Off-Centric Rotation Axes in Natural Head Movements: Implications for Vestibular Reafference and Kinematic Redundancy

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Off-Centric Rotation Axes in Natural Head Movements: Implications for Vestibular Reafference and Kinematic Redundancy

W. P. Medendorp¹, B.J.M. Melis², C.C.A.M. Gielen¹, and J.A.M. Van Gisbergen¹

¹ Department of Medical Physics and Biophysics, University of Nijmegen, NL 6525 EZ Nijmegen; and ² Visio, Regionale Instelling Noord, NL 9752 AC Haren, The Netherlands

Medendorp, W. P., B.J.M. Melis, C.C.A.M. Gielen, and J.A.M. Van Gisbergen. Off-centric rotation axes in natural headmovements: implications for vestibular reafference and kinematicredundancy. J. Neurophysiol. 79: 2025-2039, 1998. Until now, moststudies concerning active head movements in three dimensions haveused the classical rotation vector description. Although thisdescription yields both the orientation of the head rotation axisand the amount of rotation, it is incomplete because it cannotspecify the location of this rotation axis in space. The latteris of importance for a proper picture of the vestibular consequencesof active head movements and has relevance for the problem ofhow the brain deals with the inherent kinematic redundancy ofthe multijoint head-neck system. With this in mind, we have extendedthe rotation vector description by applying the helical axes approach,which yields both the classical rotation vector as well as thelocation of the rotation axis in space. Subjects (n = 7), whosehead movements were recorded optically, were instructed to shiftgaze naturally to targets in 12 different directions at an eccentricityof 40°. The results demonstrate that the axes for these head movementsoccupy consistently different spatial locations. For purely horizontalmovements, the rotation axis is located near a point midway betweenthe two ear canals. For gaze shifts in other directions, the rotationaxes are located below the ear canals along two circles, one formovements with an upward component (up circle), the other (typicallylarger in size) for movements with a downward component (downcircle). Purely vertical movement (up and down) axes were locatedon the lower pole of the up and down circles, respectively. Itwas found that both circles, the upper poles of which coincided,became larger in size as movement amplitude increased, which meansthat the axis location shifts to lower and more eccentric locationswith respect to the skull for larger flexion and extension movements.Although this pattern could be recognized in most subjects, therewere consistent intersubject differences in the absolute sizeof the circles, their increase with movement amplitude, and inthe relative sizes of the up and down circles. Because multiplevertebrae are involved in head movements, there are theoreticallymany possibilities to execute a certain head movement. The differencesin circle patterns among subjects indicate different strategiesin resolving this kinematic redundancy problem, a fact that wasnot apparent from the classical rotation vector part of our description,which yielded a rather uniform picture. A simple model suggeststhat the downward shift of the location of the rotation axis requiresa modulation in vestibulo-ocular reflex gain of $<=$ 10% to maintainfixation of a near target during vertical head movement. The involvementof the otolith system in this process remains to be determined.

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