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Cerebral Lateralization and Specialization

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Title: Cerebral Lateralization and Specialization


1
Cerebral Lateralization and Specialization
  • Split-brain patients transection of corpus
    callosum

2
Cerebral Lateralization and Specialization
  • Split-brain patients
  • Wada test amobarbital injection to one carotid
    artery

3
Cerebral Lateralization and Specialization
  • Hemispheric communication
  • Corpus callosum
  • Anterior commissure
  • Posterior commissure

4
Cerebral Lateralization and Specialization
  • Corpus callosum connections
  • Homotopic projections to the same location in LH
    and RH (majority of projections)
  • Heterotopic projections to different locations
    in LH and RH
  • Head (genu) anterior frontal lobes
  • Body posterior frontal and parietal lobes
  • Tail (splenium) temporal and occipital lobes

5
Cerebral Lateralization and Specialization
  • Sectioning of corpus callosom in humans
  • Performed on severe epileptics whose seizures do
    not respond to medication
  • Often have neurological problems secondary to the
    epilepsy
  • May be incomplete
  • Sometimes partially sectioned
  • When complete LH and RH are functionally
    independent

6
Cerebral Lateralization and Specialization
  • Hemispheric specialization
  • LH specialization for language and speech in most
  • Word superiority effect in RVF-LH, but not in
    LVF-RH

7
Cerebral Lateralization and Specialization
  • Hemispheric specialization
  • LH specialization for language and speech in most
  • Word superiority effect in RVF-LH, but not in
    LVF-RH
  • RH can recognize words, but not syntax

8
Cerebral Lateralization and Specialization
  • Hemispheric specialization
  • LH specialization for language and speech in most
  • RH specialization for visuospatial processing in
    most
  • Block-design
  • Face recognition

9
Cerebral Lateralization and Specialization
  • Hemispheric specialization
  • LH specialization for language and speech in most
  • RH specialization for visuospatial processing in
    most
  • Attention seems to be a unitary process
  • Split-brain patients can't attend to different
    locations in LVF and RVF simultaneously
  • Spatial priming crosses visual fields

10
Cerebral Lateralization and Specialization
  • Hemispheric specialization
  • LH specialization for language and speech in most
  • RH specialization for visuospatial processing in
    most
  • Attention seems to be a unitary process
  • Split-brain patients can't attend to different
    locations in LVF and RVF simultaneously
  • Spatial priming crosses visual fields
  • Perceptual priming crosses visual fields

11
Cerebral Lateralization and Specialization
  • Hemispheric specialization
  • LH specialization for language and speech in most
  • RH specialization for visuospatial processing in
    most
  • Attention seems to be a unitary process
  • Split-brain patients can't attend to different
    locations in LVF and RVF simultaneously
  • Spatial priming crosses visual fields
  • Perceptual priming crosses visual fields
  • Single pool of attentional resources

12
Cerebral Lateralization and Specialization
  • Converging evidence of hemispheric specialization
  • Patients with brain damage
  • Double dissociation method
  • Navon's hierarchical letter stimuli local vs
    global structure

T T T T T T T T T T T
13
Cerebral Lateralization and Specialization
  • Converging evidence of hemispheric specialization
  • Patients with brain damage
  • Double dissociation method
  • Navon's hierarchical letter stimuli local vs
    global structure
  • LH patients have deficit in processing local
    structure
  • RH patients have deficit in processing global
    structure

14
Cerebral Lateralization and Specialization
  • Converging evidence of hemispheric specialization
  • Patients with brain damage
  • Research with normal subjects
  • Dichotic listening
  • Visual half-field presentation
  • Sergent (1982) choice RT - "Yes" if H or L, "No"
    if F or T

15
Cerebral Lateralization and Specialization
  • Converging evidence of hemispheric specialization
  • Patients with brain damage
  • Research with normal subjects
  • Dichotic listening
  • Visual half-field presentation
  • Limitations
  • Effects are small and inconsistent
  • Publication bias for positive results
  • Not clear what a visual field or ear advantage
    means research may say more about the task than
    about information processing

16
Cerebral Lateralization and Specialization
  • What is lateralized?
  • LH and RH more similar than different
  • Size
  • Shape
  • Neuron density and interconnections
  • Asymmetry may convey evolutionary advantage
  • More efficient use of limited cortical space
  • Reduce redundancy - expand capability
  • Hemispheres work together using multiple
    representations and computational processing
    styles

17
Cerebral Lateralization and Specialization
  • What is lateralized?
  • Processing style / differences in processing
    efficiency
  • LH
  • Verbal
  • Analytical
  • Sequential
  • RH
  • Spatial
  • Holistic
  • Parallel

18
Cerebral Lateralization and Specialization
  • What is lateralized?
  • A computational basis for global/local perceptual
    asymmetry the spatial frequency hypothesis
  • Striate neuron receptive fields
  • Tuned to contrast
  • Vary in size
  • Spatial frequency filters

19
Cerebral Lateralization and Specialization
  • What is lateralized?
  • A computational basis for global/local perceptual
    asymmetry the spatial frequency hypothesis
  • Striate neuron receptive fields
  • Fourier's theorem complex frequency patterns can
    be decomposed in a sum of sinusoids

20
Cerebral Lateralization and Specialization
  • What is lateralized?
  • A computational basis for global/local perceptual
    asymmetry the spatial frequency hypothesis
  • Striate neuron receptive fields
  • Fourier's theorem
  • Global information conveyed by low spatial
    frequencies
  • Local information conveyed by high spatial
    frequencies

21
Cerebral Lateralization and Specialization
  • What is lateralized?
  • A computational basis for global/local perceptual
    asymmetry the spatial frequency hypothesis
  • Striate neuron receptive fields
  • Fourier's theorem
  • Kitterle et al. (1990)
  • LH advantage for processing high spatial
    frequencies (local)
  • RH advantage for processing low spatial
    frequencies (global)

22
Cerebral Lateralization and Specialization
  • What is lateralized?
  • Categorical and coordinate representations
  • Categorical (LH)
  • General properties of objects that define
    equivalence in abstract terms
  • Use spatial information to classify objects
  • Coordinate (RH)
  • Metrical
  • Specify exact locations with respect to other
    objects or the observer

23
Cerebral Lateralization and Specialization
  • What is lateralized?
  • Prototype vs exemplar memory systems
  • Prototype (LH)
  • Composite or average member of class
  • Exemplar (RH)
  • Specific members of class

24
Cerebral Lateralization and Specialization
  • What is lateralized?
  • Problem solving
  • LH analytical, complex processing strategies
  • Frequency matching strategy for random events
  • Schema generation strategy falsely classifies new
    items as old when similar to old
  • Elaborative forms illusory correlations (detects
    patterns when none exist)
  • RH simple processing strategies
  • Frequency maximizing strategy for random events
  • Perceptual matching strategy rejects new items as
    old when similar to old
  • Veridical
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