|
|
View Clinical Trial (Medical Research Study)
|
Brain Activity During Strategic Planning - NCT00728741-20892 (Clinical Trial 234880)
Permalink: http://www.ClinicalConnection.com/exp/ExpandedPatientViewStudy234880.aspx
|
** Please review additional "Nearby Studies" on right ----->
|
|
 |
 |
|
| City: |
|
Bethesda |
|
State:
|
|
MD |
| Zip Code: |
|
20892 |
| Conditions: |
|
Healthy Volunteers |
| Purpose: |
|
This study will locate areas in the brain that help people devise action plans to carry out
complex tasks requiring use of strategy. The ability to plan strategically is impaired in
patients who have had a stroke affecting the front parts of the brain. This study will use
functional magnetic resonance imaging (fMRI) to examine the activity of different areas of
the brain during the formulation and execution of plans.
Right-handed healthy volunteers between 18 and 60 years of age may be eligible for this
study. Participants come to the NIH Clinical Center four to five times to complete the
following procedures:
Visit 1 - Screening
- Medical history
- Physical and neurological examinations
Visit 2 - MRI brain scan (if one has not been done within the past year)
MRI - This test uses a strong magnetic field and radio waves to obtain images of the brain.
The scanner is a metal cylinder surrounded by a magnetic field. The subject lies on a table
that can slide in and out of the scanner, wearing earplugs to muffle loud noises that occur
during the scanning.
Visits 3 to 5 - Task training sessions and two fMRI scans
Functional MRI involves taking MRI scans while the subject performs a task in order to learn
about changes in brain regions that are involved in the performance of the task. Subjects
are trained in two tasks (see below) and then perform the tasks while in the MRI scanner.
- Task 1: The subject presses computer keys in response to the direction of arrows shown
on the computer screen. The keys are pressed according to a given set of rules the
subject is taught.
- Task 2: This task is similar to task 1, but the subject is also asked to remember
certain previous actions and responses.
|
| Study summary: |
|
OBJECTIVES
Efficient behavior requires the ability to generalize from previous experiences. This can be
achieved by behavioral strategies. We use many behavioral strategies; some strategies have
strict S-R associations -stop at the RED light-; others are modifiable -balancing skills of
a ballerina that becomes very useful during rock climbing- and serve as abstract strategies
that enable solving problems.
Strategy use is common in our behavioral repertoire. A strategy can be defined as a set of
computations associated with the act of planning and directing overall operations and
movements involved in a task. A behavioral strategy that conscious behaving primates
spontaneously adopted in order to maximize their rewards have been well characterized in the
literature. These are called "Repeat-Stay"/"Change-Shift" strategy, and were shown to be
associated with prefrontal neuronal activity during multi-unit intra-cortical recordings,
clearly indicating a special role played by the prefrontal cortex in computing strategy use.
It is important to understand how the human brain computes and processes strategies. This
study aims at understanding the activation patterns, and neuronal connectivity in the human
brain when engaged in tasks that require strategies. We hypothesize that application of
strategies to solve tasks would show specifically and significantly increase Blood
Oxygenation Dependant (BOLD) signal, particularly the fronto-polar cortex (PFp), ventral and
orbitofrontal prefrontal cortex (PFV+o) in the human brains.
STUDY POPULATION
The two experiments described in this protocol may recruit up to 61 (6 for the pilot study)
adult healthy volunteers.
DESIGN
The study will consist of functional Magnetic Resonance Imaging (fMRI). The fMRI will
consist of two separate experiments: (1) the strategy experiment and (2) the memory control
experiment. Data will be analyzed separately for each part of the experiment: Responses to
tasks will be collected and this data (response times, accuracy rates) will be searched for
statistically significant differences using linear contrasts in an ANOVA model.
The imaging fMRI data will be analyzed for statistically significant functional activations
by using an implementation of the General Linear Model (GLM) (R. Turner et al., 1998; K. J.
Friston et al., 2005) in Statistical Parametric Mapping (SPM).
OUTCOME MEASURES
We propose to acquire response data (response times, error rates), and functional brain
activation data using fMRI. Therefore, we would have two outcome measures.
From the response data we will evaluate statistically significant differences in response
times, error rates, learning curves.
From the BOLD fMRI data, the main outcome would be task specific neural activations that
would regress with the behavioral tasks in a General Linear Model.
These measures will further our understanding about how the human brains use strategies
during complex task performance. This will lay the foundation to our understanding for how
we are capable of generalizing our experiences from specific instances. Such knowledge will
also improve our understanding of various aspects of movement genesis, and is likely to
eventually shed light on various movement disorders including psychogenic movement disorders
and chorea among others. |
| Criteria: |
|
- INCLUSION CRITERIA:
- Subjects from ages 18 to 60
- Subjects must be right-hand dominant as defined by the Edinburgh Handedness
inventory: (R. C. Oldfield, 1971) -Right lateralized handedness quotient of greater
than 0.75 will be considered R handed)
- Subjects willing to abstain from caffeine or alcohol for 48 hours prior to the FMRI
scanning.
EXCLUSION CRITERIA:
- Subjects with clinically significant abnormal findings on neurological exam in any of
the following neurological domains: cognitive, cranial nerve, motor, sensory,
cerebellar functions.
- Subjects who are pregnant (as determined by positive urine pregnancy test)
- Subjects with any finding on the MRI safety questionnaire which prevents them from
safely undergoing an MRI scan
- Subjects with metallic dental fillings which are likely to cause MRI artifacts
- Subjects with any history of brain tumor, stroke, head trauma or a vascular
malformation as obtained by history or from imaging studies
- Subjects with any history of a severe medical condition, such as cardiovascular
disease, which would prevent them from lying flat for up to 120 minutes
- Subjects without the capacity to give informed consent
- Subjects with claustrophobia or other restrictions which prevent them from undergoing
a scan in a confined space for up to 60 minutes |
|
|
|
| Study is available at: |
|
National Institutes of Health Clinical Center, 9000 Rockville Pike
Bethesda, MD 20892
United States
Primary Contact:
Patient Recruitment and Public Liaison Office
Email: prpl@mail.cc.nih.gov
Phone: (800) 411-1222 |
|
|
If you are interested in this clinical trial please use the contact information above. If you would like to get additional information about this clinical trial please visit ClinicalTrials.gov.
|
| Trials Alerts: |
|
If you would like to be
notified of new clinical trials as they become available please
register for a free account.
|
|
| Data Source: |
|
ClinicalTrials.gov |
| Date Processed: |
|
March 16, 2010 |
Modifications to
this listing: |
|
Only selected fields are shown, please use the link
above to view all information about this clinical trial. |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
| |
|
|
| |
|
|
| |
|
|
| |
|
|
| |
|
|
| |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Clinical trials are medical research studies designed to test the safety and/or
effectiveness of new drugs, devices, or treatments in humans. These studies are
conducted worldwide for a range of conditions and illnesses. Learn more about
clinical research and participating in a study at
About Clinical Trials.
|
|
|
|
|
|
|
|