Parkinson's Disease Clinical Trial
Official title:
Assessing Cholinergic Innervation in Parkinson's Disease Using the PET Imaging Marker [18F]Fluoroethoxybenzovesamicol
Although PD is considered predominantly as a motor disease caused by loss of dopaminergic
neurons, multiple studies indicate that cholinergic dysfunction already starts in early PD
and is crucial for the development of dementia in addition to motor symptoms.Because of its
crucial role in CNS functioning and neurodegenerative disorders, including PD, it is of
great importance to get a better understanding of the cholinergic functioning in the brain.
Pathways of acetylcholine synthesis, transport and release provide possible targets for in
vivo imaging of the cholinergic system. However,previous approaches are considered as
indirect biomarkers of cholinergic terminal integrity because they measure both pre- and
post-synaptic expressions. The novel vesicular acetylcholine transporter (VAChT) tracer
[18F]Fluoroethoxy-Benzovesamicol ([18F]FEOBV) provides a more direct measurement of
presynaptic cholinergic function. The use of [18F]FEOBV as a Positron Emission Tomography
(PET) imaging marker of cholinergic innervations has, however, only been studied in healthy
human volunteers and no data is available on patients.
With this study the differences in cholinergic function between PD patients and healthy
aged-matched volunteers will be quantified. In addition the test-retest variability will be
determined
Rationale:
Cholinergic neurons play an important role in neurotransmission within the central nervous
system (CNS). They are involved in complex functions like memory, learning, recognition,
attention, consciousness, regulation of sleep-wake cycles and maintenance of posture and
gait. Cholinergic neuron degeneration in the neocortex and hippocampus of the CNS, is an
important neurochemical change observed in several neurodegenerative diseases, including
Parkinson's disease (PD) and Alzheimer's disease (AD). Therefore, assessment of the
vesicular acetylcholine transporter (VAChT) as an important molecular target in the
cholinergic circuit, has sparked interest in the development of radiotracers for studying
this target in vivo. Preclinical studies show the VAChT tracer (-)-5-
[18F]Fluoroethoxybenzovesamicol ([18F]FEOBV) to be potentially useful in detecting
cholinergic lesions in vivo. A previous [18F]FEOBV PET study confirms that the tracer binds
to VAChT with the expected in vivo human brain distribution. The use of [18F]FEOBV as a PET
imaging marker of cholinergic innervations has, however, only been studied in healthy human
volunteers and no data is available on patients.
Objective:
The main objective of this study is to evaluate the differences in [18F]FEOBV binding
between PD patients and healthy control subjects, in order to evaluate the clinical
feasibility of [18F]FEOBV as a cholinergic imaging ligand in PD. Secondary objectives are
the assessment of test-retest variability and confirming previous findings on [18F]FEOBV
validation. Both secondary objectives are prerequisites for the main objective. In addition,
an explorative analysis of the relationship between neuropsychological performance and
cholinergic innervation will be performed.
Study design: In order to establish the difference in [18F]FEOBV binding between PD patients
and healthy control subjects, the study will be conducted in three parts.
- The first part of the study is to establish [18F]FEOBV as a PET tracer for application
in clinical research by confirming previous findings on [18F]FEOBV validation. This
will include dynamic scanning of 3 healthy control subjects in 3 imaging sessions
(0-120, 150-180, 210-240 min after injection of [18F]FEOBV). From this part of the
study, the optimal short static scan period will be determined by comparing relative
uptake values with the results of kinetic analysis.
- Part 2 of the study is to evaluate differences in [18F]FEOBV in Parkinson's disease and
healthy controls. For this, the three dynamic scans of part 1 will be used and an
additional 7 healthy control subjects and 10 PD patients will be included for a simple
static scan (period determined after part 1 of the study).
- In part 3, test-retest variability is evaluated in both groups. Of each group, 5
patients will undergo a short second static scan.
All subjects will be screened within 30 days before the PET scan for demographic information
and detailed clinical history.
Study population:
In total, 10 PD patients and 10 age matched control subjects will be included in the study,
all between the ages of 45-65 years. Of the 10 control subjects, 3 will undergo full dynamic
scanning, all other subjects included will undergo simple static scanning. A total of 10
subjects, 5 from each group, will undergo a second static scan. The patient group includes
patients with Parkinson's disease with a disease duration of at least 3 years and maximum 10
years. All subjects will undergo a neuropsychological assessment.
Main study parameters/endpoints:
The main endpoint of this study is the difference in VAChT brain binding on a [18F]FEOBV
PET-scan between PD patients and healthy control subjects.
Secondary endpoints are test-retest variability in both patients and healthy control
subjects, and neuropsychological performance in both groups.
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Observational Model: Case Control, Time Perspective: Cross-Sectional
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