Advanced Functional and Structural MRI Techniques for Neuropharmacological Imaging

Sponsor

National Institute on Drug Abuse (NIDA) (NIH)

Overall Status

Recruiting

CT.gov ID

NCT01036581

Collaborator

(none)

750

Enrollment

Locations

Arms

314.3

Anticipated Duration (Months)

375

Patients Per Site

1.2

Patients Per Site Per Month

Study Details

Study Description

Brief Summary

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 55 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 injections with a contrast agent to study brain function, specific tasks to be performed during the scan, or an experiment that studies the brain's response to carbon dioxide.

Condition or Disease	Intervention/Treatment	Phase
Drug Abuse Nicotine Dependence	Device: MagPro X100 Magnetic Stimulator Device: Transcranial Rotating Magnetic Stimulator Device: Magnetom Prisma Fit 3T Scanner (Siemens)	N/A

Detailed Description

Objective:

Functional and structural magnetic resonance imaging techniques have proven essential for noninvasive mapping of brain physiology and pathology. The primary objective of this protocol is to develop advanced magnetic resonance imaging and spectroscopy (MRI and MRS) techniques for neuroimaging studies related to addiction. These neuroimaging techniques will be used in other studies to better understand the underlying mechanism of drug addiction and to potentially develop strategies for more effective treatment.

Study population:

Healthy controls and drug users will participate in the study. Technical developments of MRI/MRS will be performed on healthy controls, while the evaluation of the applicability of these techniques to addiction related neuroimaging studies will be performed using drug users and healthy controls.

Design:

Based on the fundamental principle of the biophysical transduction of physiological signals to magnetic resonance (MR) imaging and spectroscopic signals, advanced techniques will be developed to measure the activity, metabolism, structure, and biochemistry of the brain. The development of these techniques typically includes the following steps: 1) proof-of-concept computer simulations, 2) implementation of the imaging concept with an MRI scanner and phantoms, 3) feasibility testing on control subjects, and 4) evaluation of the sensitivity and specificity of these techniques in detecting functional changes modulated by task performance, contrast agent injection, CO2 administration, CO2 administration, or transcranial magnetic stimulation evaluation of these techniques in detecting functional and/or structural alterations of the brain related to a specific disease.

Outcome measures:

Advanced neuroimaging techniques developed from this protocol will demonstrate the ability to distinguish between drug using and control populations. Successful techniques will then be incorporated into hypothesis driven studies in the Neuroimaging Research Branch at NIDA-IRP. These techniques will also be useful, through publications and technology transfer, to the entire neuroimaging society.

Study Design

Study Type:

Interventional

Anticipated Enrollment :

750 participants

Allocation:

N/A

Intervention Model:

Single Group Assignment

Masking:

None (Open Label)

Primary Purpose:

Basic Science

Official Title:

Advanced Functional and Structural MRI Techniques for Neuropharmacological Imaging

Actual Study Start Date :

Oct 24, 2003

Anticipated Primary Completion Date :

Dec 31, 2029

Anticipated Study Completion Date :

Dec 31, 2029

Arms and Interventions

Arm	Intervention/Treatment
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.	Device: Magnetom Prisma Fit 3T Scanner (Siemens) 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.
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.	Device: MagPro X100 Magnetic Stimulator 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. Device: Transcranial Rotating Magnetic Stimulator 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.
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.	Device: Transcranial Rotating Magnetic Stimulator 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.
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.	Device: MagPro X100 Magnetic Stimulator 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. Device: Transcranial Rotating Magnetic Stimulator 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.

Outcome Measures

Primary Outcome Measures

To develop a simultaneous perfusion and BOLD imaging technique with improved functional contrasts and reduced susceptibility artifacts for determination of CMRO2 during brain activation [at each visit]
perfusion/BOLD imaging data
To develop efficient methods to reduce image artifacts caused by susceptibility-induced field inhomogeneity and head motion, and therefore to improve reliability and sensitivity of functional imaging [at each visit]
MRI scan data
To develop an imaging technique to identify fiber crossing in the brain based on high-angular resolution measurements of apparent diffusion coefficient (ADC), and subsequently to develop improved fiber tracking techniques to delineate neuronal p... [at each visit]
MRI scan data
To develop MRS techniques that are able to reliably measure metabolite and neurotransmitter concentrations in the brain at 3 Tesla, and to evaluate their feasibility and efficacy in drug addiction studies [at each visit]
MRS data from MRI scans
To integrate genetic analysis with morphological and functional measurement of the amygdala, hippocampus, and other regions, which may help to account for some of the noise in these measurements [at each visit]
MRI scan data and blood samples collected in 380 or 457 (NRB genetics protocol).
To assess effects of neuromodulation techniques, such as TMS and TRPMS, on brain activity and relevant MRI signals [at each visit]
MRI scan data; spontaneous motor unit potentials (sMUPs) in the contralateral abductor pollicis brevis muscle (APB)

Eligibility Criteria

Criteria

Ages Eligible for Study:

18 Years to 55 Years

Sexes Eligible for Study:

All

Accepts Healthy Volunteers:

Yes

Subjects must be between the ages of 18-55, be generally healthy and male or non-pregnant female. Smokers, non-smokers, drug using and non-drug using populations will participate in this study.

