Three-dimensional vector analysis of the human vestibuloocular reflex in response to high-acceleration head rotations. I. Responses in normal subjects

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Three-dimensional vector analysis of the human vestibuloocular reflex in response to high-acceleration head rotations. I. Responses in normal subjects

S. T. Aw, T. Haslwanter, G. M. Halmagyi, I. S. Curthoys, R. A. Yavor and M. J. Todd
Neurology Department, Royal Prince Alfred Hospital, Sydney, Camperdown, NSW, Australia.

1. The kinematics of the human angular vestibuloocular reflex (VOR) in three dimensions was investigated in 12 normal subjects during high-acceleration head rotations (head "impulses"). A head impulse is a passive, unpredictable, high-acceleration (3,000-4,000 degrees/s2) head rotation of approximately 10-20 degrees in roll, pitch, or yaw, delivered with the subject in the upright position and focusing on a fixation target. Head and eye rotations were measured with dual search coils and expressed as rotation vectors. The first of these two papers describes a vector analysis of the three-dimensional input-output kinematics of the VOR as two indexes in the time domain: magnitude and direction. 2. Magnitude is expressed as speed gain (G) and direction as misalignment angle (delta). G is defined as the ratio of eye velocity magnitude (eye speed) to head velocity magnitude (head speed). delta is defined as the instantaneous angle by which the eye rotation axis deviates from perfect alignment with the head rotation axis in three dimensions. When the eye rotation axis aligns perfectly with the head rotation axis and when eye velocity is in a direction opposite to head velocity, delta = 0. The orientation of misalignment between the head and the eye rotation axes is characterized by two spatial misalignment angles, which are the projections of delta onto two orthogonal coordinate planes that intersect at the head rotation axis. 3. Time series of G were calculated for head impulses in roll, pitch, and yaw. At 80 ms after the onset of an impulse (i.e., near peak head velocity), values of G were 0.72 +/- 0.07 (counterclockwise) and 0.75 +/- 0.07 (clockwise) for roll impulses, 0.97 +/- 0.05 (up) and 1.10 +/- 0.09 (down) for pitch impulses, and 0.95 +/- 0.06 (right) and 1.01 +/- 0.07 (left) for yaw impulses (mean +/- 95% confidence intervals). 4. The eye rotation axis was well aligned with head rotation axis during roll, pitch, and yaw impulses: delta remained almost constant at approximately 5-10 degrees, so that the spatial misalignment angles were < or = 5 degrees. delta was 9.6 +/- 3.1 (counterclockwise) and 9.0 +/- 2.6 (clockwise) for roll impulses, 5.7 +/- 1.6 (up) and 6.1 +/- 1.9 (down) for pitch impulses, and 6.2 +/- 2.2 (right) and 7.9 +/- 1.5 (left) for yaw impulses (mean +/- 95% confidence intervals). 5. VOR gain (gamma) is the product of G and cos(delta). Because delta is small in normal subjects, gamma is not significantly different from G. At 80 ms after the onset of an impulse, gamma was 0.70 +/- 0.08 (counterclockwise) and 0.74 +/- 0.07 (clockwise) for roll impulses, 0.97 +/- 0.05 (up) and 1.09 +/- 0.09 (down) for pitch impulses, and 0.94 +/- 0.06 (right) and 1.00 +/- 0.07 (left) for yaw impulses (mean +/- 95% confidence intervals). 6. VOR latencies, estimated with a latency shift method, were 10.3 +/- 1.9 (SD) ms for roll impulses, 7.6 +/- 2.8 (SD) ms for pitch impulses, and 7.5 +/- 2.9 (SD) ms for yaw impulses. 7. We conclude that the normal VOR produces eye rotations that are almost perfectly compensatory in direction as well as in speed, but only during yaw and pitch impulses. During roll impulses, eye rotations are well aligned in direction, but are approximately 30% slower in speed.

