Movement analysis and EEG recordings in children with hemiplegic cerebral palsy

Abstract

Impaired hand function is often the most disabling symptom in children with hemiplegic cerebral palsy (CP). Literature provides a wide number of studies dealing either with the kinematics or the cerebral correlates of the impairment. Nevertheless, few studies exist merging both aspects together. The aim of this study is the integrated analyses of time and spatial parameters of both the affected and less-affected sides and of the EEG signal, recorded during the movement execution, for the quantitative description of the pointing gesture in children with CP. The participants (pathological and control subjects) were asked to execute a pointing task simultaneously with the recording by an optoelectronic system and an electroencephalographer. Kinematic data were processed for the extraction of several synthetic indexes, to be correlated with parameters derived from frequency analysis of the electroencephalographic signal. Kinematic results showed statistical differences (1) between the affected and the less-affected arms in patients and (2) between the less-affected arm in patients and the normal arm in controls. Further differences were found in kinematics with respect to bilateral or ipsilateral motor control, extracted from EEG. Given the different behavior evidenced by either ipsilateral or contralateral reorganization, and considering the role of feedback and feed-forward contributions to motor programming, some hypotheses emerged about the motor control during pointing task in CP.