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Bradykinesia Detection in Parkinson’s Disease Using Smartwatches’ Inertial Sensors and Deep Learning Methods

Luis Sigcha, Beatriz Domínguez, Luigi Borzì, Nélson Costa, Susana Costa, Pedro Arezes, Juan Manuel López, Guillermo de Arcas, Ignacio Pavón

2022Electronics28 citationsDOIOpen Access PDF

Abstract

Bradykinesia is the defining motor symptom of Parkinson’s disease (PD) and is reflected as a progressive reduction in speed and range of motion. The evaluation of bradykinesia severity is important for assessing disease progression, daily motor fluctuations, and therapy response. However, the clinical evaluation of PD motor signs is affected by subjectivity, leading to intra- and inter-rater variability. Moreover, the clinical assessment is performed a few times a year during pre-scheduled follow-up visits. To overcome these limitations, objective and unobtrusive methods based on wearable motion sensors and machine learning (ML) have been proposed, providing promising results. In this study, the combination of inertial sensors embedded in consumer smartwatches and different ML models is exploited to detect bradykinesia in the upper extremities and evaluate its severity. Six PD subjects and seven age-matched healthy controls were equipped with a consumer smartwatch and asked to perform a set of motor exercises for at least 6 weeks. Different feature sets, data representations, data augmentation methods, and ML models were implemented and combined. Data recorded from smartwatches’ motion sensors, properly augmented and fed to a combination of Convolutional Neural Network and Random Forest model, provided the best results, with an accuracy of 0.86 and an area under the curve (AUC) of 0.94. Results suggest that the combination of consumer smartwatches and ML classification methods represents an unobtrusive solution for the detection of bradykinesia and the evaluation of its severity.

Topics & Concepts

SmartwatchWearable computerArtificial intelligenceMachine learningComputer scienceConvolutional neural networkParkinson's diseaseInertial measurement unitPhysical medicine and rehabilitationMotion (physics)Random forestDiseaseMedicineEmbedded systemPathologyParkinson's Disease Mechanisms and TreatmentsMuscle activation and electromyography studiesVoice and Speech Disorders