 2, on day 0 participants will take the study drug or a placebo orally. While having a MEG, they will get ketamine infused into a vein in one arm while blood is drawn from a vein in the other arm. On day 1, participants will again take the study drug or a placebo orally. On days 3-7, they will repeat many of the phase 1 tests. Days 8 and 9 are optional and include an open label ketamine treatment and many of the phase 1 tests.
Objective
Work by our group and others has demonstrated that a single intravenous dose of the glutamatergic modulator ketamine consistently produces rapid (within two hours), robust, and relatively sustained (approximately one to two weeks) antidepressant effects in patients with treatment-resistant major depressive disorder (MDD) and bipolar depression. Although ketamine is an N-methyl-D-aspartate (NMDA) receptor (NMDAR) antagonist, convergent evidence from behavioral, cellular, and molecular ketamine studies supports the theory that enhanced -amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptor activity-with a concomitant increase in synaptic plasticity-is critical to its mechanism of antidepressant action and may be the key to developing analogous rapidacting antidepressants. Notably, both animal and human studies indicate that acute, sub-anesthetic ketamine infusion is associated with robust increases in gamma power. Multiple synaptic mechanisms play a role in regulating gamma oscillations, including AMPA receptor (AMPAR)-mediated depolarization and gamma aminobutyric acid (GABA) receptor-mediated inhibition. Ketamine may influence both of these systems, both by silencing GABAergic inhibitory synapses and by increasing glutamate release, thereby activating AMPARs.
This clinical translational mechanistic protocol, in parallel with a preclinical study (Bench-to-Bedside Award, NIH), is designed to begin to disentangle the neurobiological underpinnings of ketamine s mechanism of antidepressant action and to develop a cross-species biomarker of target engagement (i.e., gamma power). The study will test the importance of AMPAR throughput by attempting to block the behavioral (i.e., antidepressant), electrophysiological, and biochemical effects of ketamine with an AMPAR antagonist. We first demonstrated in animal models that administering an AMPAR antagonist (NBQX) could block ketamine s antidepressant-like properties, suggesting that AMPAR neurotransmission was involved in these effects. This finding has now been replicated by multiple labs. In the present study, we propose to evaluate whether pre-treatment with perampanel, an AMPAR antagonist, blocks or reduces the acute antidepressant effects of ketamine in patients with treatment resistant depression (TRD). Further, we will examine whether AMPAR activity is important to the continued antidepressant effects of ketamine by examining whether treatment with perampanel blocks or reduces ketamine s continued antidepressant effects.
Study Population
70 patients ages 18 to 70 years, with a diagnosis of MDD (without psychotic features) will be recruited for this study.
Study Design
This is a two-phase pathophysiological study that attempts to understand the mechanism of action of ketamine s antidepressant effects. Phase I includes a medication taper, drug-free period, and baseline testing (e.g. clinical rating scales, sEEG, TMS, MEG). In Phase II, participants will receive an open-label ketamine infusion with a randomized, double-blind, add-on intervention (perampanel vs. placebo). Two to three hours prior to receiving ketamine (0.5 mg/kg), subjects will be randomized into one of three arms. Subjects in Arm 1 will receive perampanel (8 mg p.o.), while those randomized to Arm 2 or Arm 3 will receive matching placebo. On Day 1, the second blinded oral medication will be administered after clinical rating scales are obtained. Subjects randomized to Arm 1 and 3 will receive matching placebo, while subjects randomized to Arm 2 will receive perampanel. sEEG, TMS, and MEG will be obtained again on two more occasions during Phase II. Participants who completed Phase II will also be offered one open-label ketamine treatment, during which they will be assessed for mood symptoms and possible side effects.
