Neural Constraints on Eye Motion in Human Eye-Head Saccades

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Neural Constraints on Eye Motion in Human Eye-Head Saccades

H. Misslisch¹, D. Tweed¹^,²^,³, and T. Vilis²

¹ Department of Neurology, University of Tübingen, 72076 Tubingen, Germany; and ² Department of Physiology and ³ Department of Applied Mathematics, University of Western Ontario, London, Ontario N6A 5C1, Canada

Misslisch, H., D. Tweed, and T. Vilis. Neural constraints on eye motion in human eye-head saccades. J. Neurophysiol.79: 859-869, 1998. We examined two ways in which the neural controlsystem for eye-head saccades constrains the motion of the eyein the head. The first constraint involves Listing's law, whichholds ocular torsion at zero during head-fixed saccades. Duringeye-head saccades, does this law govern the eye's motion in spaceor in the head? Our subjects, instructed to saccade between space-fixedtargets with the head held still in different positions, systematicallyviolated Listing's law of the eye in space in a way that approximately,but not perfectly, preserved Listing's law of the eye in head.This finding implies that the brain does not compute desired eyeposition based on the desired gaze direction alone but also considershead position. The second constraint we studied was saturation,the process where desired-eye-position commands in the brain are"clipped" to keep them within an effective oculomotor range (EOMR),which is smaller than the mechanical range of eye motion. We studiedthe adaptability of the EOMR by asking subjects to make head-onlysaccades. As predicted by current eye-head models, subjects failedto hold their eyes still in their orbits. Unexpectedly, though,the range of eye-in-head motion in the horizontal-vertical planewas on average 31% smaller in area than during normal eye-headsaccades, suggesting that the EOMR had been reduced by effortof will. Larger reductions were possible with altered visual input:when subjects donned pinhole glasses, the EOMR immediately shrankby 80%. But even with its reduced EOMR, the eye still moved intothe "blind" region beyond the pinhole aperture during eye-headsaccades. Then, as the head movement brought the saccade targettoward the pinhole, the eyes reversed their motion, anticipatingor roughly matching the target's motion even though it was stilloutside the pinhole and therefore invisible. This finding showsthat the backward rotation of the eye is timed by internal computations,not by vision. When subjects wore slit glasses, their EOMRs shrankmostly in the direction perpendicular to the slit, showing thataltered vision can change the shape as well as the size of theEOMR. A recent, three-dimensional model of eye-head coordinationcan explain all these findings if we add to it a mechanism foradjusting the EOMR.

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