Machine Learning Prediction of Motor Response After Deep Brain Stimulation in Parkinson's Disease-proof of Principle in a Retrospective Cohort

Overview

Journal PeerJ

Specialties Biology
Environmental Health
General Medicine

Date 2020 Nov 26

PMID 33240642

Citations 14

Authors

Jeroen G V Habets

Marcus L F Janssen

Annelien A Duits

Laura C J Sijben

Anne E P Mulders

Bianca de Greef

Yasin Temel

Mark L Kuijf

Pieter L Kubben

Christian Herff

Affiliations

Soon will be listed here.

Abstract

Introduction: Despite careful patient selection for subthalamic nucleus deep brain stimulation (STN DBS), some Parkinson's disease patients show limited improvement of motor disability. Innovative predictive analysing methods hold potential to develop a tool for clinicians that reliably predicts individual postoperative motor response, by only regarding clinical preoperative variables. The main aim of preoperative prediction would be to improve preoperative patient counselling, expectation management, and postoperative patient satisfaction.

Methods: We developed a machine learning logistic regression prediction model which generates probabilities for experiencing weak motor response one year after surgery. The model analyses preoperative variables and is trained on 89 patients using a five-fold cross-validation. Imaging and neurophysiology data are left out intentionally to ensure usability in the preoperative clinical practice. Weak responders ( = 30) were defined as patients who fail to show clinically relevant improvement on Unified Parkinson Disease Rating Scale II, III or IV.

Results: The model predicts weak responders with an average area under the curve of the receiver operating characteristic of 0.79 (standard deviation: 0.08), a true positive rate of 0.80 and a false positive rate of 0.24, and a diagnostic accuracy of 78%. The reported influences of individual preoperative variables are useful for clinical interpretation of the model, but cannot been interpreted separately regardless of the other variables in the model.

Conclusion: The model's diagnostic accuracy confirms the utility of machine learning based motor response prediction based on clinical preoperative variables. After reproduction and validation in a larger and prospective cohort, this prediction model holds potential to support clinicians during preoperative patient counseling.

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