Processes and Circuitry Underlying Threat Sensitivity as a Treatment Target for Co-morbid Anxiety and Depression

Last updated: October 30, 2024
Sponsor: Laureate Institute for Brain Research, Inc.
Overall Status: Active - Recruiting

Phase

4

Condition

Allergy (Pediatric)

Panic Disorders

Depression

Treatment

Lorazepam

Placebo

Clinical Study ID

NCT06004115
2022-009
R01MH132565
  • Ages 18-65
  • All Genders

Study Summary

This mechanistic study uses an anti anxiety drug and brain imaging to study the threat processing system and associated brain circuits in people with depression, anxiety disorders and comorbid depression and anxiety disorders. In a double blind, placebo controlled crossover design, up to 65 individuals will be recruited who will have a diagnosis of major depressive disorder (MDD) and at least one anxiety disorder (AD) (AD-MDD group), up to 65 participants will have a diagnosis of MDD and no diagnosis of an AD and up to 65 participants will have no diagnosis of MDD and a diagnosis of at least one AD will be enrolled to participate in an two session study to obtain 150 completers (50 per group). All participants will receive a single dose of Lorazepam and placebo (order randomized) taken orally. After the ~2.5 hr screening session, participants will complete two identical ~5 hr experimental sessions, each of which include a 30 min eyeblink startle session and a 1.5 hr functional magnetic resonance imaging (MRI) brain scan session. The total time involved in the study is approximately 10.5 hours.

The main questions the study seeks to answer are:

  • are people with comorbid depression and anxiety different than those with depression alone in terms of their eyeblink startle response to threat?

  • are people with comorbid depression and anxiety different than those with depression alone in terms of their brain activation in response to threat?

  • are people with comorbid depression and anxiety different than those with depression alone in terms of their responses to anxiety drugs?

Eligibility Criteria

Inclusion

An individual must meet the following criteria to be considered eligible to participate in the study:

Inclusion Criteria:

All subjects:

  • Female or male sex assigned at birth;

  • Age 18-65;

  • Normal or corrected to normal vision/hearing, as protocol elements may not be validotherwise;

  • Fluent English speaker, capable of providing written informed consent

MDD and AD-MDD subjects:

  • Current major depressive episode assessed by clinician with guidance from the MINI;

  • Minimum score of 55 on PROMIS Depression scale

AD and AD-MDD subjects:

  • Current anxiety disorder (generalized anxiety disorder, panic disorder, agoraphobiaand social phobia) assessed by clinician with guidance from the MINI;

  • Minimum score of 55 on PROMIS Anxiety Scale

Exclusion

Exclusion Criteria:

All subjects:

  • Has uncontrolled, clinically significant neurologic (including seizure disorders):cardiovascular, pulmonary, hepatic, renal, metabolic, gastrointestinal, urologic,immunologic, endocrine disease, or psychiatric disorder, or other abnormality, whichmay impact the ability of the subject to participate or potentially confound thestudy results;

  • Reported body mass index (BMI) > 40;

  • History of moderate or severe traumatic brain injury, as assessed by a TBIquestionnaire;

  • History of eating disorder or obsessive-compulsive disorder, schizophrenia,schizo-affective disorder, bipolar disorder or any sign of psychosis;

  • Current post-traumatic stress disorder (PTSD) diagnosis (although history of traumais allowed);

  • Current use of medications with major effects on brain function or the fMRIhemodynamic response (e.g., methylphenidate, acetazolamide, excessive caffeineintake > 1000 mg/day) following an initial list compiled by LIBR but also assessedon a case-by-case basis. Individuals who are currently on medication (antidepressants such as SSRIs, TCAs, SNRIs, and Bupropion) and who have notundergone dose or medication changes over the past 6 weeks will be allowed toparticipate;

  • Current benzodiazepine or opiate use;

  • Moderate to severe current substance use disorder, defined as 5 or more symptoms ofthe criteria for Substance Use Disorder according to DSM 5;

  • Drug or alcohol intoxication (based on positive UTOX or breathalyzer test atscreening or study session) or reported alcohol/drug withdrawal, last cannabis usemust be >48 hours prior to study session;

  • Has a risk of suicide according to the Investigator's clinical judgement or perColumbia-Suicide Severity Rating Scale (C-SSRS) or equivalent PhenX instrument, thesubject scores "yes" on items 4 or 5 in the Suicidal Ideation section with referentto a 30-day period prior to Screening/Baseline or the subject has had one or moresuicidal attempts with reference to a 2-year period prior to Screening;

  • MRI contraindications;

  • Is pregnant or lactating or intending to become pregnant before, during, or within 12 weeks after participating in this study; or intending to donate ova during thistime-period;

  • Any subject judged by the Investigator to be inappropriate for the study.