Outcome Measures
The primary outcome measure is the Montgomery-Asberg Depression Rating Scale (MADRS). Hypothesis 1: By Day 1, patients treated with ketamine who are randomized to pre-treatment with a single oral dose of the AMPAR antagonist perampanel will have significantly more depressive symptoms than those who are randomized to pretreatment with placebo, as measured by the MADRS. Hypothesis 2: By Day 2, patients treated with ketamine who were randomized to perampanel on Day 1 will have significantly more depressive symptoms than those who were randomized to placebo, as measured by the MADRS. To acquire data corroborating that ketamine s antidepressant effects are mediated through AMPARs, surrogate plasticity measures will be obtained using sEEG, TMS, and MEG. In addition, blood samples for biomarkers will also be obtained.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| 1 | Experimental | Individuals in Arm 1 will receive double-blinded perampanel and open-label ketamine on the first day, then double-blinded perampanel on the second day. |
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| 2 | Experimental | Individuals in Arm 2 will receive double-blinded placebo and open-label ketamine on the first day, then double-blinded perampanel on the second day. |
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| 3 | Experimental | Individuals in Arm 3 will receive double-blinded placebo and open-label ketamine on the first day, then double-blinded placebo on the second day. |
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Arm 1, 2, 3 device interventions | Device | MagPro 100 TMS Therapy System |
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| Measure | Description | Time Frame |
|---|---|---|
| Acute Antidepressant Efficacy: Change from baseline Montgomery Asberg Depression Rating Scale (MADRS) score post ketamine infusion | Clinical rating scale of depression | Baseline, Day 1 |
| Continued Antidepressant Efficacy: Change from baseline MADRS score post treatment with ketamine with perampanel versus placebo. | Clinical rating scale of depression | Baseline, Day 1, Day 2 Day 7 |
| Measure | Description | Time Frame |
|---|---|---|
| Acute Antidepressant Efficacy: Change in slow wave activity/slope post ketamine infusion | Polysomnography (PSG)/Electroencephalography (EEG) data | Baseline (night), Day 1 (night) |
| Acute Antidepressant Efficacy: Change in synaptic plasticity post ketamine infusion |
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Phases I-II
Open-Label Ketamine Treatment
EXCLUSION CRITERIA:
Phases I-II
Open-Label Ketamine Treatment
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| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| Yamila I Carmona | Contact | (301) 256-8971 | yamila.carmona@nih.gov |
| Name | Affiliation | Role |
|---|---|---|
| Carlos A Zarate, M.D. | National Institute of Mental Health (NIMH) | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| National Institutes of Health Clinical Center | Recruiting | Bethesda | Maryland | 20892 | United States |
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| Label | URL |
|---|---|
| NIH Clinical Center Detailed Web Page | View source |
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Clinical and demographic and biomarker participant data collected during the trial, after deidentification.
Starting within 1 year of completion of the study.
The Branch Chief will review requests and access will need to be approved by the NIMH/DIRP SD and OCD NIMH and the NIH IIRB.
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| Arm 2 Interventions | Other | Placebo |
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| Arm 1, 2, 3 drug Interventions | Drug | Ketamine |
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| Arm 1 and 2 Interventions | Drug | Perampanel |
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Transcranial Magnetic Stimulation (TMS) data |
| Baseline, Day 1 |
| Continued Antidepressant Efficacy: Gamma power change from baseline post treatment with ketamine with perampanel versus placebo | Magnetoencephalography (MEG) data | Baseline, Day 1 |
| Continued Antidepressant Efficacy: Change in slow wave activity/slope from baseline post treatment with ketamine with perampanel versus placebo | PSG/EEG data | Baseline (night), Day 1 (night) |
| Continued Antidepressant Efficacy: Change in synaptic plasticity from baseline post treatment with ketamine with perampanel versus placebo | TMS data | Baseline, Day 1 |
| Acute Antidepressant Efficacy: Gamma power change from baseline post ketamine infusion | Magnetoencephalography (MEG) data | Baseline, Day 1 |
| Acute Antidepressant Efficacy: Change in peripheral measures associated with the administration of ketamine | Plasma/serum biomarkers | Baseline, Day 1, Day 2, Day 7 |
| ID | Term |
|---|---|
| D003863 | Depression |
| D003865 | Depressive Disorder, Major |
| ID | Term |
|---|---|
| D001526 | Behavioral Symptoms |
| D001519 | Behavior |
| D003866 | Depressive Disorder |
| D019964 | Mood Disorders |
| D001523 | Mental Disorders |
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