P-glycoprotein Function in Brain Diseases
| Status: | Completed |
|---|---|
| Conditions: | Alzheimer Disease, Parkinsons Disease, Neurology, Neurology |
| Therapuetic Areas: | Neurology |
| Healthy: | No |
| Age Range: | 35 - Any |
| Updated: | 4/6/2019 |
| Start Date: | May 9, 2008 |
| End Date: | August 25, 2014 |
Measurement of P-Glycoprotein Function in Alzheimer Disease, Parkinson Disease, and Frontotemporal Dementia Using Positron Emission Tomography
This study will measure the function of a protein called P-glycoprotein (P-gp), which is
found at the blood-brain barrier, a membrane that normally prevents toxic material from
entering the brain. Impaired P-gp function may allow toxins to enter the brain and cause some
people to develop certain brain diseases.
Healthy subjects and people with Alzheimer s disease, Parkinson s disease or frontotemporal
dementia who are 35 years of age or older and in overall good health may be eligible for this
study.
Participants undergo the following procedures during three outpatient visits to the NIH
Clinical Center:
- Medical history, psychological evaluation, physical examination and blood and urine
tests, including tests for illegal and addictive drugs.
- PET scan: This test uses small amounts of a radioactive chemical called a tracer that
labels active areas of the brain so the activity can be seen with a special camera.
Before starting the scan, a catheter (plastic tube) is placed in a vein in the arm to
inject the tracer. The subject lies on the scanner bed, with a special mask fitted to
the head and attached to the bed to help keep the head still during the scan so the
images obtained are clear. A brief initial scan is done to calibrate the scanner. Then,
a radioactive tracer called [(15)O]H(2)O is injected into the catheter and the PET
camera takes pictures of blood flow to the brain for about 60 seconds. Next, another
tracer, [(11)C]dLop, is injected into the catheter and pictures are taken for about 2
hours to determine how much of this tracer is allowed to enter the brain.
- Magnetic resonance imaging (MRI): This procedure is done within 1 year (before or after)
the PET scan. MRI uses a magnetic field and radio waves to produce images of the brain.
For this procedure, the patient lies on a table that can slide in and out of the scanner
(a tube-like device), wearing earplugs to muffle loud knocking and thumping sounds that
occur during the scan.
found at the blood-brain barrier, a membrane that normally prevents toxic material from
entering the brain. Impaired P-gp function may allow toxins to enter the brain and cause some
people to develop certain brain diseases.
Healthy subjects and people with Alzheimer s disease, Parkinson s disease or frontotemporal
dementia who are 35 years of age or older and in overall good health may be eligible for this
study.
Participants undergo the following procedures during three outpatient visits to the NIH
Clinical Center:
- Medical history, psychological evaluation, physical examination and blood and urine
tests, including tests for illegal and addictive drugs.
- PET scan: This test uses small amounts of a radioactive chemical called a tracer that
labels active areas of the brain so the activity can be seen with a special camera.
Before starting the scan, a catheter (plastic tube) is placed in a vein in the arm to
inject the tracer. The subject lies on the scanner bed, with a special mask fitted to
the head and attached to the bed to help keep the head still during the scan so the
images obtained are clear. A brief initial scan is done to calibrate the scanner. Then,
a radioactive tracer called [(15)O]H(2)O is injected into the catheter and the PET
camera takes pictures of blood flow to the brain for about 60 seconds. Next, another
tracer, [(11)C]dLop, is injected into the catheter and pictures are taken for about 2
hours to determine how much of this tracer is allowed to enter the brain.
- Magnetic resonance imaging (MRI): This procedure is done within 1 year (before or after)
the PET scan. MRI uses a magnetic field and radio waves to produce images of the brain.
For this procedure, the patient lies on a table that can slide in and out of the scanner
(a tube-like device), wearing earplugs to muffle loud knocking and thumping sounds that
occur during the scan.
Objective
Alzheimer disease (AD), Parkinson disease (PD), and frontotemporal dementia (FTD) are
associated with the accumulation of neurotoxic material in the brain. Potentially toxic
material is normally restricted from the brain by P-glycoprotein, a transporter protein
expressed by endothelial cells at the blood-brain barrier. Disruption of the blood-brain
barrier has been reported in animal models of AD, PD, and FTD, and specific dysfunction of
P-gp has been linked to AD and PD pathology. Therefore, P-gp may be protective against
certain neurodegenerative diseases, and P-gp dysfunction may be a risk factor for developing
AD, PD, or FTD.
Positron emission tomography (PET) imaging can measure P-gp function. If P-gp function is
abnormal, a radiolabeled P-gp substrate will cross the blood-brain barrier and enter the
brain. Intact P-gp function, on the other hand, will prevent the substrate from entering the
brain. If P-gp dysfunction is a risk factor for developing AD, PD, or FTD, then patients with
these diseases should have more radiolabeled substrate in the brain than healthy controls.
