EEG-EMG information flow in movement-activated myoclonus in patients with Unverricht-Lundborg disease.

OBJECTIVE

We aimed the present study at estimating the appropriateness of generalised partial directed coherence (GPDC) in detecting myoclonus-related EEG-EMG connectivity pattern and the information flow between sensorimotor cortex and muscles in patients with typical cortical myoclonus due to Unverricht-Lundborg disease.

METHODS

In 13 patients with cortical myoclonus, we analysed the EEG and EMG signals recorded during simple voluntary motor activities using GPDC, a frequency domain linear index of connectivity estimated from a multivariate autoregressive model. The results were compared with those obtained in 12 healthy controls.

RESULTS

The GPDC revealed a peculiar pattern characterising patients with cortical myoclonus with respect to healthy subjects. Patients consistently had significant more robust outflow toward activated muscle originating from cortical areas exceeding the motor one. Moreover, they also had a more robust EMG outflow directed toward a wider cortical area contralateral to activated hand and sometimes also toward the ipsilateral central region.

CONCLUSIONS

Our results clearly indicate the recruitment of extensive cortical network in afferent and efferent EEG-EMG relationships.

SIGNIFICANCE

Given that robust cortical outflow can be considered as the pathogenic mechanism sustaining myoclonus, the perturbation from the EMG outflow could lead to the involvement of large cortical area implied in sensorimotor integration and became capable of generating and maintaining the jerk recurrence.