RT Journal Article SR Electronic T1 Prism Adaptation of Reaching Movements: Specificity for the Velocity of Reaching JF The Journal of Neuroscience JO J. Neurosci. FD Society for Neuroscience SP 1481 OP 1492 DO 10.1523/JNEUROSCI.17-04-01481.1997 VO 17 IS 4 A1 Kitazawa, Shigeru A1 Kimura, Tatsuya A1 Uka, Takanori YR 1997 UL http://www.jneurosci.org/content/17/4/1481.abstract AB Accurate reaching toward a visual target is disturbed after the visual field is displaced by prisms but recovers with practice. When the prisms are removed, subjects misreach in the direction opposite to the prism displacement (aftereffect). The present study demonstrated that the severity of the aftereffect depends on the velocity of the movements during and after the visual displacement. Trained subjects were required to reach with one of four movement durations (<300, ∼800, ∼2000, and ∼5000 msec) from a fixed starting point to a target that appeared at a random location on a tangent screen (400 mm away). The size of the aftereffect was largest when the movement after the removal was performed with the same duration as that performed with the prisms. It became smaller as the difference in velocity became larger. When the contralateral arm was used after visual displacement, the aftereffect was never significant. Because the adaptation does not generalize across velocities or to the other arm, we infer that the underlying changes occur at a later stage in the transformation from visual input to motor output, in which not only the direction but also the time-dependent parameters of movements, such as velocity, acceleration or force, are represented.