Asymmetric Dopaminergic Dysfunction in Brain-First versus Body-First Parkinson's Disease Subtypes

Karoline Knudsen; Tatyana D Fedorova; Jacob Horsager; Katrine B Andersen; Casper Skjærbæk; Daniela Berg; Eva Schaeffer; David J Brooks; Nicola Pavese; Nathalie Van Den Berge; Per Borghammer

doi:10.3233/JPD-212761

Asymmetric Dopaminergic Dysfunction in Brain-First versus Body-First Parkinson's Disease Subtypes

Karoline Knudsen^*, Tatyana D Fedorova, Jacob Horsager, Katrine B Andersen, Casper Skjærbæk, Daniela Berg, Eva Schaeffer, David J Brooks, Nicola Pavese, Nathalie Van Den Berge, Per Borghammer

^*Corresponding author for this work

Department of Clinical Medicine - Nuclear Medicine and PET

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Journal article › Research › peer-review

53 Citations (Scopus)

Abstract

BACKGROUND: We have hypothesized that Parkinson's disease (PD) comprises two subtypes. Brain-first, where pathogenic α-synuclein initially forms unilaterally in one hemisphere leading to asymmetric nigrostriatal degeneration, and body-first with initial enteric pathology, which spreads through overlapping vagal innervation leading to more symmetric brainstem involvement and hence more symmetric nigrostriatal degeneration. Isolated REM sleep behaviour disorder has been identified as a strong marker of the body-first type.

OBJECTIVE: To analyse striatal asymmetry in [18F]FDOPA PET and [123I]FP-CIT DaT SPECT data from iRBD patients, de novo PD patients with RBD (PD +RBD) and de novo PD patients without RBD (PD - RBD). These groups were defined as prodromal body-first, de novo body-first, and de novo brain-first, respectively.

METHODS: We included [18F]FDOPA PET scans from 21 iRBD patients, 11 de novo PD +RBD, 22 de novo PD - RBD, and 18 controls subjects. Also, [123I]FP-CIT DaT SPECT data from iRBD and de novo PD patients with unknown RBD status from the PPPMI dataset was analysed. Lowest putamen specific binding ratio and putamen asymmetry index (AI) was defined.

RESULTS: Nigrostriatal degeneration was significantly more symmetric in patients with RBD versus patients without RBD or with unknown RBD status in both FDOPA (p = 0.001) and DaT SPECT (p = 0.001) datasets.

CONCLUSION: iRBD subjects and de novo PD +RBD patients present with significantly more symmetric nigrostriatal dopaminergic degeneration compared to de novo PD - RBD patients. The results support the hypothesis that body-first PD is characterized by more symmetric distribution most likely due to more symmetric propagation of pathogenic α-synuclein compared to brain-first PD.

Original language	English
Journal	Journal of Parkinson's Disease
Volume	11
Issue	4
Pages (from-to)	1677-1687
Number of pages	11
ISSN	1877-7171
DOIs	https://doi.org/10.3233/JPD-212761
Publication status	Published - Oct 2021

Keywords

Parkinson's disease
asymmetry
dopaminergic dysfunction
brain- and body-first
SLEEP BEHAVIOR DISORDER
SCREENING QUESTIONNAIRE
PROGRESSION
PATHOLOGY

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10.3233/JPD-212761

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@article{1bba8e6610ae4f118dbc18b24617117b,

title = "Asymmetric Dopaminergic Dysfunction in Brain-First versus Body-First Parkinson's Disease Subtypes",

abstract = "BACKGROUND: We have hypothesized that Parkinson's disease (PD) comprises two subtypes. Brain-first, where pathogenic α-synuclein initially forms unilaterally in one hemisphere leading to asymmetric nigrostriatal degeneration, and body-first with initial enteric pathology, which spreads through overlapping vagal innervation leading to more symmetric brainstem involvement and hence more symmetric nigrostriatal degeneration. Isolated REM sleep behaviour disorder has been identified as a strong marker of the body-first type.OBJECTIVE: To analyse striatal asymmetry in [18F]FDOPA PET and [123I]FP-CIT DaT SPECT data from iRBD patients, de novo PD patients with RBD (PD +RBD) and de novo PD patients without RBD (PD - RBD). These groups were defined as prodromal body-first, de novo body-first, and de novo brain-first, respectively.METHODS: We included [18F]FDOPA PET scans from 21 iRBD patients, 11 de novo PD +RBD, 22 de novo PD - RBD, and 18 controls subjects. Also, [123I]FP-CIT DaT SPECT data from iRBD and de novo PD patients with unknown RBD status from the PPPMI dataset was analysed. Lowest putamen specific binding ratio and putamen asymmetry index (AI) was defined.RESULTS: Nigrostriatal degeneration was significantly more symmetric in patients with RBD versus patients without RBD or with unknown RBD status in both FDOPA (p = 0.001) and DaT SPECT (p = 0.001) datasets.CONCLUSION: iRBD subjects and de novo PD +RBD patients present with significantly more symmetric nigrostriatal dopaminergic degeneration compared to de novo PD - RBD patients. The results support the hypothesis that body-first PD is characterized by more symmetric distribution most likely due to more symmetric propagation of pathogenic α-synuclein compared to brain-first PD.",

keywords = "Parkinson's disease, asymmetry, dopaminergic dysfunction, brain- and body-first, SLEEP BEHAVIOR DISORDER, SCREENING QUESTIONNAIRE, PROGRESSION, PATHOLOGY",

author = "Karoline Knudsen and Fedorova, {Tatyana D} and Jacob Horsager and Andersen, {Katrine B} and Casper Skj{\ae}rb{\ae}k and Daniela Berg and Eva Schaeffer and Brooks, {David J} and Nicola Pavese and {Van Den Berge}, Nathalie and Per Borghammer",

year = "2021",

month = oct,

doi = "10.3233/JPD-212761",

language = "English",

volume = "11",

pages = "1677--1687",

journal = "Journal of Parkinson's Disease",

issn = "1877-7171",

publisher = "SAGE Publications Ltd",

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Asymmetric Dopaminergic Dysfunction in Brain-First versus Body-First Parkinson's Disease Subtypes. / Knudsen, Karoline; Fedorova, Tatyana D; Horsager, Jacob et al.
In: Journal of Parkinson's Disease, Vol. 11, No. 4, 10.2021, p. 1677-1687.

