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Experimental Brain Research

Erschienen in:

01.09.2005 | Research Article

Vestibular and non-vestibular contributions to eye movements that compensate for head rotations during viewing of near targets

verfasst von: Yanning H. Han, Arun N. Kumar, Millard F. Reschke, Jeffrey T. Somers, Louis F. Dell’Osso, R. John. Leigh

Erschienen in: Experimental Brain Research | Ausgabe 3/2005

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Abstract

Geometry dictates that when subjects view a near target during head rotation the eyes must rotate more than the head. The relative contribution to this compensatory response by adjustment of the vestibulo-ocular reflex gain (Gvor), visual tracking mechanisms including prediction, and convergence is debated. We studied horizontal eye movements induced by sinusoidal 0.2–2.8 Hz, en-bloc yaw rotation as ten normal humans viewed a near target that was either earth-fixed (EFT) or head-fixed (HFT). For EFT, group median gain was 1.49 at 0.2 Hz declining to 1.08 at 2.8 Hz. For HFT, group median gain was 0.03 at 0.2 Hz increasing to 0.71 at 2.8 Hz. By applying transient head perturbations (peak acceleration >1,000° s⁻²) during sinusoidal rotation, we determined that Gvor was similar during either EFT or HFT conditions, and contributed only ~75% to the compensatory response. We confirmed that retinal image slip contributed to the compensatory response by demonstrating reduced gain during EFT viewing under strobe illumination. Gain also declined during sum-of-sines head rotations, confirming the contribution of predictive mechanisms. The gain of compensatory eye movements was similar during monocular or binocular viewing, although vergence angle was greater during binocular viewing. Comparison with previous studies indicates that mechanisms for generation of eye rotations during near viewing depend on head stimulus type (rotation or translation), waveform (transient or sinusoidal), and the species being tested.

Angelaki DE (2004) Eyes on target: what neurons must do for the vestibuloocular reflex during linear motion. J Neurophysiol 92:20–35PubMed

Aw ST, Haslwanter T, Halmagyi GM, Curthoys IS, Yavor RA, Todd MJ (1996) Three-dimensional vector analysis of the human vestibuloocular reflex in response to high-acceleration head rotations I. Responses in normal subjects. J Neurophysiol 76:4009–4020PubMed

Barnes GR (1993) Visual-vestibular interaction in the control of head and eye movement: the role of visual feedback and predictive mechanisms. Prog Neurobiol 41:435–472PubMed

Barnes GR, Barnes DM, Chakraborti SR (2000) Ocular pursuit to repeated, single-cycle sinusoids reveals behavior compatible with predictive pursuit. J Neurophysiol 84:2340–2355PubMed

Biguer B, Prablanc C (1981) Modulation of the vestibulo-ocular reflex in eye-head orientation as a function of target distance in man. In: Fuchs AF, Becker W (eds) Progress in oculomotor research. Elsevier, Amsterdam, pp 525–530

Blakemore C, Donaghy M (1980) Co-ordination of head and eyes in the gaze changing behavior of cats. J Physiol 300:317–335PubMed

Cannon SC, Leigh RJ, Zee DS, Abel L (1985) The effect of the rotational magnification of corrective spectacles on the quantitative evaluation of the VOR. Acta Otolaryngol (Stockholm) 100:81–88

Carl JR, Gellman RS (1987) Human smooth pursuit: stimulus-dependent responses. J Neurophysiol 57:1446–1463PubMed

Carpenter RHS (1991) The visual origins of ocular motility. In: Cronly-Dillon JR (ed) Vision and visual function. MacMillan Press, London, pp 1–10

Collewijn H, Smeets JB (2000) Early components of the human vestibulo-ocular response to head rotation: latency and gain. J Neurophysiol 84:376–389PubMed

Crane BT, Demer JL (1997) Human gaze stabilization during natural activities: translation, rotation, magnification, and target distance effects. J Neurophysiol 78:2129–2144PubMed

Crane BT, Demer JL (1998) Human horizontal vestibulo-ocular reflex initiation: effects of acceleration, target distance, and unilateral deafferentation. J Neurophysiol 80:1151–1166PubMed

Crane BT, Demer JL (1999) Latency of voluntary cancellation of the human vestibulo-ocular reflex during transient yaw rotation. Exp Brain Res 127:67–74PubMed

Crane BT, Viirre ES, Demer JL (1997) The human horizontal vestibulo-ocular reflex during combined linear and angular acceleration. Exp Brain Res 114:304–320PubMed

Cullen KE, Roy JE (2004) Signal processing in the vestibular system during active versus passive head movements. J Neurophysiol 91:1919–1933PubMed

Dallos PJ, Jones RW (1963) Learning behavior of the eye fixation control system. IEEE Trans Autom Contr AC-8:218–227CrossRef

Das VE, Leigh RJ, Thomas CW, Averbuch-Heller L, Zivotofsky AZ, DiScenna AO, Dell’Osso LF (1995a) Modulation of high-frequency vestibulo-ocular reflex during visual tracking in humans. J Neurophysiol 74:624–632

