Introduction: Brain hypometabolism patterns have been previously associated with cognitive decline in Parkinson's disease (PD). Our aim is to evaluate the impact of single-subject fluorodeoxyglucose (FDG)-PET brain hypometabolism on long-term cognitive and motor outcomes in PD. Methods: Forty-nine non-demented PD patients with baseline brain FDG-PET data underwent an extensive clinical follow-up for 8 years. The ability of FDG-PET to predict long-term cognitive and motor progression was evaluated using Cox regression and mixed ANCOVA models. Results: Participants were classified according to FDG-PET pattern in PD with typical (n = 26) and atypical cortical metabolism (n = 23). Patients with atypical brain hypometabolic patterns showed higher incidence of dementia (60% vs 3%; HR = 18.3), hallucinations (56% vs 7%, HR = 7.3) and faster motor decline compared to typical pattern group. Conclusion: This study argues for specific patterns of FDG-PET cortical hypometabolism in PD as a prognostic marker for long term cognitive and motor outcomes at single-subject level.

Imarisio, A., Pilotto, A., Premi, E., Caminiti, S., Presotto, L., Sala, A., et al. (2023). Atypical brain FDG-PET patterns increase the risk of long-term cognitive and motor progression in Parkinson's disease. PARKINSONISM & RELATED DISORDERS, 115 [10.1016/j.parkreldis.2023.105848].

Atypical brain FDG-PET patterns increase the risk of long-term cognitive and motor progression in Parkinson's disease

Presotto L.;
2023

Abstract

Introduction: Brain hypometabolism patterns have been previously associated with cognitive decline in Parkinson's disease (PD). Our aim is to evaluate the impact of single-subject fluorodeoxyglucose (FDG)-PET brain hypometabolism on long-term cognitive and motor outcomes in PD. Methods: Forty-nine non-demented PD patients with baseline brain FDG-PET data underwent an extensive clinical follow-up for 8 years. The ability of FDG-PET to predict long-term cognitive and motor progression was evaluated using Cox regression and mixed ANCOVA models. Results: Participants were classified according to FDG-PET pattern in PD with typical (n = 26) and atypical cortical metabolism (n = 23). Patients with atypical brain hypometabolic patterns showed higher incidence of dementia (60% vs 3%; HR = 18.3), hallucinations (56% vs 7%, HR = 7.3) and faster motor decline compared to typical pattern group. Conclusion: This study argues for specific patterns of FDG-PET cortical hypometabolism in PD as a prognostic marker for long term cognitive and motor outcomes at single-subject level.
Articolo in rivista - Articolo scientifico
FDG-PET; Parkinson's disease; Parkinson's disease dementia; Risk prediction; Statistical parametric mapping;
English
7-set-2023
2023
115
105848
none
Imarisio, A., Pilotto, A., Premi, E., Caminiti, S., Presotto, L., Sala, A., et al. (2023). Atypical brain FDG-PET patterns increase the risk of long-term cognitive and motor progression in Parkinson's disease. PARKINSONISM & RELATED DISORDERS, 115 [10.1016/j.parkreldis.2023.105848].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/468249
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