Abstract
We propose a wearable sensor system for automatic, continuous and ubiquitous analysis of Freezing of Gait (FOG), in patients affected by Parkinson’s disease. FOG is an unpredictable gait disorder with different clinical manifestations, as the trembling and the shuffling-like phenotypes, whose underlying pathophysiology is not fully understood yet. Typical trembling-like subtype features are lack of postural adaptation and abrupt trunk inclination, which in general can increase the fall probability. The targets of this work are detecting the FOG episodes, distinguishing the phenotype and analyzing the muscle activity during and outside FOG, toward a deeper insight in the disorder pathophysiology and the assessment of the fall risk associated to the FOG subtype. To this aim, gyroscopes and surface electromyography integrated in wearable devices sense simultaneously movements and action potentials of antagonist leg muscles. Dedicated algorithms allow the timely detection of the FOG episode and, for the first time, the automatic distinction of the FOG phenotypes, which can enable associating a fall risk to the subtype. Thanks to the possibility of detecting muscles contractions and stretching exactly during FOG, a deeper insight into the pathophysiological underpinnings of the different phenotypes can be achieved, which is an innovative approach with respect to the state of art.
Highlights
Freezing of Gait (FOG) is a paroxysmal gait disorder affecting patients with Parkinson’s disease (PD) and representing a leading cause of falls and poor quality of life [1,2,3]
The two phenotype index (PI) values calculated in the shuffling FOG and in the trembling in place FOG episodes are extremely different and this index well characterizes the FOG phenotype
We evaluated the intensity of the gastrocnemius muscle (GC) stretching pattern in the trembling in place FOG episode of the same patient
Summary
Freezing of Gait (FOG) is a paroxysmal gait disorder affecting patients with Parkinson’s disease (PD) and representing a leading cause of falls and poor quality of life [1,2,3]. According to leg motion observed during FOG episodes, at least two main phenotypes of FOG can be clinically identified [5,6], one of which, the so-called trembling in place FOG is associated with the inability to lift the foot from the ground and to an alternating tremor of the legs (knee trembling) with no effective forward feet progression. In the trembling in place FOG, the rapid variation of body acceleration due to the toe stuck to the ground and knee trembling is accompanied by the lack of postural adaptation and the abrupt inclination of trunk angle, which in general can cause forward falls during gait on the linear path and lateral falls during turning [6,7,8,9]
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