Molecular imaging to track Parkinson's disease and atypical parkinsonisms: New imaging frontiers

Strafella, Antonio P.; Bohnen, Nicolaas I.; Perlmutter, Joel S.; Eidelberg, David; Pavese, Nicola; Eimeren, Thilo van; Piccini, Paola; Politis, Marios; Thobois, Stéphane; Ceravolo, Roberto; Higuchi, Makoto; Kaasinen, Valtteri; Masellis, Mario; Peralta, María Cecilia; Obeso, Ignacio; Pineda-Pardo, José A.; Cilia, Roberto; Ballanger, Bénédicte; Niethammer, Martin; Stoessl, A. Jon

doi:10.1002/mds.26907

Cited by 90 publications

(59 citation statements)

References 118 publications

(235 reference statements)

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“…To date, researchers have shown the discriminative powers of MRI in separating PD from controls by assessing myelin structure, free water, iron, fiber pathways, or an assortment of other aspects of diseased tissues that define PD [8,9,10]. With atrophy, there is an increase in perivascular space that may allow for a novel imaging approach [11].…”

Section: Imaging and Pdmentioning

confidence: 99%

“…Both MRI and PET imaging have implemented this approach in PD [5,58]. Traditionally 18 F-fluorodopa (Fdopa) radiotracer administration with PET imaging has been employed to evaluate the integrity of the dopaminergic system, and when combined with raclopride (post-synaptic dopamine receptor radiotracer), it is possible to look at dopamine release in response to a variety of tasks [10]. Meanwhile, other PET methods use 15 O-H 2 O to look at cerebral blood flow (CBF) or 18 F-fluorodeoxyglucose (FDG) to assess brain metabolism.…”

Section: Perfusion Imaging and Pharmacodynamic (Pharmacologic) Imamentioning

confidence: 99%

“…Meanwhile, other PET methods use 15 O-H 2 O to look at cerebral blood flow (CBF) or 18 F-fluorodeoxyglucose (FDG) to assess brain metabolism. PET imaging has been used to evaluate PD subjects off and on symptomatic PD medications, and at rest or during a task, e.g., joy stick motor task [10]. Resting metabolic changes have been noted in PD using FDG PET methods whereby there is a pattern of reduction, i.e., PD-related pattern (PDRP) in the globus pallidus, putamen, thalamus, premotor and supplementary motor areas [59].…”

Section: Perfusion Imaging and Pharmacodynamic (Pharmacologic) Imamentioning

confidence: 99%

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Brain Magnetic Resonance Imaging (MRI) as a Potential Biomarker for Parkinson’s Disease (PD)

Tuite

2017

Brain Sciences

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Magnetic resonance imaging (MRI) has the potential to serve as a biomarker for Parkinson’s disease (PD). However, the type or types of biomarker it could provide remain to be determined. At this time there is not sufficient sensitivity or specificity for MRI to serve as an early diagnostic biomarker, i.e., it is unproven in its ability to determine if a single individual is normal, has mild PD, or has some other forms of degenerative parkinsonism. However there is accumulating evidence that MRI may be useful in staging and monitoring disease progression (staging biomarker), and also possibly as a means to monitor pathophysiological aspects of disease and associated response to treatments, i.e., theranostic marker. As there are increasing numbers of manuscripts that are dedicated to diffusion- and neuromelanin-based imaging methods, this review will focus on these topics cursorily and will delve into pharmacodynamic imaging as a means to get at theranostic aspects of PD.

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Section: Imaging and Pdmentioning

confidence: 99%

Section: Perfusion Imaging and Pharmacodynamic (Pharmacologic) Imamentioning

confidence: 99%

Section: Perfusion Imaging and Pharmacodynamic (Pharmacologic) Imamentioning

confidence: 99%

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Brain Magnetic Resonance Imaging (MRI) as a Potential Biomarker for Parkinson’s Disease (PD)

Tuite

2017

Brain Sciences

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“…Reduced binding of presynaptic dopamine transporter (DAT) ligand is well established as a surrogate marker for nigrostriatal degeneration, 67 and dissemination of radioligand measuring DAT binding into the clinical space has been successful. However, DAT binding deficit is not specific to PD 69 and utility as a rate marker is not clear. Emerging data suggest DAT SPECT is also a trait marker for risk of PD in individuals with other prodromal features, 12,70 but in order to maximize its specificity and predictive value it is unlikely that it can be used in isolation.…”

Section: Imagingmentioning

confidence: 99%

Parkinson's Disease Biomarkers: Where Are We and Where Do We Go Next?

Chahine

Stern

2017

Movement Disord Clin Pract

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Background Objective measures of Parkinson's disease (PD) are needed for purposes of diagnosis and prognostication, as well as identification of those at risk of PD. In this qualitative review, we provide an overview of the current state of the field of PD biomarker development, delineate challenges, and discuss how the field is evolving. Methods A search of PubMed was conducted for articles pertaining to objective biomarkers for PD. Articles were selected based on relevance and methodology; where available, meta‐analyses, systematic reviews, and comprehensive qualitative review articles were preferentially referenced. Results There are several potential sources of objective PD biomarkers including biofluids, peripheral tissue, imaging, genetics, and technology based objective motor testing. Approaches to biomarker identification include the candidate biomarker approach and unbiased discovery methods, each of which has advantages and disadvantages. Several emerging techniques hold promise in each of these areas. Advances in technology and bioinformatics, and the increasing availability of biobanks, are expected to facilitate future PD biomarker development. Conclusions The field of objective biomarkers for PD has made great progress but much remains to be done in translating putative biomarkers into tools useful in the clinic and for research. Multimodal biomarker platforms have the potential to capitalize on the utility and strengths of individual biomarkers. Rigorous methodology and standards for replication of findings will be key to meaningful progress in the field.

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“…Several papers in this issue of Movement Disorders illustrate the power of contemporary imaging methods. Strafella and colleagues nicely review the impact of molecular (positron emission tomography) imaging on PD research. In a remarkable extension of the clinico‐pathologic correlation method, molecular imaging methods allow in vivo identification of key brain changes underlying specific features of PD.…”

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confidence: 99%

What would Dr. James Parkinson think today? II. Neuroimaging in Parkinson's disease

Albin

2017

Mov Disord.

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Molecular imaging to track Parkinson's disease and atypical parkinsonisms: New imaging frontiers

Cited by 90 publications

References 118 publications

Brain Magnetic Resonance Imaging (MRI) as a Potential Biomarker for Parkinson’s Disease (PD)

Brain Magnetic Resonance Imaging (MRI) as a Potential Biomarker for Parkinson’s Disease (PD)

Parkinson's Disease Biomarkers: Where Are We and Where Do We Go Next?

What would Dr. James Parkinson think today? II. Neuroimaging in Parkinson's disease

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