MDD subjects:

  • Current (assessed by clinician with guidance from the MINI) anxiety disorder;

  • Score of > 60 on PROMIS Anxiety Scale

AD subjects:

  • Current or past recurrent major depressive episodes assessed by clinician withguidance from the MINI;

  • Score of > 60 on PROMIS Depression scale

Study Design

Total Participants: 165
Treatment Group(s): 2
Primary Treatment: Lorazepam
Phase: 4
Study Start date:
November 08, 2023
Estimated Completion Date:
November 30, 2027

Study Description

This mechanistic study of major depressive disorder (MDD), anxiety disorders (AD) and comorbid anxiety and depression (AD-MDD) aims to break down threat sensitivity into acute threat (AT) and potential threat (PT). A well validated startle task (Neutral, Predictable, Unpredictable or NPU-threat task) and a cutting-edge computational functional magnetic resonance imaging (fMRI) probe of predator escape decisions (Flight Initiation Distance or FID task) will be used to determine whether AD-MDD show increased PT or AT and how the behavioral dynamics of escape decisions are most impaired in AD-MDD. Based on prior studies, we hypothesize that AD is associated with exaggerated PT, whereas MDD is associated with blunted reward/salience responding. Thus, AD-MDD may differ from AD through blunted AT/salience (periaqueductal grey/insula circuitry and Fear-Potentiated Startle [FPS]) and may differ from MDD through increased PT (hippocampal - ventromedial prefrontal cortex (vmPFC) - amygdala dependent circuitry and Anxiety-Potentiated Startle [APS]). To causally probe this circuitry, we will manipulate gamma-aminobutyric acid (GABA) to demonstrate different responses in PT between these three groups, providing further evidence for PT as a targetable process. This mechanistic R01 uses a benzodiazepine within an experimental medicine approach to causally modulate the threat processing system and associated circuits in AD-MDD (N=50), MDD (N=50), and AD (N=50). After the ~2.5 hr screening session, participants will complete two identical ~5 hr experimental sessions, each of which include a 30 min electromyography (EMG) session and a 1.5 hr functional magnetic resonance imaging (fMRI) session. The total time involved in the study is approximately 10.5 hours. In a double-blind placebo crossover design, participants will receive a single 1mg dose of Lorazepam/Placebo and complete threat tasks that delineate PT/AT during startle EMG (NPU task; unpredictable vs predictable shock) and fMRI (FID task; slow vs fast threat).

Specific aims of this project are:

Aim 1: Determine EMG signatures of dysregulated threat processing in AD-MDD.

Hypothesis 1 A (H1A): AD-MDD/AD will exhibit higher PT sensitivity (greater APS) than MDD (NPU APS: AD-MDD > MDD; AD > MDD).

Hypothesis 1 B (H1B): AD-MDD/MDD will exhibit lower AT sensitivity (smaller FPS) than AD (NPU FPS: AD-MDD < AD; MDD < AD).

Aim 2: Determine neural computational signatures of dysregulated threat processing in AD-MDD.

Hypothesis 2 A (H2A): AD-MDD and AD will show higher hippocampal-vmPFC-amygdala responses to FID slow threat (PT) than MDD (FID slow: AD-MDD > MDD; AD > MDD).

Hypothesis 2 B (H2B): AD-MDD and MDD will show lower periaqueductal grey/insula responses to FID fast threat (AT) than AD. (FID fast: AD-MDD < AD; MDD < AD).

Hypothesis 2 C (H2C): Utility functions for the FID task will show both blunted reward and exaggerated threat valuation in AD-MDD, leading to less optimal choices than both MDD and AD.

Aim 3: Determine the relevance of comorbidity to GABAergic manipulation of threat circuitry.

Hypothesis 3 A (H3A): In the NPU task Lorazepam will decrease APS (PT) but not FPS (AT) in AD and AD-MDD but not MDD.

Hypothesis 3 B (H3B): In the FID task Lorazepam will decrease neural response to slow (PT) but not fast (AT) threat and decrease the computational threat valuation parameter in AD and AD-MDD but not MDD.

Significance: These aims seek to mechanistically define and pharmacologically probe process dysfunction and associated targetable circuitry unique to AD-MDD and provide evidence that AD-MDD and MDD should be separated in future clinical trials. This will also inform intervention strategies with circuit-based targets (e.g. for neuromodulation treatments) for AD-MDD, which is a large but under-served treatment resistant group.

Connect with a study center

  • Laureate Institute for Brain Research

    Tulsa, Oklahoma 74136
    United States

    Active - Recruiting

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