Sensor-based quantification of items used in the MDS-UPDRS-III scale. repetitive lower-limb movements in healthy human participants
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2026
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01A - Journal article
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Frontiers in Neurology
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16
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1685247
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Frontiers Research Foundation
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Abstract
Background The Movement Disorder Society Unified Parkinson’s Disease Rating Scale (MDS-UPDRS) is used as a standardized approach to assess motor function in Parkinson’s disease (PD). This assessment is based on the examiner’s subjective judgement and is therefore variable. While quantitative approaches have been evaluated for upper-limb movements, data is scarce on lower-limb movements. Thus, our aim was to implement and assess a setup to quantify lower-limb movements as defined in the MDS-UPDRS in healthy participants introducing new parameters for smoothness and acceleration patterns. Methods Twenty-three participants (age-range = 21–31 years) performed five 20-s trials for both lower-limb movement tasks from the MDS-UPDRS-III, i.e., toe tapping (item 3.7) and leg agility (item 3.8). Foot and leg movements were recorded using four inertial measurement units (two per leg: one mounted on the foot and one on the ankle). Biomarkers such as kinematic parameters (e.g., frequency, angular amplitude, movement smoothness, acceleration-based parameters) were extracted to characterize foot-movement dynamics (dominant vs. non-dominant leg), with statistical analyses including linear mixed-effects models applied to four consecutive, non-overlapping 5-s intervals. Results A paired Wilcoxon test showed no significant differences in parameters for toe tapping and leg agility based on leg dominance. For toe tapping, the relationship between frequency and angle displayed non-linearity, with a clear decrease in angle with 17.41° −0.83°/interval*t (t = 1–4 time intervals) and no clear decrease in frequency with 2.75 Hz − 0.02 Hz/interval*t. The median frequency and angle for toe tapping were 2.8 Hz and 16° respectively. The median frequency for leg agility was 2.6 Hz. Conclusion Reference values could be determined for all parameters including smoothness and acceleration patterns. The quantitative assessment of two MDS-UPDRS-III items shows that temporal changes and adaptation-mechanisms significantly influenced leg-movement dynamics. Reducing exercise duration to 10 s and implementing a metronome with defined frequency could enhance measurement accuracy and reliability, offering more precise parameters for future applications in PD-patients.
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1664-2295
Language
English
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Yes
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Published
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Gold
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Citation
Hunziker, S., Vogel, D., Kalt, D., Feiler, S., Hemm-Ode, S., & Tarnutzer, A. A. (2026). Sensor-based quantification of items used in the MDS-UPDRS-III scale. repetitive lower-limb movements in healthy human participants. Frontiers in Neurology, 16, 1685247. https://doi.org/10.3389/fneur.2025.1685247