Vertical optokinetic nystagmus and vestibular nystagmus in the monkey: up-down asymmetry and effects of gravity.

Vertical optokinetic nystagmus (OKN) i.e., OKN in the sagittal plane, was asymmetrical in the monkey when it was induced with animals lying on their sides in a 90 degrees roll position. In typical monkeys the slow phase velocity of downward OKN (slow phases up) increased proportionally with stimulus velocity at close to unity gain to about 60 degrees/s and saturated at about 100 degrees/s. Upward OKN (slow phases down) increased with close to unity gain only to about 40 degrees/s and saturated at about 60 degrees/s. The slow phase velocity of upward OKN was usually irregular and its frequency was lower than that of downward or horizontal OKN. Upward and downward optokinetic after-nystagmus (OKAN) were also asymmetrical. Upward OKAN was weak or absent and when present it usually saturated at 10 degrees/s. Downward OKAN was stronger, increasing with a gain of about 0.7 with regard to stimulus velocity to a saturation velocity of about 50-60 degrees/s. This was usually about 10-30 degrees/s less than the saturation velocity of horizontal OKAN. The weak or absent upward OKAN indicates that stored activity related to slow phase eye velocity contributes little to the production of upward OKN. In agreement with this, there was little or no slow rise in slow phase velocity to a steady state level during upward OKN. Instead eye velocity rose to its peak velocity at the onset of stimulation. The lack of stored velocity information is probably largely responsible for the differences in regularity, gain and frequency between upward and downward OKN. Vertical vestibular nystagmus was induced by rotating monkeys in darkness with steps of velocity about a vertical axis, while they were lying on their sides in a 90 degree roll position. The velocities of the initial upward and downward slow phases were approximately equal. Gains of the vertical VOR ranged from about 0.5 to 0.98 for stimuli up to 150 degrees/s. Despite equivalent initial gains for upward and downward nystagmus, the vertical VOR was asymmetrical in that downward nystagmus had a higher frequency and generally lasted longer than upward nystagmus. Time constants of downward nystagmus (slow phases up) were about 15 s on average and were similar to those of horizontal nystagmus. Mean time constants of upward nystagmus (slow phases down) were about 8 s. This is only slightly longer than the average time constant of afferent activity in the semicircular canal nerves induced by steps of velocity.(ABSTRACT TRUNCATED AT 400 WORDS)