Attention Deficit Hyperactivity Disorder Clinical Trial
Official title:
PET Scanning of Brain Dopaminergic Signal Transduction Involving Arachidonic Acid in Adults With Attention Deficit Hyperactivity Disorder (ADHD)
This study will explore the brain in men with and without attention deficit hyperactivity
disorder (ADHD). It will use positron emission tomography (PET) and magnetic resonance
imaging (MRI) to study brain function and nerve cell communication involving phospholipids
(fatty molecules that make up the covering of nerve cell fibers in the brain and are involved
in communication between the cells). It will also look at how nerve cell communication is
related to blood flow. In particular, the study will explore communication through the
dopamine system, which is one of the main neurotransmitter systems in the brain involved in
ADHD.
Healthy men and men with ADHD between 18 and 55 years of age may be eligible for this study.
Participants undergo the following procedures:
"<TAB>Medical history and psychiatric and medical evaluation, including blood and urine
tests.
"<TAB>MRI scan. This test uses a strong magnetic field and radio waves to obtain images of
the brain. The subject lies still on a table that slides into the scanner (a metal cylinder)
during the scanning.
"<TAB>PET scanning. The subject lies on the scanner bed with his head held still using a
special facemask. A catheter (plastic tube or needle) is placed in an artery to collect blood
samples and in a vein to inject radioactive isotopes for measuring blood flow and
phospholipid metabolism. Scans are done after an injection of a saline solution and again
after injection of apomorphine, a medication that turns on dopamine receptors in the brain.
The injections are given under the skin of the abdomen, about one and a half hours apart....
A. Objective
Attention deficit hyperactivity disorder (ADHD) is a heritable neurodevelopmental disorder
with a reported male predominance that persists into adulthood and leads to significant
morbidity in affected individuals. ADHD is currently hypothesized to reflect central
dopaminergic dysfunction. Evaluation of human dopaminergic dysfunction using in vivo
neuroimaging has been limited to studies of receptor localization and quantification, and
dopamine synthesis, rather than direct measurement of the functional status of receptor
signaling. There exists a need to thoroughly elucidate mechanisms underlying aberrant
dopaminergic neurotransmission downstream of receptor activation in signaling processes. We
have developed an in vivo method to measure neuroreceptor-initiated signal transduction
involving activation of phospholipase A(2) to release the second messenger, arachidonic acid
(AA). We propose to use positron emission tomography (PET) to quantitatively image
dopamine-initiated signal transduction via AA in ADHD patients and healthy volunteers, in
subjects administered the dopaminergic agonist, apomorphine, and to measure regional cerebral
blood flow (rCBF) as well. We hypothesize that signaling and flow responses to apomorphine
will be elevated, demonstrating hypersensitivity of the dopamine signaling mechanism.
B. Study population
18 healthy male volunteers between the ages of 18 and 55, will be recruited for this study
(see justification for recruitment of males only in Study Design and Methods).
C. Design
All subjects will have up to four study-related visits to the Clinical Center in Bethesda
over a one-year period, including an overnight stay. Participants will also be asked to
complete an initial comprehensive telephone questionnaire to elicit whether they meet
criteria for study participation, followed by on-site visits to NIH to complete a modified
battery of neuropsychiatric screening tests related to symptom presence and severity.
Questions relating to medical, family, psychiatric and developmental histories and lifestyle
will be asked. In addition, visits will include a physical exam as well as blood and urine
collection, and structural magnetic resonance imaging (MRI) of the head. Subject
participation will culminate with sequential subcutaneous administration of a single dose of
control vehicle solution (control) followed by the dopamine agonist apomorphine (after
appropriate pre-medication with the anti-emetic, trimethobenzamide) or two sequential
injections of vehicle for PET scans with attendant radiolabeled compounds.
D. Outcome Parameters
This study has four specific aims. First, regional cerebral blood flow will be quantified in
response to an acute challenge with apomorphine s.c. and compared between study groups
(ADHD/non-ADHD). Second, dopamine D(2)-like receptor signal transduction will be evaluated by
PET in response to an acute challenge with apomorphine s.c. and compared between study groups
(ADHD/non-ADHD). Third, baseline esterified and unesterified serum fatty acids will be
compared between patients and control subjects. Lastly, we will examine the acute effect of
apomorphine in the stimulation of serum growth hormone in all subjects, as confirmatory
evidence for stimulation of central dopaminergic receptors.
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