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Tytuł artykułu

Neuroinformatic modelling of oculomotor system

Autorzy
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Neuroinformatics is a new branch of science that uses informatics tools to modelling some parts of neural system. This paper presents several models related to oculomotor system, both educational and research models. Most of the models presented in this paper are our own work. The educational models created for medical purposes demonstrate interactively the effects of damage to different neuronal structures and also simulate disorders of eyeball movement dynamics and synchronization in various diseases. The research models may find application both in clinical tests and in experimental study.
Słowa kluczowe
Rocznik
Strony
51--58
Opis fizyczny
Bibliogr. 30 poz., rys., tab., zdj.
Twórcy
autor
  • Department of Bioinformatics and Telemedicine, Jagiellonian University, Medical College, Kopernika 7, 31-034 Krakow
Bibliografia
  • 1. Karatekin C, 2007, Eye tracking studies of normative and atypical development, Developmental Review 27,283-348.
  • 2. Leigh J., Zee D., 2006, The neurology of eye movements, Oxford University Press.
  • 3. Jacobsen L. K., Hong W. L, Hommer D. W., Hamburger S. D., Castellanos F. X., Frazier J. A., et al., 1996, Smooth pursuit eye movements in childhood-onset schizophrenia: Comparison with attention-deficit hyperactivity disorder and normal controls, Biological Psychiatry, 40, 1144-1154.
  • 4. Holzman P. S., 2000, Eye movements and the search for the essence of schizophrenia, Brain Research Reviews, 31, 350-356.
  • 5. Broerse A., Crawford T. J., den Boer J. A., 2001, Parsing cognition in schizophrenia using saccadic eye movements: A selective overview, Neuropsychologia, 39, 742-756.
  • 6. Avila M. T, Hong E., Moates A., Turano K. A., Thaker G. K., 2006, Role of anticipation in schizophrenia-related pursuit initiation deficits, Journal of Neurophysiology, 95, 593-601. Levy D., Holzman R., Matthyse S., Mendeil N., 1993, Eye tracking dysfunction and schizophrenia: a critical perspective, Schizophr. Buli., 19, 3,461- 536.
  • 7. Dalton K. M., Nacewicz B. M., Johnstone T., Schaefer H. S., Gernsbacher M. A, Goldsmith H. H., et al., 2005, Gaze fixation and the neural circuitry of face processing in autism, Nature Neuroscience, 8, 519-526.
  • 8. Hodgson T. L, Tiesman B., Owen A. M., Kennard C, 2002, Abnormal gaze strategies during problem solving in Parkinson's disease, Neuropsychologia, 40, 411-422.
  • 9. Fischer B., Hartnegg K., 2000, Effects of visual training on saccade control in dyslexia, Perception, 29, 531-542.
  • 10. Karatekin C, 2006, Improving antisaccade performance in adolescents with Attention-Deficit/Hyperactivity Disorder (ADHD), Experimental Brain Research, 174, 324-341.
  • 11. Lasslo R., Henderson G., and Keltner J., Eye Simulator version 2.0, UC Davis School of Medicine, http://cim.ucdavis.edu/EyeRelease/
  • 12. Quaia C, Optican L. M, 1997, Model With Distributed Vectorial Premotor Bursters Accounts for the Component Stretching of Oblique Saccades, J. Neurophysiol., 78:1120-1134.
  • 13. Ansgar Koene, http://arkoene.googlepages.com/matlabscripts
  • 14. Krauzlis R. J., 2005, The Control of Voluntary Eye Movements: New Perspectives, Neuroscientist, 11(2): 124-137.
  • 15. Becker W., 1989, The neurobiology of saccadic eye movements (eds Wurtz and Goldberg), Elsevier, Amsterdam.
  • 16. Hoffman J. E. & Subramaniam B., 1995, The role of visual attention in saccadic eye movements, Perception and Psychophysics, 57, 787-795.
  • 17. Walecki P., 2007, Neurofizjologia ruchu gałek ocznych (Neurophysiology of eye movement), Episteme, 4/2007, 159-176.
  • 18. Kien J., McCrohan C. R., Winlow W., 1992, Neurobiology of Motor Programme Selection, Elsevier Science Pub Co.
  • 19. Shadmehr R., Wise S. P., 2005, The Computational Neurobiology of Reaching and Pointing: A Foundation for Motor Learning, The MIT Press.
  • 20. Arbib M. A. (Ed.), Grethe J. S. (Ed.), 2001, Computing the Brain: A Guide to Neuroinformatics, Academic Press.
  • 21. Moss F. (Ed.), Gielen S. (Ed.), 2001, Neuro-informatics and Neural Modelling, North Holland.
  • 22. Scudder C. A., Kaneko C. S., Fuchs A. F., 2002, The brain-stem burst generator a modern synthesis, Exp. Brain Res., 142,439-62.
  • 23. Becker W., 1989, The neurobiology of saccadic eye movements (eds Wurtz and Goldberg), Elsevier, Amsterdam.
  • 24. Karatekin C, 2007, Eye tracking studies of normative and atypical development, Developmental Review 27, 283-348.
  • 25. Krauzlis R. J., 2005, The Control of Voluntary Eye Movements: New Pers 38. pectives, Neuroscientists, 11(2): 124-137.
  • 26. Missal M., Heinen S. J., 2004, Supplementary eye fields stimulation facilitates anticipatory pursuit, J. Neurophysiol, 92:1257-62.
  • 27. Schiller P. H., Chou I. H., 1998, The effects of frontal eye field and dorsomedial frontal cortex lesions on visually guided eye movements, Nat. Neurosci., 1:248-53.
  • 28. McPeek R. M., Keller E. L, 2004, Deficits in saccade target selection after inactivation of superior colliculus, Nat. Neurosci. 7: 757-63.
  • 29. Sommer M. A., Tehovnik E.J., 1997, Reversible inactivation of macaque frontal eye field, Exp. Brain Res., 116: 229-49.
  • 30. Sparks D., Rohrer W. H., Zhang Y., 2000, The role of the superior colliculus in saccade initiation: a study of express saccades and the gap effect, Vis. Res., 40:2763-77.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-788d6870-f1e4-48dc-9f9d-76207e73d120
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