Advanced Functional and Structural MRI Techniques for Neuropharmacological Imaging

Conditions

• Drug Abuse
• Nicotine Dependence

Eligibility Criteria

Sex

ALL

Age

18 Years - 80 Years

Healthy Volunteers

Accepted

Interventions

• MagPro X100 Magnetic Stimulator — DEVICE
  Concurrent TMS-MRI acquisition allows us to investigate the acute effects of induced brain activity on BOLD signal and evaluate interference of the TMS pulse with the BOLD signal measurement.
• Transcranial Rotating Magnetic Stimulator — DEVICE
  Participants will undergo transcranial rapid rotating permanent magnetic stimulation (TRPMS), with the aim of evaluating the prolonged effect of TRPMS on motor cortex excitability. In another experiment, participants will undergo TRPMS with the aim of evaluating cortical excitability changes with TRPMS. These experiments will help interpret subsequent experiments investigating the effect of TRPMS on BOLD signal.
• Magnetom Prisma Fit 3T Scanner — DEVICE
  Type: MRI Name: Magnetom Prisma Fit 3T Scanner (Siemens) Description: Functional and structural magnetic resonance imaging techniques are used for noninvasive mapping of brain physiology and pathology and to develop advanced magnetic resonance imaging and spectroscopy (MRI and MRS) techniques for neuroimaging studies related to addiction.

Study Details

Background: \- Functional and structural magnetic resonance imaging (MRI) techniques have allowed researchers to map and study how the brain works when at rest and when engaged in specific tasks. MRI scans have provided more information about how drugs affect the brain, and about how drug addiction changes the brain and influences behavior, mood, and thinking processes. To better understand the underlying mechanism of drug addiction and to develop strategies for more effective treatment, researchers are interested in developing new MRI techniques to study the effects of addiction on the brain. Objectives: \- To develop new functional and structural MRI techniques, and to evaluate their potential use in brain imaging studies related to addiction. Eligibility: * Individuals between 18 and 80 years of age. * Participants may be smokers or nonsmokers, and may use drugs or not use drugs. Design: * During the initial screening, participants will complete questionnaires about family and personal history, drug use, and other information as required by the researchers. Participants who will be asked to complete tasks during the MRI scan will be shown how to perform these tasks before the scanning session. * Before each study session, participants may be asked to complete some or all of the following: questions about their drug use during the last week, a breathalyzer test, a urine drug-use assessment, a urine pregnancy test, or a measure of carbon monoxide. Participants will also provide blood samples before the start of the scan. * For each scanning session, participants will have an MRI scan that will last approximately 2 hours. * MRI scans may include specific tasks to be performed during the scan, or an experiment that studies the brain's response to carbon dioxide....

Key Dates

Start date

Oct 24, 2003

Status verified

May 2026

Primary completion

Dec 31, 2029

Completion

Dec 31, 2029

Study Design

Enrollment

1,000 participants (estimated)

Allocation

NA

Intervention model

SINGLE_GROUP

Primary purpose

BASIC_SCIENCE

Arms

• Experimental: MR Methodology Development and Evaluation
  Methodology development and evaluation consists of pulse sequence development, testing, and parameter optimization. For each method we develop or evaluate, we may recruit up to 40 participants to come in for up to 4 visits each. Each participant will be scanned for up to 2 sessions per visit, not to exceed 4 total scan hours per visit.
• Experimental: TMS-fMRI Experiment 1
  To evaluate the relationship between BOLD activation and MEP and establish a BOLD activation marker of cortical excitability. Participants will start with a set of two short task-based EPI scans and anatomical scan. RMT will then be determined. Participants will undergo a single-pulse TMS-fMRI scan with stimulation intensities relative to the RMT over the motor cortex and/or the DLPFC. In total, six (6) intensities will be tested, 80% 100%, 105%, 110%, 115%, and 120% relative to the RMT. The fMRI design will be event-related. Each intensity (event type) will be presented 50 times. The order of the intensities will be randomized, and the inter-stimulus-interval (ISI) will range from 12s to 20s (centered at 16s plus random jittering in between, about 0.06Hz). The highest intensity of stimulation will be 120% RMT. EMG recordings in the corresponding hand muscle will be simultaneously acquired during the scan. Total approximate time required for this experiment is about 6-8 hours.
• Experimental: TRPMS Experiment 1
  To evaluate the prolonged effect of TPRMS on motor cortex excitability and help interpret and design subsequent experiments investigating the effect of TRPMS on BOLD signal. The experiment design consists of four groups, each group will include 10 participants (8 completers/group). For TRPMS stimulation sessions, our test conditions will be a 10 stimuli-session (approximately 2min), 50 stimuli-session (approximately 7min), 100 stimuli-session (approximately 14min), and 150 stimuli-session (20min) for each of the four groups, respectively. Therefore, the outcome will be measured with the spontaneous motor unit potentials (sMUPs) in the contralateral abductor pollicis brevis muscle (APB). After the stimulation session, we will measure sMUPs continuously for another 20min to observe the prolonged effect of the TRPMS stimulation and to compare these four conditions. The total approximate time required for this experiment is about 2-2.5 hours.
• Experimental: TRPMS Experiment 2
  To evaluate cortical excitability changes caused by TRPMS measured with simultaneous TMS-fMRI. Participants will undergo a baseline TMS/fMRI session to get a measurement of baseline cortical excitability in the form of single-pulse TMS induced BOLD activation and determine motor hot-spot and RMT. We will then conduct an event-related single-pulse TMS/fMRI session with TMS stimulus at 120% RMT, 50 events with jittered inter-stimulus-interval (ISI) averaging 16s. Simultaneous EMG recording will be gathered from the corresponding hand muscle. Next we will use TRPMS to stimulate the left motor cortex over the hot-spot : 20-min application of TRPMS, 100ms duration, 0.2Hz (one stimulus every 5s), total 240 stimuli. Then we will evaluate the modulatory effect of the TRPMS stimulation via a second TMS/fMRI session with a similar procedure as the baseline session using the RMT determined at baseline. Total time for this experiment is about 5-6 hours.

Primary Outcome Measure

To develop a simultaneous perfusion and BOLD imaging technique with improved functional contrasts and reduced susceptibility artifacts for determination of CMRO2 during brain activation [ Time Frame: at each visit ]

Central Contacts

• NIDA IRP Screening Team
  (800) 535-8254
  [email protected]
• Yihong Yang, Ph.D.
  (667) 312-5364
  [email protected]

Locations (1)

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