Hemispheric Lateralisation and Split Brain research

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    • hemispheric lateralisation is the idea that two halves of the human brain are not exactly alike
    • split brain research is a common treatment for epilepsy
    • split brain research is the study of patients that had received surgery to isolate the two hemispheres of the brain from one another - enables psychologists to study hemispheres independently
    • within hemispheric lateralisation each hemisphere has functional specialities for example the left hemisphere is dominant for language and speaking and the right excels at visual motor tasks
    • left hemisphere = language and speaking
    • right hemisphere = visual motor tasks
    • we can understand the functional specialisations within the left and right hemisphere when looking at lateralisation because of the research from Broca and Wernicke - informed us about the location of language centres within the brain
    • in lateralisation, hemispheres need to be able to communicate and share info
    • the left hemisphere controls the right side of the body and its movements
    • the right hemisphere controls the left hand side movements of the body
    • hemispheres are connected by the corpus callosum
    • the corpus callosum is a bundle of nerve fibres between the 2 hemispheres
    • the middle bit is the corpus callosum
    • split brain patients are individuals who have had their corpus callosum cut which separates the two hemispheres
    • split brain patients had their corpus callosum cut originally for a treatment of severe epilepsy
    • sperry and gazzaniga were the first to study the capabilities of split brain patients - testing capabilities within the seperated hemispheres
    • aim of sperry and gazzaniga's study on split brain research
      • examine extent to which the 2 hemispheres are specialised for certain functions
    • method of sperry and gazzaniga's study for split brain patients
      • image/word projected to patients left visual field (processed by right hemisphere) or right visual field (processed by left hemisphere)
      • when info was presented to one hemisphere that info was not transferred to other hemisphere (corpus callosum cut)
      • conducted 3 different experiments (describe what you see, tactile tests, drawing tasks)
    • the 3 experiments sperry and gazzaniga undertook includes tactile tests, drawing tasks and what can you see tasks
    • describe what you see task (1/3 experiments of sperry and gazzaniga)
      • picture presented to either left or right visual field
      • participant had to describe what they saw
    • findings of describe what you see test
      • picture presented to right visual field - patient could describe what they saw which demonstrated superiority of left hemisphere when comes to language production
      • picture presented to left visual field - patient could not describe what was shown - often reported there was nothing present
    • tactile test (1/3 experiments of sperry and gazzaniga)
      • object placed in patients left or right hand
      • had to describe what they felt or select similar object from series of alternative objects
    • findings of tactile test
      • objects placed in right hand - patient could describe verbally what they felt or could identify test object by selecting similar appropriate object from series of alternative objects
      • objects placed in left hand - patient could not describe what they felt and only made wild guesses. could identify test object when selecting from series of objects
    • drawing task (1/3 experiments of sperry and gazzaniga)
      • participants presented with picture in either left or right visual field
      • had to the draw what they saw
    • drawing task findings
      • picture presented to right visual field - right hand would attempt to draw picture but was never clear as left hand - demonstrating superiority of right hemisphere for visual motor tasks.
      • picture presented to left visual field - consistently drew clearer and better pictures than right hand
    • conclusion of sperry and gazzanigas experiment
      • findings highlight key differences between 2 hemispheres - left hem is dominant for speech and language - right hem is dominant for visual motor tasks
      • research indicates importance of connectivity between 2 hemispheres to allow effective functioning.
    • evaluation - advantages of hemispheric lateralisation
      • increases neural processing capacity (ability to perform multiple tasks simultaneously)
      • rogers et al - domestic chicken -brain lateralisation is associated with enhanced ability to perform 2 tasks simultaneously (finding food and being vigilant to predators) - using 1 hemisphere to engage in tasks leaves other free to engage in other functions)
      • evidence for advantage as demonstrates it can enhance brain efficiency (doing 2 things)
      • limitation - research uses animals and not humans - cannot be applied to humans correctly. - consider both
    • evaluation - lateralisation linking with immune functioning
      • suggested relationship between hemispheric lateralisation and immune system functioning
      • example - left hand people tend to have superior right hemispheric skills but more likely to suffer allergies and problems with immune system
      • tonnessen found significant relationship between handiness and immune disorders
      • morfit and weekes found left handed have high incidence of immune disorders in immediate family
      • suggests genetic process leading to lateralisation which may affect development of immune system
    • evaluation - lateralisation changes with age
      • lateralisation of function seems to change throughout lifetime
      • lateralised patterns found in younger individuals tend to switch to bilateral patterns in healthy older adults
      • szaflarski found language became more lateralised to left hemisphere with increasing age in children but after 25 lateralisation decreased within each decade
      • limitations is that it doesnt apply equally to all age groups
    • evaluation - limitation of split brain research
      • limited number of individuals used for research towards split brain
      • andrew argues many studies are presented with few as 3 participants (shouldn't be generalised to all individuals?)
      • conclusions then drawn about function of brain from individuals who either have confounding physical disorder or have less complete sectioning of 2 hemispheres than originally believed
      • limitation of split brain research as it has limited generalisability to wider population.
    • evaluation key points
      • understanding increases ability to perform multiple tasks simultaneously (having 2 hemispheres)
      • genetic process leading to lateralisation affecting development of immune system
      • limitation as it does not apply equally to all age groups (changes with age)
      • limited generalisability to wider population (limited research studies relating to split brain research)