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Journal article › Research › peer-review

TY - JOUR

T1 - Asymmetric Dopaminergic Dysfunction in Brain-First versus Body-First Parkinson's Disease Subtypes

AU - Knudsen, Karoline

AU - Fedorova, Tatyana D

AU - Horsager, Jacob

AU - Andersen, Katrine B

AU - Skjærbæk, Casper

AU - Berg, Daniela

AU - Schaeffer, Eva

AU - Brooks, David J

AU - Pavese, Nicola

AU - Van Den Berge, Nathalie

AU - Borghammer, Per

PY - 2021/10

Y1 - 2021/10

N2 - BACKGROUND: We have hypothesized that Parkinson's disease (PD) comprises two subtypes. Brain-first, where pathogenic α-synuclein initially forms unilaterally in one hemisphere leading to asymmetric nigrostriatal degeneration, and body-first with initial enteric pathology, which spreads through overlapping vagal innervation leading to more symmetric brainstem involvement and hence more symmetric nigrostriatal degeneration. Isolated REM sleep behaviour disorder has been identified as a strong marker of the body-first type.OBJECTIVE: To analyse striatal asymmetry in [18F]FDOPA PET and [123I]FP-CIT DaT SPECT data from iRBD patients, de novo PD patients with RBD (PD +RBD) and de novo PD patients without RBD (PD - RBD). These groups were defined as prodromal body-first, de novo body-first, and de novo brain-first, respectively.METHODS: We included [18F]FDOPA PET scans from 21 iRBD patients, 11 de novo PD +RBD, 22 de novo PD - RBD, and 18 controls subjects. Also, [123I]FP-CIT DaT SPECT data from iRBD and de novo PD patients with unknown RBD status from the PPPMI dataset was analysed. Lowest putamen specific binding ratio and putamen asymmetry index (AI) was defined.RESULTS: Nigrostriatal degeneration was significantly more symmetric in patients with RBD versus patients without RBD or with unknown RBD status in both FDOPA (p = 0.001) and DaT SPECT (p = 0.001) datasets.CONCLUSION: iRBD subjects and de novo PD +RBD patients present with significantly more symmetric nigrostriatal dopaminergic degeneration compared to de novo PD - RBD patients. The results support the hypothesis that body-first PD is characterized by more symmetric distribution most likely due to more symmetric propagation of pathogenic α-synuclein compared to brain-first PD.

AB - BACKGROUND: We have hypothesized that Parkinson's disease (PD) comprises two subtypes. Brain-first, where pathogenic α-synuclein initially forms unilaterally in one hemisphere leading to asymmetric nigrostriatal degeneration, and body-first with initial enteric pathology, which spreads through overlapping vagal innervation leading to more symmetric brainstem involvement and hence more symmetric nigrostriatal degeneration. Isolated REM sleep behaviour disorder has been identified as a strong marker of the body-first type.OBJECTIVE: To analyse striatal asymmetry in [18F]FDOPA PET and [123I]FP-CIT DaT SPECT data from iRBD patients, de novo PD patients with RBD (PD +RBD) and de novo PD patients without RBD (PD - RBD). These groups were defined as prodromal body-first, de novo body-first, and de novo brain-first, respectively.METHODS: We included [18F]FDOPA PET scans from 21 iRBD patients, 11 de novo PD +RBD, 22 de novo PD - RBD, and 18 controls subjects. Also, [123I]FP-CIT DaT SPECT data from iRBD and de novo PD patients with unknown RBD status from the PPPMI dataset was analysed. Lowest putamen specific binding ratio and putamen asymmetry index (AI) was defined.RESULTS: Nigrostriatal degeneration was significantly more symmetric in patients with RBD versus patients without RBD or with unknown RBD status in both FDOPA (p = 0.001) and DaT SPECT (p = 0.001) datasets.CONCLUSION: iRBD subjects and de novo PD +RBD patients present with significantly more symmetric nigrostriatal dopaminergic degeneration compared to de novo PD - RBD patients. The results support the hypothesis that body-first PD is characterized by more symmetric distribution most likely due to more symmetric propagation of pathogenic α-synuclein compared to brain-first PD.

KW - Parkinson's disease

KW - asymmetry

KW - dopaminergic dysfunction

KW - brain- and body-first

KW - SLEEP BEHAVIOR DISORDER

KW - SCREENING QUESTIONNAIRE

KW - PROGRESSION

KW - PATHOLOGY

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U2 - 10.3233/JPD-212761

DO - 10.3233/JPD-212761

M3 - Journal article

C2 - 34334424

SN - 1877-7171

VL - 11

SP - 1677

EP - 1687

JO - Journal of Parkinson's Disease

JF - Journal of Parkinson's Disease

IS - 4

ER -

Asymmetric Dopaminergic Dysfunction in Brain-First versus Body-First Parkinson's Disease Subtypes

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