Abstract
Extensive training can bring about highly-skilled action, but may also impair motor dexterity by producing involuntary movements and muscular cramping, as seen in focal dystonia (FD) and tremor. To elucidate the underlying neuroplastic mechanisms of FD, the present study addressed the organization of finger movements during piano performance in pianists suffering from the condition. Principal component (PC) analysis identified three patterns of fundamental joint coordination constituting finger movements in both patients and controls. The first two coordination patterns described less individuated movements between the “dystonic” finger and key-striking fingers for patients compared to controls. The third coordination pattern, representing the individuation of movements between the middle and ring fingers, was evident during a sequence of strikes with these fingers in controls, which was absent in the patients. Consequently, rhythmic variability of keystrokes was more pronounced during this sequence of strikes for the patients. A stepwise multiple-regression analysis further identified greater variability of keystrokes for individuals displaying less individuated movements between the affected and striking fingers. The findings suggest that FD alters dexterous joint coordination so as to lower independent control of finger movements, and thereby degrades fine motor control.
Highlights
Basal ganglia[29,30,31], cerebellum[32], and their inter-regional networks[33,34,35,36]
Multiple regression analysis are performed to provide a link between loss of fine motor control and dystonic movements
For both pianists, during the key-press the MCP joint at the striking finger moved for flexion, whereas the proximal interphalangeal (PIP) and distal interphalangeal (DIP) joints moved for extension
Summary
Basal ganglia[29,30,31], cerebellum[32], and their inter-regional networks[33,34,35,36]. FD has been associated with abnormal connectivity between the motor, premotor, and somatosensory regions, as well as the cerebellum[33,35,37,38] These functional and structural abnormalities in FD patients are likely to underlie production of dystonic movements. Patients with writer’s cramp displayed slower finger movements during repetitive and individuated finger oppositions[47], more variable peak velocity of the hand during circle drawing[48], and less accurate control of grip force[8,11]. These studies identified abnormalities of the spatiotemporal features of movements in FD patients. Previous studies have demonstrated movement inaccuracy and clumsiness in FD, a novelty of the present work lies in characterizing movement coordination between fingers and determining its relation to degraded motor precision in a quantitative way
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