Epilepsy Clinical Trial
Official title:
Assessment of [11C]DPA-713 in Temporal Lobe Epilepsy
Background:
- Some people with epilepsy have an epileptic focus, a small part of the brain that is the
starting point of the seizure. This focus is like an irritant or an inflammation, and helps
cause the seizure. People with epilepsy that affects the temporal lobe of the brain often
have an epileptic focus. Researchers want to look at the epileptic focus by using a drug that
attaches to a protein associated with inflammation. An imaging study with the drug will show
how much inflammation is in the area of the brain where the seizures start. The drug, called
[11C]DPA-713, will be tested for its effectiveness in people with temporal lobe epilepsy. Its
effects will be compared with imaging studies given to healthy volunteers.
Objectives:
- To see if [11C]DPA-713 can show the inflammation in the epileptic focus of seizures.
Eligibility:
- Individuals at least 18 years of age who have temporal lobe epilepsy.
- Healthy volunteers at least 18 years of age.
Design:
- Participants will have three outpatient visits to the National Institutes of Health
Clinical Center. The visits will last from 2 to 5 hours.
- Participants will be screened with a physical exam, neurological exam, and medical
history. Blood samples will be collected before the start of the study.
- Participants will have a positron emission tomography (PET) scan. This scan will be used
to look at brain chemistry and function. The study drug will be given during the scan to
see how well it shows points of inflammation in the brain. Some participants will
provide additional blood samples during the PET scan.
- Participants will also have a magnetic resonance imaging (MRI) scan. This scan will look
at the structure of the brain.
OBJECTIVE:
Translocator protein 18 kDa (TSPO) is highly expressed in activated microglia and reactive
astrocytes in brain, and it may, thereby, be a useful biomarker of neuroinflammation. We
developed [11C]PBR28 as a positron emission tomographic (PET) radioligand to bind to TSPO and
measure its density. The purpose of this study is to assess a new TSPO radioligand,
[11C]DPA-713, and to compare it with [11C]PBR28.
Although [11C]PBR28 has high in vivo specific signal, it is very sensitive to the high and
low affinity states of TSPO, which are caused by a single nucleotide polymorphism (SNP) in
the fourth exon of the TSPO gene. This co-dominant mutation yields three genetic groups: HH,
HL, and LL, where H is the high-affinity form and L is the low affinity form. The frequency
of the L allele is approximately 30%; thus, the frequency of the LL homozygote is
approximately 9%. The affinity of PBR28 to H and L forms differs about 50 fold; thus, LL
carriers provide no measureable signal in brain from [11C]PBR28. In contrast, the affinity of
DPA-713 differs by only four-fold and LL carriers provide measureable brain uptake, although
diminished in comparison to HH and HL carriers.
We recently reported that [11C]PBR28 binding is increased in epileptogenic mesial temporal
lobe in HH and HL carriers, using the ratio of brain uptake in ipsilateral and contralateral
regions. This study will compare [11C]DPA-713 and [11C]PBR28 in two ways. First, what is the
relative robustness of absolute quantitation of TSPO in healthy subjects and patients with
epilepsy, using an arterial input function and pharmacokinetic modeling? Second, what is the
relative sensitivity of [11C]DPA-713 and [11C]PBR28 to detect the seizure focus in patients
with epilepsy and measured as the ratio of brain uptake ipsilateral and contralateral to the
seizure focus.
STUDY POPULATION
This protocol will study a total of 30 patients with epilepsy and 30 healthy human volunteers
using [11C]DPA-713. Studies with [11C]PBR28 in the same subjects will be performed under
other protocols, including 12-N-0182 ( Positron emission tomography measurement of
neuroinflammation and P-glycoprotein in localization-related epilepsy, PI: W. Theodore).
DESIGN
For absolute quantification of TSPO, 10 patients with epilepsy and 25 healthy controls will
have arterial blood sampling concurrent with PET imaging using [11C]DPA- 713. Scans of
healthy subjects will also be used to study effect of the polymorphism to the binding of
[11C]DPA- 713. The subjects will choose to undergo the PET scan with or without the arterial
line. Most, but not all, subjects will also have a scan with [11C]PBR28 under another
protocol. LL homozygotes would be excluded from [11C]PBR28 but would be included with
[11C]DPA- 713.
For detection of increased TSPO receptor binding in epileptogenic foci as a ratio of
ipsilateral to contralateral regions, about 20 patients with epilepsy will be studied with
[11C]DPA-713. Since the ratio of brain uptake will also be obtained as part of absolute
quantitation in ten patients, this ratio of brain uptake will require an additional ten
subjects, who would not require an arterial catheter.
To account for dropouts and data variability, we request a ceiling of 30 epilepsy patients
(about 10 of whom will have an arterial line) and 30 controls. All subjects will have blood
drawn to genotype the TSPO SNP and to perform in vitro radioligand binding to TSPO on
lymphocytes.
OUTCOME MEASURES
To assess absolute quantitation of TSPO with [11C]DPA-713, we will primarily use two outcome
measures: the identifiability and time stability of distribution volume calculated with
compartmental modeling. By comparing data of HH, HL, and LL, we will also estimate
nondisplaceable distribution volume. To assess the sensitivity of [11C]DPA-713 to localize
the epileptogenic focus, we will compare ratio of brain uptake in medial temporal lobe,
ipsilateral and contralateral to the seizure focus.
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