The effect of sensory deprivation or electrical stimulation on vestibular compensation was investigated for 7 days after unilateral labyrinthectomy (ULX) in 50 rabbits. Eye movements induced by sinusoidal rotation of the whole body and spontaneous nystagmus were measured for vestibulo-ocular compensation, and head deviation was measured for vestibulospinal compensation. The rabbits were divided into 4 groups: one with ULX only (LX only), ULX with bilateral tarsorrhaphy (LX+TX), ULX with cervical dorsal root ganglionectomy (LX+GX), and a group stimulated electrically on the lesion-sided vestibular system with square pulse for 8 h/day (LX+ES). In LX only, the frequency of spontaneous nystagmus was 2.93 +/- 0.19 beats/sec just after ULX, declining to zero in 4 days. In eye movements induced by sinusoidal rotation on the 7th day after ULX, directional preponderance was 24-43% and gain decreased to 32-48% by rotation toward the intact side and 17-29% by rotation toward the lesion side, compared with that before ULX. Roll head tilt and yaw head tilt were 82 +/- 9 degrees, 45 +/- 6 degrees, respectively, on the 7th day. Recovery of vestibulo-ocular reflex and head deviation was delayed in LX+TX and LX+GX compared with that in ULX only, but recovery was enhanced in LX+ES. Therefore, in this study, electrical stimulation of the lesion side seemed to have a favorable effect on suppression of acute vestibular symptoms induced by unilateral vestibular lesion.