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				S. T. Aw, M. J. Todd, G. E. Aw, J. S. Magnussen, I. S. Curthoys, and G. M. Halmagyi Click-evoked vestibulo-ocular reflex: Stimulus-response properties in superior canal dehiscence Neurology, April 11, 2006; 66(7): 1079 - 1087. [Abstract] [Full Text] [PDF]

				P Jombik and V Bahyl Short latency disconjugate vestibulo-ocular responses to transient stimuli in the audio frequency range J. Neurol. Neurosurg. Psychiatry, October 1, 2005; 76(10): 1398 - 1402. [Abstract] [Full Text] [PDF]

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				S. Glasauer, H. von Lindeiner, C. Siebold, and U. Buttner Vertical vestibular responses to head impulses are symmetric in downbeat nystagmus Neurology, August 24, 2004; 63(4): 621 - 625. [Abstract] [Full Text] [PDF]

				R. Kalla, S. Glasauer, F. Schautzer, N. Lehnen, U. Buttner, M. Strupp, and T. Brandt 4-Aminopyridine improves downbeat nystagmus, smooth pursuit, and VOR gain Neurology, April 13, 2004; 62(7): 1228 - 1229. [Full Text] [PDF]

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				A. A. Migliaccio, G. M. Halmagyi, L. A. McGarvie, and P. D. Cremer Cerebellar ataxia with bilateral vestibulopathy: description of a syndrome and its characteristic clinical sign Brain, February 1, 2004; 127(2): 280 - 293. [Abstract] [Full Text] [PDF]

				S. T. Aw, M. J. Todd, L. A. McGarvie, A. A. Migliaccio, and G. M. Halmagyi Effects of Unilateral Vestibular Deafferentation on the Linear Vestibulo-Ocular Reflex Evoked by Impulsive Eccentric Roll Rotation J Neurophysiol, February 1, 2003; 89(2): 969 - 978. [Abstract] [Full Text] [PDF]

				S. B. Yakushin, T. Raphan, and B. Cohen Gravity-Specific Adaptation of the Angular Vestibuloocular Reflex: Dependence on Head Orientation With Regard to Gravity J Neurophysiol, January 1, 2003; 89(1): 571 - 586. [Abstract] [Full Text] [PDF]

				C. C. Della Santina, P. D. Cremer, J. P. Carey, and L. B. Minor Comparison of Head Thrust Test With Head Autorotation Test Reveals That the Vestibulo-ocular Reflex Is Enhanced During Voluntary Head Movements Arch Otolaryngol Head Neck Surg, September 1, 2002; 128(9): 1044 - 1054. [Abstract] [Full Text] [PDF]

				M. Huterer and K. E. Cullen Vestibuloocular Reflex Dynamics During High-Frequency and High-Acceleration Rotations of the Head on Body in Rhesus Monkey J Neurophysiol, July 1, 2002; 88(1): 13 - 28. [Abstract] [Full Text] [PDF]

				S. T. Aw, M. Fetter, P. D. Cremer, M. Karlberg, and G. M. Halmagyi Individual semicircular canal function in superior and inferior vestibular neuritis Neurology, September 11, 2001; 57(5): 768 - 774. [Abstract] [Full Text] [PDF]

				M. J. Thurtell, M. Kunin, and T. Raphan Role of Muscle Pulleys in Producing Eye Position-Dependence in the Angular Vestibuloocular Reflex: A Model-Based Study J Neurophysiol, August 1, 2000; 84(2): 639 - 650. [Abstract] [Full Text] [PDF]

				H. Collewijn and J. B. J. Smeets Early Components of the Human Vestibulo-Ocular Response to Head Rotation: Latency and Gain J Neurophysiol, July 1, 2000; 84(1): 376 - 389. [Abstract] [Full Text] [PDF]

				L. B. Minor, D. M. Lasker, D. D. Backous, and T. E. Hullar Horizontal Vestibuloocular Reflex Evoked by High-Acceleration Rotations in the Squirrel Monkey. I. Normal Responses J Neurophysiol, September 1, 1999; 82(3): 1254 - 1270. [Abstract] [Full Text] [PDF]

				M. J. Thurtell, R. A. Black, G. M. Halmagyi, I. S. Curthoys, and S. T. Aw Vertical Eye Position-Dependence of the Human Vestibuloocular Reflex During Passive and Active Yaw Head Rotations J Neurophysiol, May 1, 1999; 81(5): 2415 - 2428. [Abstract] [Full Text] [PDF]

ARTICLES

Three-dimensional vector analysis of the human vestibuloocular reflex in response to high-acceleration head rotations. I. Responses in normal subjects

				S. B. Yakushin, T. Raphan, J.-I. Suzuki, Y. Arai, and B. Cohen Dynamics and Kinematics of the Angular Vestibulo-Ocular Reflex in Monkey: Effects of Canal Plugging J Neurophysiol, December 1, 1998; 80(6): 3077 - 3099. [Abstract] [Full Text] [PDF]