A wearable sensor and machine learning estimate step length in older adults and patients with neurological disorders

Zadka, Assaf; Rabin, Neta; Gazit, Eran; Mirelman, Anat; Nieuwboer, Alice; Rochester, Lynn; Del Din, Silvia; Pelosin, Elisa; Avanzino, Laura; Bloem, Bastiaan R.; Della Croce, Ugo; Cereatti, Andrea; Hausdorff, Jeffrey M.

doi:10.1038/s41746-024-01136-2

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npj Digit. Med.

2024

DOI: 10.1038/s41746-024-01136-2

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A wearable sensor and machine learning estimate step length in older adults and patients with neurological disorders

Assaf Zadka,

Neta Rabin,

Eran Gazit

et al.

Abstract: Step length is an important diagnostic and prognostic measure of health and disease. Wearable devices can estimate step length continuously (e.g., in clinic or real-world settings), however, the accuracy of current estimation methods is not yet optimal. We developed machine-learning models to estimate step length based on data derived from a single lower-back inertial measurement unit worn by 472 young and older adults with different neurological conditions, including Parkinson’s disease and healthy controls. … Show more

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Simplification of Mobility Tests and Data Processing to Increase Applicability of Wearable Sensors as Diagnostic Tools for Parkinson’s Disease

Khalil,

Shulman,

Gruber-Baldini

et al. 2024

Sensors

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Quantitative mobility analysis using wearable sensors, while promising as a diagnostic tool for Parkinson’s disease (PD), is not commonly applied in clinical settings. Major obstacles include uncertainty regarding the best protocol for instrumented mobility testing and subsequent data processing, as well as the added workload and complexity of this multi-step process. To simplify sensor-based mobility testing in diagnosing PD, we analyzed data from 262 PD participants and 50 controls performing several motor tasks wearing a sensor on their lower back containing a triaxial accelerometer and a triaxial gyroscope. Using ensembles of heterogeneous machine learning models incorporating a range of classifiers trained on a set of sensor features, we show that our models effectively differentiate between participants with PD and controls, both for mixed-stage PD (92.6% accuracy) and a group selected for mild PD only (89.4% accuracy). Omitting algorithmic segmentation of complex mobility tasks decreased the diagnostic accuracy of our models, as did the inclusion of kinesiological features. Feature importance analysis revealed that Timed Up and Go (TUG) tasks to contribute the highest-yield predictive features, with only minor decreases in accuracy for models based on cognitive TUG as a single mobility task. Our machine learning approach facilitates major simplification of instrumented mobility testing without compromising predictive performance.

show abstract

Simplification of Mobility Tests and Data Processing to Increase Applicability of Wearable Sensors as Diagnostic Tools for Parkinson’s Disease

Khalil,

Shulman,

Gruber-Baldini

et al. 2024

Sensors

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show abstract

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A wearable sensor and machine learning estimate step length in older adults and patients with neurological disorders

Cited by 1 publication

References 65 publications

Simplification of Mobility Tests and Data Processing to Increase Applicability of Wearable Sensors as Diagnostic Tools for Parkinson’s Disease

Simplification of Mobility Tests and Data Processing to Increase Applicability of Wearable Sensors as Diagnostic Tools for Parkinson’s Disease

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