Interjoint coordination during pointing movements is disrupted in spastic hemiparesis

Abstract

Approaches to the rehabilitation of movement in spastic hemiparetic patients depend on knowledge of the underlying mechanisms of movement deficits. The goals of this study were to characterize end-point trajectories and interjoint coordination of arm pointing movements to different targets on a horizontal planar surface and to correlate disruptions in motor control in the affected arm of hemiparetic subjects with the level of spasticity and the degree of functional impairment measured clinically. Arm movements were studied in six normal and 10 hemiparetic subjects. Data from the affected arms of hemiparetic subjects were compared with those from their non-affected arms and to data from the arms of normal subjects. Subjects were seated in front of a horizontal surface adjusted to the height of the sternal notch with the trunk stabilized. They made planar arm reaching movements (20 and 40 cm) to four different targets located directly in front of them and in the ipsilateral and contralateral workspace. Kinematic data from the finger, wrist, elbow and shoulder were recorded with a three-dimensional optical tracking system. Results showed that movement amplitudes were lower and movement times were significantly prolonged in the affected arms. Although trajectories were marked by deviations from smooth straight lines and characterized by increased dispersion and segmentation, even those subjects with the most severe spasticity could reach into all parts of the workspace with both their affected and non-affected arms. This indicated that movement planning in terms of extrapersonal space was unaffected in these subjects. On the other hand, the interjoint coordination of movements made into or out of the typical extensor or flexor synergies was equally disrupted. These findings suggest a bi-level control organization of pointing movements in both normal and hemiparetic subjects: the level of trajectory planning in extrapersonal space and the level specifying interjoint coordination according to the trajectory plan. Deficits in motor performance in stroke patients may be associated with problems at the second control level. This implies some strategies for the rehabilitation of stroke patients with motor disorders. Treatment aimed at improving arm function should be oriented toward restoring the normal sensorimotor relationships between the joints. We also found that while clinical spasticity scores were correlated with some aspects of motor performance, they provided little information about the movement deficit itself.