STIMULATION EVOKED EYE MOVEMENTS WITH AND WITHOUT THE LATERAL RECTUS MUSCLE PULLEY

doi:10.1152/jn.00622.2003

STIMULATION EVOKED EYE MOVEMENTS WITH AND WITHOUT THE LATERAL RECTUS MUSCLE PULLEY

Diana M. Dimitrova¹^*, Mary S. Shall², and Stephen J. Goldberg¹

¹ Department of Anatomy and Neurobiology, Virginia Commonwealth University, MCV Campus, Richmond, VA, USA
² Department of Physical Therapy, Virginia Commonwealth University, MCV Campus, Richmond, VA, USA

^* To whom correspondence should be addressed. E-mail: ddimitr{at}vcu.edu.

Recent studies have suggested that extraocular muscle (EOM)pulleys, composed of collagen, elastin and smooth muscle, areamong the tissues surrounding the eye. High-resolution magneticresonance imaging appears to indicate that the pulleys serveto both constrain and alter the pulling paths of the EOMs. Theactive pulley hypothesis suggests that the orbital layer ofthe EOMs inserts on the pulley and serves to control it. Basedon anatomical data, the active pulley hypothesis also suggeststhat the orbital layer does not rotate the eye within the orbit;this is done by the global layer of the muscle (Demer et al2000). However, no physiological data exist to confirm thishypothesis. Here we used stimulation evoked eye movements inanesthetized monkeys and cats before and after destruction ofthe lateral rectus muscle pulley by removal of the lateral bonyorbit and adjacent orbital tissue. The absence of these structuresresulted in increased lateral, in the primate, and medial, inthe cat, eye movement amplitude and velocity. Vertical eye movementsin the cat were not significantly affected. The results indicatethat these increases, confined to horizontal eye movement amplitudeand velocity, may be attributed to passive properties withinthe orbit. In relation to the active pulley hypothesis, we coulddiscern no clear impact (in terms of amplitude or velocity profileof the movements) of lateral eye exposure that could be directlyattributable to the active lateral pulley system.

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