INCLUSION CRITERIA:

General:

Male and non-pregnant female adults between the ages of 18-55.
All subjects must be able to provide informed consent.

EXCLUSION CRITERIA:

Subjects will be excluded if they:

Are pregnant. Urine pregnancy tests will be performed on all female volunteers of child-bearing potential before each experimental session.
Are unable to undergo MRI scanning due to implanted metallic devices (cardiac pacemaker or neurostimulator, some artificial joints, metal pins, surgical clips or other implanted metal parts including Copper 7 IUD) or claustrophobia.
Are unable to safely undergo TMS stimulation due to having epilepsy or being at high risk for a seizure, being sleep deprived, having a history of unexplained fainting, recurrent severe headaches, significant head injury, having undergone a neurosurgical procedure, having metal in the head, having hearing problems or ringing in the ears or implanted medical devices that could malfunction under TMS stimulation.
Have major medical illnesses to include, but not limited to, hypertension, cardiovascular disease, asthma, diabetes, peripheral vascular diseases, coagulopathies, syncope, history of superficial or deep vein thrombosis, HIV, or other clinically significant infectious diseases that may alter the signal being measured.
Have current major psychiatric disorders to include, but not limited to, mood, anxiety, psychotic disorders.
Have neurological illnesses including, but not limited to, seizure disorders, migraine, multiple sclerosis, movement disorders, or history of head trauma, CVA, CNS tumor.
Have cognitive impairment as assessed by screening WASI vocabulary subtest below 48, corresponding to full IQ of 85 (in that case on screening, a full WASI will be done to verify IQ of 85 or above).
Inability to comply with task demands.
Suspected or confirmed active SARS-CoV-2 infection. Assessment tool: 2019 Novel Coronavirus (COVID-19) patient screening tool administered by phone prior to participant arrival. The current version of the screening tool to be used is available at http://intranet.cc.nih.gov/hospitalepidemiology/emerging_infectious_diseases.html). Viral testing looking for SARS-CoV-2 in a specimen deemed appropriate by NIH (such as nasopharyngeal or mid-turbinate swab) may also be completed. We reserve the right to change the specimen type as NIH approves new test procedures. This test may be carried out in-house at NIDA, NIH, at a community testing site or through a commercial vendor. Anyone with a positive symptom screen without a clear alternative explanation or a positive viral test will be excluded until they recover or (for asymptomatic cases) are no longer infectious. MAI will also retain the ability to exclude for a suspicious symptom screen without positive viral test. Justification: COVID-19 is extremely infectious and can have serious consequences. Allowing participants with active infection would alter the risk:benefit ratio for non-treatment studies without a primary focus on SARS-CoV-2 to an unacceptable level of risk. In addition, COVID-19 can have cognitive consequences which would add unnecessary noise to the study data. Testing will continue as long as public health officials and/or NIDA medical personnel deem it appropriate.

Additional exclusions for some experiments:

Based on the scientific and medical requirements of the particular experiment, participants may also be excluded for:

left-handedness (if using a cognitive or affective task),
color-blindness (if using a task requiring color discrimination),
drug use diagnosis (if a technique is being validated in a non-drug using population),
renal insufficiency (if contrast agents are to be used), as determined by estimated glomerular filtration rate, which must be > 60 ml/min, as renal insufficiency greatly increases the risk of nephrogenic systemic fibrosis from gadolinium exposure. Renal insufficiency may also be associated with metabolic abnormalities that may interfere with MR imaging.
Lactation (if contrast agents are to be used). The safety of gadolinium for nursing infants has not been established.
Use of psychoactive or vascularly active medications (if a functional fMRI technique that is sensitive to hemodynamic changes is being used).

Contacts and Locations

Locations

	Site	City	State	Country	Postal Code
1	Georgetown University	Washington	District of Columbia	United States	20007-2197
2	National Institute on Drug Abuse, Biomedical Research Center (BRC)	Baltimore	Maryland	United States	21224