Machine learning-based prediction of cognitive outcomes in de novo Parkinson’s disease

Author:

Harvey JoshuaORCID,Reijnders Rick A.ORCID,Cavill RachelORCID,Duits AnnelienORCID,Köhler Sebastian,Eijssen LarsORCID,Rutten Bart P. F.,Shireby Gemma,Torkamani Ali,Creese ByronORCID,Leentjens Albert F. G.,Lunnon Katie,Pishva EhsanORCID

Abstract

AbstractCognitive impairment is a debilitating symptom in Parkinson’s disease (PD). We aimed to establish an accurate multivariate machine learning (ML) model to predict cognitive outcome in newly diagnosed PD cases from the Parkinson’s Progression Markers Initiative (PPMI). Annual cognitive assessments over an 8-year time span were used to define two cognitive outcomes of (i) cognitive impairment, and (ii) dementia conversion. Selected baseline variables were organized into three subsets of clinical, biofluid and genetic/epigenetic measures and tested using four different ML algorithms. Irrespective of the ML algorithm used, the models consisting of the clinical variables performed best and showed better prediction of cognitive impairment outcome over dementia conversion. We observed a marginal improvement in the prediction performance when clinical, biofluid, and epigenetic/genetic variables were all included in one model. Several cerebrospinal fluid measures and an epigenetic marker showed high predictive weighting in multiple models when included alongside clinical variables.

Funder

ZonMw

Publisher

Springer Science and Business Media LLC

Subject

Cellular and Molecular Neuroscience,Neurology (clinical),Neurology

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