We have developed a novel radioligand, [(11)C]N-desmethyl-loperamide [(11)C]dLop), which is a
P-gp substrate. Our goal is to use PET imaging with [(11)C]dLop to see if P-gp function is
reduced in AD, PD, and FTD.
Study population
In this protocol, we wish to evaluate 15 patients with AD, 15 patients with PD, 15 patients
with FTD, and 15 healthy volunteers.
Design
Subjects will undergo screening with a history, physical exam, ECG, and blood and urine
laboratory testing. Subjects will receive a dedicated brain PET with [(11)C]dLop and a brain
MRI. Since [11C]dLop uptake is influenced by blood flow, a [(15)O]H2O PET scan will be
performed to determine flow to the brain.
Outcome measures
Our outcome measure will be the amount of [(11)C]dLop uptake in the brain in AD, PD, and FTD
patients and in healthy controls. Brain uptake will be measured as the percent standardized
uptake value (%SUV). Percent SUV reflects the measured brain radioactivity after [(11)C]dLop
injection, corrected for patient weight and the injected dose of [(11)C]dLop. As an
exploratory outcome measure, we also will correct brain uptake for cerebral blood flow. Blood
flow will be determined using [(15)O]H2O PET.
Alzheimer disease (AD), Parkinson disease (PD), and frontotemporal dementia (FTD) are
associated with the accumulation of neurotoxic material in the brain. Potentially toxic
material is normally restricted from the brain by P-glycoprotein, a transporter protein
expressed by endothelial cells at the blood-brain barrier. Disruption of the blood-brain
barrier has been reported in animal models of AD, PD, and FTD, and specific dysfunction of
P-gp has been linked to AD and PD pathology. Therefore, P-gp may be protective against
certain neurodegenerative diseases, and P-gp dysfunction may be a risk factor for developing
AD, PD, or FTD.
Positron emission tomography (PET) imaging can measure P-gp function. If P-gp function is
abnormal, a radiolabeled P-gp substrate will cross the blood-brain barrier and enter the
brain. Intact P-gp function, on the other hand, will prevent the substrate from entering the
brain. If P-gp dysfunction is a risk factor for developing AD, PD, or FTD, then patients with
these diseases should have more radiolabeled substrate in the brain than healthy controls.
We have developed a novel radioligand, [(11)C]N-desmethyl-loperamide [(11)C]dLop), which is a
P-gp substrate. Our goal is to use PET imaging with [(11)C]dLop to see if P-gp function is
reduced in AD, PD, and FTD.
Study population
In this protocol, we wish to evaluate 15 patients with AD, 15 patients with PD, 15 patients
with FTD, and 15 healthy volunteers.
Design
Subjects will undergo screening with a history, physical exam, ECG, and blood and urine
laboratory testing. Subjects will receive a dedicated brain PET with [(11)C]dLop and a brain
MRI. Since [11C]dLop uptake is influenced by blood flow, a [(15)O]H2O PET scan will be
performed to determine flow to the brain.
Outcome measures
Our outcome measure will be the amount of [(11)C]dLop uptake in the brain in AD, PD, and FTD
patients and in healthy controls. Brain uptake will be measured as the percent standardized
uptake value (%SUV). Percent SUV reflects the measured brain radioactivity after [(11)C]dLop
injection, corrected for patient weight and the injected dose of [(11)C]dLop. As an
exploratory outcome measure, we also will correct brain uptake for cerebral blood flow. Blood
flow will be determined using [(15)O]H2O PET.
- INCLUSION CRITERIA:
- Patients with the diagnosis of probable Alzheimer disease, Parkinson disease, or
frontotemporal dementia. All patients must either meet capacity criteria to consent to
research, or be able to assign a surrogate decision-maker who is able to consent to
research on the subject s behalf.
- Healthy volunteers.
EXCLUSION CRITERIA:
- Current psychiatric disease, substance abuse or severe systemic disease based on
history and physical exam.
- Laboratory tests with clinically significant abnormalities.
- Subjects on blood-thinning medications, having coagulation disorders, or clinically
significant abnormal blood clotting test (PT/PTT).
- Prior participation in other research protocols or clinical care in the last year such
that radiation exposure, including that from this protocol, would exceed the
guidelines set by the Radiation Safety Committee (RSC).
- Pregnancy or breast feeding.
- Positive result on urine screen for illicit drugs.
- Subjects who cannot lie on their back for extended periods of time.
- History of neurological disease other than Alzheimer disease, Parkinson disease, or
frontotemporal dementia.
- Subjects who have a cardiac pacemaker or metal in their body.
- Subjects taking cyclosporine A.
We found this trial at
1
site
9000 Rockville Pike
Bethesda, Maryland 20892
Bethesda, Maryland 20892
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