Development of Magnetic Resonance Imaging Techniques for Studying Mood and Anxiety Disorders

Purpose

This study is intended to help develop new MRI imaging techniques for studying mood and anxiety disorders. Researchers believe that depression and anxiety disorders may cause structural and functional changes in the brain. This study will optimize the way MRI scans are collected to look at brain structure and examine how the brain behaves while subjects perform particular tasks. Healthy volunteers and individuals with major depressive disorder may be eligible for this study. Participants undergo magnetic resonance imaging (MRI) and neuropsychological testing. : Individuals will be asked to participate in an MRI study on one of several scanners. The scanner used will measure blood flow in the brain, concentrations of certain chemicals in the brain, or magnetic properties of the brain. The scan may involve They watching a screen presenting images or doing a task in which they respond to pictures or sounds. Participants may be asked to return for additional scans. The study also involves neuropsychological tests, which assess cognitive performance. Often, people with mood disorders have subtle changes in performance on these tests that allow researchers to pinpoint where brain abnormalities occur. Before the tests can be used in patients, they must be validated by using healthy subjects. These tests are presented either orally, in written form, or on a computer.

Conditions

  • Mood Disorders
  • Anxiety Disorders

Eligibility

Eligible Ages
Between 18 Years and 65 Years
Eligible Genders
All
Accepts Healthy Volunteers
Yes

Inclusion Criteria

Healthy Controls: - Male and female subjects between 18 and 65 years of age - Subjects must be able to give written informed consent prior to participation in this study. - Subjects who do not currently meet and have never met criteria for any major psychiatric disorder, and who have no known first degree relatives with mood disorders. - For cognitive experiments utilizing language stimuli only native English speakers will be enrolled. Major Depressive Disorder: - Male and female subjects between 18 and 65 years of age. - Subjects have been found eligible for other ETPB research protocols according to 01-M-0254. - Subjects must fulfill DSM-IV or V criteria for Major Depression based on clinical assessment and confirmed by a structured diagnostic interview (SCID-P). - Subjects must be able to give written informed consent prior to participation in this study. - For cognitive experiments utilizing language stimuli, only native English speakers will be enrolled.

Exclusion Criteria

Healthy Control: - Subjects with major medical or neurological disorders expected to influence cerebral blood flow or morphology, or taking any medication that is likely to influence the imaging parameters-of-interest within 3 weeks of scanning. - Women who are pregnant or breastfeeding. Subjects will undergo pregnancy testing no more than 24 hours prior to scanning. - Subjects with contraindication to MRI scanning such as aneurysm clips, implanted neural stimulator, implanted cardiac pacemaker or auto-defibrillator, cochlear implant, or ocular foreign body. - A history of drug or alcohol abuse within 1 year or a lifetime history of drug or alcohol dependence (DSM-IV) or alcohol use disorder (DSM-V equivalent). - A current NIMH employee/staff or their immediate family member. Major Depressive Disorder: - Presence of Axis 1 psychiatric diagnosis other than Major Depression or an Axis 2 disorder - Subjects with major medical or neurological disorders expected to influence cognitive function or are taking any drugs likely to affect mood or cognitive function within 1 week of study participation. Depressed subjects will not be tapered/withdrawn from medications under this study. - A history of drug or alcohol abuse within 1 year or a lifetime history of drug or alcohol dependence (DSM-IV) or alcohol use disorder (DSM-V equivalent). - A current NIMH employee/staff or their immediate family member - Subjects with major medical or neurological disorders expected to influence cerebral blood flow or morphology. - Women who are pregnant or breastfeeding. Subjects will undergo pregnancy testing no more than 24 hours prior to scanning. - Subjects with contraindication to MRI scanning such as aneurysm clips, implanted neural stimulator, implanted cardiac pacemaker or auto-defibrillator, cochlear implant, or ocular foreign body.

Study Design

Phase
Study Type
Observational
Observational Model
Cohort
Time Perspective
Other

Arm Groups

ArmDescriptionAssigned Intervention
Healthy Volunteer Healthy Volunteer/control group
  • Device: 7T Magnetic Resonance Imaging scanner
    Non-significant risk device used for brain imaging
Major Depressive Disorder Individuals with Major Depressive Disorder
  • Device: 7T Magnetic Resonance Imaging scanner
    Non-significant risk device used for brain imaging

Recruiting Locations

More Details

Status
Recruiting
Sponsor
National Institute of Mental Health (NIMH)

Study Contact

Allison Nugent, Ph.D.
(301) 451-8863
moodresearch@mail.nih.gov

Detailed Description

Objective A major component of understanding the pathogenesis of mood and anxiety disorders is expected to involve elucidation of abnormalities in brain structure and function associated with these conditions. Historically post-mortem histopathological and neurochemical assessments constituted the primary methods for investigating abnormalities of brain structure and function in psychiatric disorders. However, the significance of the results from such studies has been limited by the relatively poor availability of specimens from subjects with mood and anxiety disorders who had been unmedicated and clinically well-characterized antemortem. By allowing for in vivo human studies, medical imaging technologies provide efficient, accurate, and non-invasive alternatives for characterizing brain structure and function. The recent rapid development of magnetic resonance imaging (MRI) technology, in particular, has provided powerful tools for assessing a wide range of cerebral physiological and morphological characteristics. To optimally exploit the potential of these rapidly evolving MRI scanning and hardware capabilities in investigations of mood and anxiety disorders, new techniques and applications must be developed and tested. The technical development protocol proposed herein will assess new imaging techniques and hardware, and will develop novel cognitive tasks for application in the study of mood and anxiety disorders. The primary objective of this protocol is the development of MRI experiments for characterizing the physiological correlates of mood and anxiety disorders. In addition, the pilot projects encompassed within this protocol involve the optimization of existing MRI pulse sequences, the application of new pulse sequences for structural and functional MR imaging, and the development of new functional MRI (fMRI) tasks that can elucidate neural function within the cognitive-behavioral domains affected in mood and anxiety disorders. This protocol will also allow testing of existing imaging hardware that can increase the spatial resolution, contrast, and sensitivity of MR images. Such hardware includes the use of multi-channel radio frequency (RF) coils and patient monitoring equipment. Development of these techniques and applications will directly enhance the sensitivity and specificity of MRI studies of mood and anxiety disorders. Study Population This study will involve 250 healthy volunteers and 90 patients with major depressive disorder. Design This technical development protocol will assess new imaging techniques and hardware, and will develop novel cognitive tasks for application in the study of mood and anxiety disorders. Subjects will have the option to participate in one or several procedures conducted under this protocol, including fMRI, Magnetic Resonance Spectroscopy (MRS), Magnetoencephalography (MEG), behavioral tasks, and rating scales. Outcome Measures Primary outcome measures on neuropsychological tests will include parameters such as accuracy and reaction time. Secondary outcome measures will include differences in reaction time or accuracy between different testing conditions. Outcome measures from MRI scanning sessions will include signal-to-noise ratio, contrast-to-noise ratio, structural volumes, metabolite concentrations (in the case of MRS), relaxation times (in the case of relaxometry), and BOLD time series (in the case of fMRI).