Alzheimer's Disease Clinical Trial
Official title:
Positron Emission Tomography Imaging of Human Brain Phospholipid Metabolism in Relation to Age and Disease
The main source of energy for the brain comes from a combination of oxygen and glucose
(sugar). For brain cells to function normally they must receive a constant supply of these
nutrients. As areas of the brain become more active blood flow into and out of these areas
increase.
In addition to oxygen and glucose, the brain uses chemical compounds known as phospholipids.
These phospholipids make up the covering of nerve cells that assist in the transfer of
information from cell to cell. Without phospholipids brain cell activity may become abnormal
and cause problems in the nervous system.
Certain diseases like Alzheimer's disease and brain tumors can affect blood flow to the
brain and change the way the brain metabolizes phospholipids. In addition to diseases,
changes in the brain occur with normal healthy aging.
This study is designed to use PET scan to measure changes in blood flow and changes in
phospholipid metabolism. Using this technique, researchers can improve their understanding
of how certain diseases change the shape and function of the brain.
The Brain Physiology and Metabolism Section (BPMS) of the National Institute on Aging (NIA)
and the Clinical Neuroscience Program (CNP) of the National Institute of Neurological
Disorders and Stroke (NINDS) propose to study regional brain phospholipid metabolism in
young and old normal volunteers and in patients with Alzheimer disease. The method to be
employed, developed from animal studies, involves the intravenous injection of a
radiolabeled polyunsaturated fatty acid, [11C]arachidonic acid and measuring regional brain
radioactivity using positron emission tomography (PET). A mathematical model is used to
calculate regional brain incorporation coefficients k* of [11C]arachidonate into brain.
These reflect brain signal transduction and membrane turnover involving phospholipids and
the signal transduction and membrane turnover involving phospholipids and the activation of
the enzyme, phospholipase A2. PET also will be used in the same subjects to measure regional
cerebral blood flow (rCBF), a marker of brain energy metabolism, with radioactive water
([150]H20). The literature reports that rCBF and energy metabolism decline with age and are
markedly reduced in Alzheimer disease. We hypothesize that (a) we will be able to quantify
and image incorporation of [11C]arachidonate into the human brain for the first time, (b) in
normal volunteers, k* for arachidonate will be correlated on a regional basis with rCBF, (c)
rCBF will be reduced in the older compared with the younger normal volunteers, and markedly
reduced in Alzheimer disease patients compared with the older volunteers (controls), (d) the
normal coupling (regression) relation between k* and rCBF will be disturbed in Alzheimer
disease.
This protocol originally proposed to measure brain incorporation of two labeled fatty acids,
[11C]arachidonate and [11C]palmitate, as well as rCBF, in young and old normal volunteers,
and in patients with Alzheimer disease, Niemann-Pick Type C disease and brain tumors. Eleven
patients with Alzheimer disease have been scanned using [11C]arachidonate and [150]H20,
compared with 10 volunteers. The current amendment proposes to use only [11C]arachidonate
and [150]H20 in 16 additional normal volunteers, and to compare the results between old and
young groups and patients with Alzheimer disease. A request to study only 16 additional
normal volunteers was approved by the NINDS IRB at the Continuing Review in 1999, and has
not changed since then.
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