References
- Hunter J. The use of the oblique muscles. Observations on certain parts of the animal oeconomy. London 1789; 209–212
- Krejcova H., Highstein S., Cohen B. Labyrinthine and extralabyrinthine effects on ocular counter-rolling. Acta Otolaryngol (Stockh) 1971; 72: 165–71
- Biemond A., De Jong J. M. B. V. On cervical nystagmus and related disorders. Brain 1969; 92: 437–59
- Nelson J. R., Cope D. The otoliths and the ocular countertorsion reflex. Arch Otolaryngol 1971; 94: 40–50
- Dichgans J., Bizzi E., Morasso P., Tagliasco V. Mechanisms underlying recovery of eye-head coordination following bilateral labyrinthectomy in monkeys. Exp Brain Res 1973; 18: 548–62
- Collewijn H., Van der Steen J., Ferman L., Jansen T. C. Human ocular counterroll: assessment of static and dynamic properties from electromagnetic scleral coil recordings. Exp Brain Res 1985; 59: 185–96
- Miller E. F. Counterrolling of the human eyes produced by head tilt with respect to gravity. Acta Otolaryngol (Stockh) 1962; 54: 479–501
- Diamond S. G., Markham C. H., Simpson N. E., Curthoys I. S. Binocular counterrolling in humans during dynamic rotation. Acta Otolaryngol (Stockh) 1979; 87: 490–8
- Young L. R., Lichtenberg B. K., Arott A. P., Crites T. A., Oman C. M., Edelman E. R. Ocular torsion on earth and in weightlessness. Ann NY Acad Sci 1981; 374: 80–92
- Lichtenberg B. K., Young L. R., Arrott A. P. Human ocular counterrolling induced by varying linear accelerations. Exp Brain Res 1982; 48: 127–36
- Galoyan V. R., Zenking G. M., Petrov A. P. The investigations of torsional eye movements in man. 1. Some characteristics of the torsional movement during head tilting. Biofizika 1976; 21: 570–7
- Berthoz A., Melville Jones G., Bégué A. E. Differential visual adaptation of vertical canal-dependent vestibulo-ocuiar reflexes. Exp Brain Res 1981; 44: 19–26
- Diamond S. G., Markham C. H. Ocular counterrolling as an indicator of vestibular otolith function. Neurology 1983; 33: 1460–9
- Kellog R. S. Dynamic counterrolling of the eye in normal subjects and in persons with bilateral labyrinthine defects. NASA SP 1965; 77: 195–202
- Woellner R. C., Graybiel A. The loss of the counterrolling of the eyes in three persons presumably without functional otolith organs. Ann Otol (St Louis) 1960; 69: 1006–12
- Baumgarten R. V., Benson A., Berthoz A., Brandt T., Brand U., Bruzek W., Dichgans J., Kass J., Probst Scherer H., Vieville T., Vogel H., Wetzig J. Effects of rectilinear acceleration and optokinetic and caloric stimulations in space. Science 1984; 225: 208–11
- Van der Steen J., Collewijn H. Ocular stability in the horizontal, frontal and sagittal planes in the rabbit. Exp Brain Res 1984; 71: 1–12
- Melville Jones G., Berthoz A., Ségal B. Adaptative modification of the vestibulo-ocuiar reflex by mental effort in darkness. Exp Brain Res 1984; 56: 149–53
- Raphan T., Cohen B. Velocity storage and the ocular response to multidimensional vestibular stimuli. Adaptative mechanisms gaze control, Jones G. Melvill. Elsevier, New York 1985; 123–3
- Buizza A., Léger A., Droulez J., Berthoz A., Schmid R. Influence of otolithic stimulation by horizontal linear acceleration on optokinetic nystagmus and visual motion reception. Exp Brain Res 1980; 39: 165–76
- Robinson D. A. The use of matrices in analysing the three dimensional behaviour of the vestibulo-ocuiar reflex. Biol Cybern 1982; 46: 53–56
- Pellionisz A. Tensorial aspects of the multidimensional approach to the vestibulo-ocuiar reflex and gaze. Adaptive mechanisms in gaze control, A. Berthoz, Jones G. Melville. Elsevier, New York 1985; 223–32