Differential pulse voltammetry with a carbon fibre microelectrode was used in chloral hydrate-anaesthetized rats for testing the influence of microstimulation and of electroconvulsive stimulation on the changes in concentration of electro-oxidizable materials (catechol derivates) in the extracellular space of the corpus striatum. Microstimulation applied in the striatum (8 V anodal pulses, 0.1 ms, 100 Hz for 40 s) caused a significant increase of the catechol-oxidative current (Ico); 5 s after microstimulation was stopped Ico ranged from 117 to 141% of the control (all values means +/- S.D. unless otherwise stated; 124 +/- 11%, n = 4, P < or = 0.01, Student's t test). This effect ceased in the third minute after microstimulation. A comparable result was observed when microstimulation was repeated at intervals of 10 min. Electroconvulsive stimulation with a sinusoidal current (50 Hz, approximately 150 mA, 0.2 s) caused a large increase in Ico; 20 s after stimulation ceased, Ico was 987 +/- 90% (n = 3) of the control and it returned to the baseline 2 min later. The mechanisms inducing transmitter overflow are considered and the influence of electroconvulsive stimulation on the striatum is discussed in the context of its beneficial effects in psychopathic patients.