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Method of Registering Human Torsional Eye Movements in Free Situations 1503
Belopol'sky V.I. PhD in Psychology, Head of Section at the Institute of Psychology, Russian Academy of Science, Moscow, Russia e-mail: vbelop@cogito-centre.com
General design and technical details of the new photoJelectrical method for human torsional eye movements measurement are described. The source of polarized light is rigidly connected to the subject's head, as the receiver equipped by polarized filter is attached directly to the eye ball by means of central suction cup and transmitted the light energy into electrical one. This device allows to measure eye torsion under free behavior condition what was confirmed in laboratory and natural experiments. The results showed
high sensitivity of the method and its ability to record a wide range of torsional eye movements.
Keywords: eye movements, human torsion, methods of measurement, vestibule-ocular reflex
Column: Research Methods
- Belopol'skij V. I., Vergiles N. Yu. Fotoelektricheskij metod registratsii
rotatornyh dvizhenij glaz cheloveka (Photoelectric method of human eyes
rotational movements registration) // Kosmicheskaya biologiya i
aviakosmicheskaya meditsina. (Space biology and aerospace medicine) 1990.
T. 24. № 5. S. 51–53.
- Levashov M. M., Dmitrieva A. V. Sposob registratsii
rotatornykh refleksov glaz (Method of rotational eye reflexes
registration) // Kosmicheskaya biologiya. (Space biology) 1981. T. 15. № 6. S.
80–82.
- Barany R. Über die vom Ohrlabyrinth ausgelaste Gegenrollung der
Augen bei ormalhörenden,
Ohrenkranken und Taubstummen // Arch. für Ohrenheilk. 1906. B.68. S. 1–30.
- Boeder P. The coJoperative action of extraocular muscles // Br. J.
Ophthalmol. 1957. V. 46. P. 397–403.
- Collewijn H., Van der Mark F., Jansen T. C. Precise recording of
the eye movements // Vision Res. 1975. V. 15. P. 447–450.
- Delage Y. Sur le mouvements de torsion de l’oeil pendant la
rotation de la tлte // Ann. d’Oculist. 1903. V. 130 P. 180–186.
- Diamond S. G., Markham C. H., Simpson N. E, Curthoys I. S.
Binocular counterrolling in humans during dynamic rotation // Acta Otolaryngol.
1979. V. 87. P. 490–501.
- Diamond S. G., Markham C. H., Furaya N. Binocular counterrolling
during sustained body tilt in normal humans and in a patient with unilateral
vestibular nerve section // Ann. Otolaryngol. 1982. V. 91. P. 225–229.
- Edelman E. R. Video based monitoring of torsional eye movements.
M. S. Thesis, MIT. 1979.
Donders F. C. Über das Gesetz der Lage der Netzhaut in Beziehung zu der der
Blickebene // Alb. von Graefes Arch. für Ophth. 1875. V. 21. P. 125–130.
- Ferman L., Collewijn H., Van den Berg A. V. A direct test of
Listing’s law. I. Human ocular torsion measured in static tertiary positions //
Vision Res. 1987a. V. 27. P. 929–938.
- Ferman L., Collewijn H., Van den Berg A. V. (1987b) A direct test
of Listing’s law. II. Human ocular torsion measured under dynamic conditions.
Vision Res V. 27. P. 939–951.
- Ferman L., Collewijn H., Jansen T. C., Van den Berg A. V. Human
gaze stability in the horizontal, vertical and torsional directions during
voluntary head movements, evaluated with a threeJdimensional scleral induction
coil technique // Vision Res. 1987. V. 27. P. 811–828.
- Fick A. Die Bewegungen des menschlichen Auges // Z. für rationelle
Medizin. 1854. V. 4. P. 101–128.
- Fluur E. A comparison between subjective and objective recording
of ocular counterJrolling as a result of tilting // Acta Otolaryngol. 1975. V.
79. P. 111–114.
- Hatamian M., Anderson D. J. Design considerations for a realJtime
ocular counterroll instrument // IEEE Trans Biomed Engin. 1983. V. 30. P.
278–288.
- Howard I. P. Human Visual Orientation. New York, 1982.
- Howard I. P., Evans J. A. The measurement of the eye torsion //
Vision Res. 1963. V. 3. P. 447–455.
- Hunter J. The use of the oblique muscles // Observations on
certain parts of the animal economy. 1786. London. Second edition (1792),
quoted by Nagel (1871).
- Kamada O., Stao K., Kitamuro S., Nakamuro H. Two automatic methods
of measuring the counterrolling of human eyes. Digest of 11th International
Conference on Medical and Biomedial engineering. 1976. Ohawa, P. 510–511.
- Kellogg R. S. Dynamic counterrolling of the eye in normal subjects
and in persons with bilateral labyrinthine defects // The Role of the
Vestibular Organs in Space Explorations. NASA, SP–65. 1965.
- Kertesz A. E., Jones R. W. The effect of angular velocity of
stimulus on human torsional eye movements // Vision Res. 1969. V. 9. P.
995–998.
- Krejcová H., Highstein S., Cohen B. Labyrinthine and
extraJlabyrinthine effects on ocular counterrolling // Acta Otolaryngol. 1971.
V. 72. P. 165–171.
- Matin L., Pearce D. G. Three dimentional recording of eye
movements by a contactJlens technique // Biomed. Sci. Instr. 1964. V. 2. P.
79–95.
- Miller E. F. Counterrolling of the human eyes produced by head
tilt with respect to gravity // Acta Otolaryngol. 1962. V. 54. P. 479–501.
- Mittelstaedt H. A new solution of the problem of the subjective
vertical // Naturwissenschaften 1983. V. 70. P. 272–281.
- Mulder M. E. De la rotation compensatoire de l’oeil en cas
d’inclinaison а droite ou а gauche de la täte // Arch. d’Ophthal. 1897. V. 17.
P. 1–10.
- Petrov A. P., Zenkin G. M. Torsional eye movements and constancy
of the visual field // Vision Res. 1973. V. 13 P. 2465–2477.
- Robinson D. A. A method of measuring eye movements using a scleral
search coil in a magnetic field // IEEE Trans. 1963. BMEJ10. P. 137–145.
- Tweed D., Sieverig H., Misslisch H., Fetter M., Zee D., Koenig E.
Rotational kinematics of the human vestibuloocular reflex. I. Gain matrices //
J Neurophysiol. 1994. V. 7. P. 2467–2479.
- Vieville T., Masse D. Ocular counterJrolling during active head
tilt in humans // Acta Otolaryngol. 1987. V. 103. P. 280–290.
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