Ollenschläger M, Höfner P, Ullrich M, Kluge F, Greinwalder T, Loris E, Regensburger M, Eskofier B, Winkler J, Gaßner H (2023)
Publication Type: Journal article
Publication year: 2023
Book Volume: 18
Article Number: 249
Journal Issue: 1
DOI: 10.1186/s13023-023-02854-8
Open Access Link: https://doi.org/10.1186/s13023-023-02854-8
Background: Hereditary spastic paraplegias (HSPs) cause characteristic gait impairment leading to an increased risk of stumbling or even falling. Biomechanically, gait deficits are characterized by reduced ranges of motion in lower body joints, limiting foot clearance and ankle range of motion. To date, there is no standardized approach to continuously and objectively track the degree of dysfunction in foot elevation since established clinical rating scales require an experienced investigator and are considered to be rather subjective. Therefore, digital disease-specific biomarkers for foot elevation are needed. Methods: This study investigated the performance of machine learning classifiers for the automated detection and classification of reduced foot dorsiflexion and clearance using wearable sensors. Wearable inertial sensors were used to record gait patterns of 50 patients during standardized 4 × 10 m walking tests at the hospital. Three movement disorder specialists independently annotated symptom severity. The majority vote of these annotations and the wearable sensor data were used to train and evaluate machine learning classifiers in a nested cross-validation scheme. Results: The results showed that automated detection of reduced range of motion and foot clearance was possible with an accuracy of 87%. This accuracy is in the range of individual annotators, reaching an average accuracy of 88% compared to the ground truth majority vote. For classifying symptom severity, the algorithm reached an accuracy of 74%. Conclusion: Here, we show that the present wearable gait analysis system is able to objectively assess foot elevation patterns in HSP. Future studies will aim to improve the granularity for continuous tracking of disease severity and monitoring therapy response of HSP patients in a real-world environment.
APA:
Ollenschläger, M., Höfner, P., Ullrich, M., Kluge, F., Greinwalder, T., Loris, E.,... Gaßner, H. (2023). Automated assessment of foot elevation in adults with hereditary spastic paraplegia using inertial measurements and machine learning. Orphanet Journal of Rare Diseases, 18(1). https://doi.org/10.1186/s13023-023-02854-8
MLA:
Ollenschläger, Malte, et al. "Automated assessment of foot elevation in adults with hereditary spastic paraplegia using inertial measurements and machine learning." Orphanet Journal of Rare Diseases 18.1 (2023).
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