Adaptation of Saccadic Eye Movements: Transfer and Specificity

doi:10.1196/annals.1303.008

The present study was designed to test whether the adaptationof saccadic eye movements depends only on the eye displacementvector of the trained saccade or also on eye position information.Using the double-step target paradigm in eight human subjects,we first induced in a single session two "opposite directionsadaptations" (ODA) of horizontal saccades of the same vector.Each ODA (backward or forward) was linked to one vertical eyeposition (12.5° up or 25° down) and alternated fromtrial to trial. The results showed that opposite changes ofsaccade amplitude can develop simultaneously, indicating thatsaccadic adaptation depends on orbital eye position. This findinghas important functional implications because in everyday lifeour eyes saccade from constantly changing orbital positions.A comparison of these data to two control conditions in whichtraining trials of a single type (backward or forward) werepresented at both 12.5° and -25° eye elevations furtherindicated that eye position specificity is complete for backward,but not for forward, adaptation. Finally, the control conditionsalso indicated that the adaptation of a single saccade fullytransferred to untrained saccades of the same vector, but initiatedfrom different vertical eye positions. In conclusion, our studyindicates that saccadic adaptation mechanisms use vectorialeye displacement signals, but can also take eye position signalsinto account as a contextual cue when the training involvesconflicting saccade amplitude changes.

				H. Awater, D. Burr, M. Lappe, M. C. Morrone, and M. E. Goldberg Effect of Saccadic Adaptation on Localization of Visual Targets J Neurophysiol, June 1, 2005; 93(6): 3605 - 3614. [Abstract] [Full Text] [PDF]