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Parkinson's disease (PD) is a chronic, progressive, neurodegenerative disease that affects 1% of the population older than 60 years. The disease presents as a movement disorder manifesting mainly with resting tremor, bradykinesia, cogwheel rigidity and postural instability along with cognitive and behavioral disturbances and symptoms of other non-motor systems dysfunction. The pathophysiology of the motor dysfunction in PD is related to gradual loss of nigrostriatal dopaminergic neurons (originating from the substantia nigra (SN) compacta to the striatum) leading eventually to depletion of dopamine in the striatum.
Striatal fluorine-18 isotopologue for L-3,4-dihydroxyphenylalanine([18F] F-DOPA) uptake follows a typical spatiotemporal pattern along the course of disease starting with a decreased uptake in the dorso-caudal putamen (contralateral to the side of predominant motor involvement) that progress to the caudate nucleus.
The role of traditional magnetic resonance imaging (MRI) in the evaluation of PD is aimed mainly to differentiate idiopathic PD from secondary parkinsonism (e.g. vascular) and from other degenerative but atypical parkinsonian syndromes (e.g.Progressive supranuclear palsy ( PSP), Multiple system atrophy (MSA) etc.) that are associated with distinct structural features and therefore help establishing the diagnosis. However, new MR sequences such as diffuse tensor imaging (DTI) and susceptibility-weighted imaging (SWI) are now being investigated to evaluate the nigrostriatal dopaminergic neurons and iron accumulation in the SN, respectively.
Resting-state functional magnetic resonance imaging (fMRI) that depicts brain network organization has been shown to be altered in patients with PD. In this technique, temporally synchronous, spatially distributed, spontaneous low frequency blood-oxygen level-dependent signal fluctuations in task-free settings are further clustered into maps of functional large-scale neural networks. Lower network efficiency that worsens as disease progresses has been shown in patients with PD.
Recently, it has been shown that the integration of MRI and PET is technically feasible. The investigators believe that PET/MRI offers true multimodality imaging by combining anatomy, function and molecular processes that will allow more accurate identification of disease progression.
To the best of our knowledge, this will be the first study to evaluate idiopathic PD (IPD) with 18F FDOPA PET/MRI.
The aim of the study is to assess the feasibility of the modality and to evaluate both visually and quantitatively the association between the dopamine metabolism measured in the striatum by 18F-FDOPA PET with structural and functional MR findings in patients diagnosed with IPD with asymmetrical motor signs.
Full description
Study Objectives and Purpose:
Materials and Methods:
Study Design: This is a prospective, pilot, cohort
Study population:
Patients diagnosed with IPD suffering from asymmetrical motor signs.
Participant recruitment:
Eligible consecutive patients, satisfying the inclusion criteria, will be identified and recruited by neurological clinics.
Informed consent: Before enrollment, written informed consent will be obtained from each patient.
Participant Sampling: All patients fulfilling inclusion criteria and providing informed consent will be consecutively enrolled.
Imaging diagnostic PET/MR protocol All scans will be performed in the department of Nuclear Medicine at Tel-Aviv Assuta Medical Center using a PET/MR scanner (Biograph mMR, Siemens AG, Erlangen, Germany) in accordance with the manufacturer's guidelines.
Patients are required to fast at least 4 hours prior to arrival to the department. Upon arrival an intravenous catheter will be placed for radiopharmaceutical and gadolinium administration. Patients will receive an intravenous injection of 10 Millicurie (mCi) of 18F-FDOPA on the PET MR table and scanning will begin immediately. Dynamic PET parameters will be acquired along with the different MR sequences. MR of the brain will include the following sequences: T1, T2 and T2 fluid attenuated inversion recovery sequence (FLAIR), susceptibility-weighted sequences (SWI), blood-oxygenation level-dependent (BOLD) signals for resting-state functional imaging. In addition, perfusion of the brain will be evaluated with and without gadolinium.
For contrast-enhanced sequences the investigators use Dotarem (gadoteric acid)(0.2 ml/kg ,0.1 mmol/kg at 2ml/s, 20ml saline flush) The total scan time will be about 45 minutes.
Data collection:
For eligible patients, the following data will be recorded at baseline.
MR findings:
PET findings:
Statistics Patient characteristics will be summarized using descriptive statistics. Quantitative variables will be presented as mean and SD, qualitative variables will be presented as frequencies.
Pearson correlation coefficient will be used to measure the strength of the relationship between the PET and the MR parameters.
A t-test will be used to compare the mean values of the different parameters. Sample size: This is a pilot study for which a sample size of 40 patients is required.
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Central trial contact
Noa Zifman, MSc; David Groshar, MD
Data sourced from clinicaltrials.gov
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