Evaluation of Electrode Configurations in Cerebellar Implants

Abstract

Capacitively coupled currents of 100 Hz, 0.25 msec duration, were applied to multielectrode arrays implanted upon the superior and posterior surfaces of the chimpanzee cerebellum. The current required for 90% reduction in the amplitude of the evoked potential was inversely proportional to the number of electrodes upon the cerebellar surface. A study of various waveforms showed that a 100 Hz, 0.25 msec pulse duration is near optimal for reduction of amplitude of the somatosensory evoked potential The current densities per electrode were 5–11 mA/cm2 with a charge per pulse of 0.04–0.08 µC in humans with 15–20 electrodes on each superior surface and 10 electrodes on each posterior cerebellar surface.