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Visual Awareness

Visual Awareness. 9.012 Bryan C. Russell. OUTLINE: Intro stuff. Relate to prior lectures Give philosophical questions Blind spots, etc. OUTLINE: Philosophical foundations. Mind-body problem The problem of other minds. Neuropsychology of visual awareness. Definition of vision.

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Visual Awareness

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  1. Visual Awareness 9.012 Bryan C. Russell

  2. OUTLINE: Intro stuff • Relate to prior lectures • Give philosophical questions • Blind spots, etc.

  3. OUTLINE: Philosophical foundations • Mind-body problem • The problem of other minds

  4. Neuropsychology of visual awareness

  5. Definition of vision • “The process of acquiring knowledge about environmental objects and events by extracting information from the light they emit or reflect” • What about visual awareness?

  6. Awareness of vision processes • Often, we are not aware of the many vision processes that occur • Is it possible that a full perceptual analysis can occur without visual awareness?

  7. Corpus callosum • Gustav Fechner (1860): necessary for the unity of consciousness

  8. Evil thought experiment • Suppose we could sever the corpus callosum • Would we get a person with two consciences?

  9. Epileptic seizures • Seizure would begin in one hemisphere and move to the other • (1940’s) First surgeries to sever corpus callosum • Reduced frequency and severity of seizures

  10. Effect on consciousness • No immediate noticeable effect on consciousness • Karl Lashley: The function of the corpus callosum was simply to hold the two hemispheres together!

  11. Patient N.G. • Roger Sperry (1961), Michael Gazzaniga (1970) Right visual field (RVF)

  12. Patient N.G. • Roger Sperry (1961), Michael Gazzaniga (1970) Left visual field (LVF)

  13. Explanation of N.G. behavior • Speech centers are located in the left hemisphere (LH)

  14. N.G. conclusions • It seems that LH is conscious • Is RH visually aware? • Perhaps both LH and RH are visually aware of the object, but only LH can talk about it • Revisit the problem of other minds: what evidence do we need to believe that something is conscious?

  15. Blindsight • Ability of certain patients to perform above chance on visual tasks but report that they cannot see

  16. Patient D.B. • Had severe migraines due to enlarged blood vessels in the right visual cortex • The part of the brain containing the blood vessels was removed • Migraines stopped • What was the resulting effect on D.B.’s vision?

  17. D.B.’s vision • D.B. was blind in the LVF • Tested via point light source in various regions Weiskrantz et al. (1974)

  18. Point light source LVF RVF D.B.’s vision Horizontal midline

  19. Point light source D.B.’s vision • D.B. was asked to point to the light source, even if we could not see it Horizontal midline LVF RVF

  20. D.B.’s results • D.B. performed remarkably well, given that we was “guessing” when the light was in the LVF Weiskrantz et al. (1974)

  21. Other experiments • D.B. (in his LVF) could discriminate between: • “X” versus “O” • Horizontal versus vertical lines • Diagonal versus vertical lines • Performance was improved for larger and longer duration stimuli

  22. Other experimental details • D.B. conscientiously reported when he visually saw something • Otherwise, D.B. simply guessed when prompted • How was D.B.’s performance possible?

  23. Two visual systems hypothesis • Cortical system responsible for awareness • Colliculus system performed significant non-conscious functions

  24. Two visual systems hypothesis • Confirmed in three monkeys (Cowey and Stoerig, 1995)

  25. Methodological challenges • D.B.’s eye movements were not tracked • Did not account for light scatter in the eye • Does not agree with experiences of patient C.L.T.

  26. Patient C.L.T. • Suffered stroke in right occipital region • MRI showed extensive damage to visual cortex with islands of intact tissue • Superior colliculus unaffected because it uses a different blood stream Fendrich, Wessinger, and Gazzaniga (1992)

  27. C.L.T experiments • Eye movement precisely tracked • Stimuli was presented to precise locations • Residual visual function throughout the retina was tested • Performed at chance for most of LVF except for small localizable areas • C.L.T. reported no visual experience in the small localizable areas

  28. C.L.T. conclusions • Results challenge theory that unconscious superior colliculus mediates blindsight • However, does not agree with Cowley and Stoerig (1995) experiments • Perhaps monkey mechanisms different from humans (LGN projects to V4 and MT?)

  29. Blindsight summary • Patients can perform better than chance on discrimination tasks by “guessing” • Patients cannot “see” based on bottom-up processing of sensory information • Experimenters must provide top-down hypothesis tests; patients cannot do this • Blindsight is not helpful: patient cannot perform spontaneous intentional actions

  30. Visual awareness in normal observers

  31. Theories of consciousness

  32. Summary • Summarize major points

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