parkinson's disease (PD) is responsible for a broad spectrum of signs and symptoms, including relevant motor impairments generally rated by clinical experts. In recent years, motor measurements gathered by technology-based systems have been used more and more to provide objective data. In particular, wearable devices have been adopted to evidence differences in the gait capabilities between PD patients and healthy people. Within this frame, despite the key role that the upper limbs' swing plays during walking, no studies have been focused on their harmonic content, to which this work is devoted. to this end, we measured, by means of IMU sensors, the walking capabilities of groups of PD patients (both de novo and under-chronic-dopaminergic-treatment patients when in an off-therapy state) and their healthy counterparts. the collected data were FFT transformed, and the frequency content was analyzed. according to the results obtained, PD determines upper limb rigidity objectively evidenced and correlated to lower harmonic contents.
Pietrosanti, L., Calado, A., Verrelli, C., Pisani, A., Suppa, A., Fattapposta, F., et al. (2023). Harmonic Distortion Aspects in Upper Limb Swings during Gait in Parkinson's Disease. ELECTRONICS, 12(3) [10.3390/electronics12030625].
Harmonic Distortion Aspects in Upper Limb Swings during Gait in Parkinson's Disease
Verrelli, CM;Pisani, A;Giannini, F;Saggio, G
2023-01-01
Abstract
parkinson's disease (PD) is responsible for a broad spectrum of signs and symptoms, including relevant motor impairments generally rated by clinical experts. In recent years, motor measurements gathered by technology-based systems have been used more and more to provide objective data. In particular, wearable devices have been adopted to evidence differences in the gait capabilities between PD patients and healthy people. Within this frame, despite the key role that the upper limbs' swing plays during walking, no studies have been focused on their harmonic content, to which this work is devoted. to this end, we measured, by means of IMU sensors, the walking capabilities of groups of PD patients (both de novo and under-chronic-dopaminergic-treatment patients when in an off-therapy state) and their healthy counterparts. the collected data were FFT transformed, and the frequency content was analyzed. according to the results obtained, PD determines upper limb rigidity objectively evidenced and correlated to lower harmonic contents.File | Dimensione | Formato | |
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