Das VE, Zivotofsky AZ, DiScenna AO, Leigh RJ (1995b) Head perturbations during walking while viewing a head-fixed target. Aviat Space Environ Med 66:728–732

Gellman RS, Carl JR, Miles FA (1990) Short latency ocular-following responses in man. Vis Neurosci 5:107–122PubMed

Grossman GE, Leigh RJ, Abel LA, Lanska DJ, Thurston SE (1988) Frequency and velocity of rotational head perturbations during locomotion. Exp Brain Res 70:470–476PubMed

Grossman GE, Leigh RJ, Bruce EN, Lanska DJ, Huebner WP (1989) Human vestibulo-ocular reflex during locomotion. J Neurophysiol 62:264–272PubMed

Han Y, Somers JT, Kim J-I, Kumar AN, Leigh RJ (2001) Ocular responses to head rotation during mirror-viewing. J Neurophysiol 86:2323–2329PubMed

Han Y, Kumar AN, Leigh RJ (2004) Test of a superposition model of the interaction between vestibular and vergence systems using a parameter estimation technique. Soc Neurosci Abstract 411.11

Han Y, Kumar AN, Somers JT, Reschke MF, Leigh RJ (2005) Effects of retinal image slip on modulation of visual-vestibulo-ocular reflex during near-viewing. Ann NYAcad Sci 1039:(in press)

Hine T, Thorn F (1987) Compensatory eye movements during active head rotation for near targets: effects of imagination, rapid head oscillation and vergence. Vis Res 27(9):1639–1657PubMed

Huebner WP, Leigh RJ, Seidman SH, Thomas CW, Billian C, DiScenna AO, Dell’Osso LF (1992) Experimental tests of a superposition hypothesis to explain the relationship between the vestibuloocular reflex and smooth pursuit during horizontal combined eye-head tracking in humans. J Neurophysiol 68:1775–1792PubMed

J.C. (1952) Living without a balancing mechanism. N Engl J Med 246:458–460PubMed

Leigh RJ, Zee DS (1999) The neurology of eye movements, 3rd edn. Oxford University Press, NY

Lisberger SG, Evinger C, Johanson GW, Fuchs AF (1981) Relationship between eye acceleration and retinal image velocity during foveal smooth pursuit in man and monkey. J Neurophysiol 46:229–249PubMed

Maas EF, Huebner WP, Seidman SH, Leigh RJ (1989) Behavior of human horizontal vestibulo-ocular reflex in response to high-acceleration stimuli. Brain Res 499:153–156PubMed

McCrea RA, Luan H (2003) Signal processing of semicircular canal and otolith signals in the vestibular nuclei during passive and active head movements. Ann NY Acad Sci 1004:169–182PubMed

Melvill Jones G, Mandl G (1981) Motion sickness due to vision reversal: its absence in stroboscopic light. Ann NY Acad Sci 374:303–311PubMed

Migliaccio AA, Minor LB, Carey JP (2004) Vergence-mediated modulation of the human vestibulo-ocular reflex is eliminated by a partial peripheral gentamicin lesion. Exp Brain Res 159:92–98PubMed

Paige GD (1994) Senescence of human visual-vestibular interactions: smooth pursuit, optokinetic, and vestibular control of eye movements with aging. Exp Brain Res 98:355–372PubMed

Paige GD, Telford L, Seidman SH, Barnes GR (1998) Human vestibuloocular reflex and its interactions with vision and fixation distance during linear and angular head movement. J Neurophysiol 80:2391–2404PubMed

Ramat S, Somers JT, Das VE, Leigh RJ (1999) Conjugate ocular oscillations during shifts of the direction and depth of visual fixation. Invest Ophthalmol Vis Sci 40:1681–1686PubMed

Snyder LH, King WM (1992) Effect of viewing distance and the location of the axis of rotation on the monkey’s vestibulo-ocular reflex (VOR). I. Eye movement responses. J Neurophysiol 67:861–874PubMed

Snyder LH, Lawrence DW, King WM (1992) Changes in vestibulo-ocular reflex(VOR) anticipate changes in vergence angle in monkey. Vision Res 32:569–575PubMed

Viirre E, Tweed D, Milner K, Vilis T (1986) A reexamination of the gain of the vestibuloocular reflex. J Neurophysiol 56:439–450PubMed

Wei M, DeAngelis DC, Angelaki DE (2003) Do visual cues contribute to the neural estimate of viewing distance used by the oculomotor system? J Neurosci 23:8340–8350PubMed

Titel: Vestibular and non-vestibular contributions to eye movements that compensate for head rotations during viewing of near targets
verfasst von: Yanning H. Han
Arun N. Kumar
Millard F. Reschke
Jeffrey T. Somers
Louis F. Dell’Osso
R. John. Leigh
Publikationsdatum: 01.09.2005
Verlag: Springer-Verlag
Erschienen in: Experimental Brain Research / Ausgabe 3/2005
Print ISSN: 0014-4819
Elektronische ISSN: 1432-1106
DOI: https://doi.org/10.1007/s00221-005-2305-y

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