Methods for Studying Brain Function

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    Created by
    aimee marker

    Cards (10)

    • post mortem examination AO1
      • invasive
      • the brain can be studied in high detail
      • to look for evidence of brain abnormalities and compare to behaviour from when they were alive
      • early example of this is Broca and patient Tan.
      • high spatial resolution, no temporal resolution
      • is retrospective
    • post mortem examination AO3
      • allows the brain to be studied at high levels of detail
      • you dont know when the brain abnormality may have occured. difficult to establish cause and effect between abnormality and the behaviour being investigated.
      • difficult to control extraneous/confounding variables (such as medication and treatment), which can make it more difficult to establish a cause and effect relationship.
      • informed consent - some patients lose the ability to give consent during their lifetime and consent can be a sensitive subject for family members
    • fMRI AO1
      • functional magnetic resonance imaging
      • measures changes in brain activity by looking at changes in blood flow across different regions of the brain
      • non-invasive and indirect way to look at brain activity and can be done while an action is being completed
      • has ok spatial resolution (worse than post mortem) and ok temporal resolution (worse than EEGs and ERPs)
    • fMRI AO3
      • can be used in real world settings (such as with schizophrenia and sleep disorder patients) to identify which parts of the brain may be related to the disorder
      • doesnt use a radioactive tracer (like PET scans do), so its risk free
      • requires patients to stay still for a clear image, which may not be possible for some patients
      • an indirect measure. studies blood flow changes rather than actual electric neuronal activity. this causes a 5 second time delay between neuron firing and blood flow. (poor temporal resolution) and so may lack validity as a measure of neuronal activity
    • EEG AO1
      • electrocephalogram
      • directly measures electrical activity in the brain
      • electrodes placed on the scalp to measure activity from neurons on the cortex which produces a pattern of waves to represent different levels of arousal or consciousness
      • can be used to detect disorders such as epilepsy or alzheimers
      • non-invasive and cheaper to carry out than fMRI scans
      • good temporal resolution, poor spatial resolution
    • EEG AO3
      • useful in investigating epilepsy and sleep disorders
      • high temporal resolution (can detect activity in under one millisecond)
      • EEGs only give a general measure. the signal from an individual neuron deep within the brain may not be detected, but signals from a larger area of the brain where many neurons are firing can be detected.
      • abnormal EEGs have been identified in patients suffering with eating disorders such as anorexia nervosa, meaning that EEGs have the potential to be used as a diagnostic tool.
    • ERP AO1
      • event related potentials
      • looking at how EEG wave patterns average and change in response to a specific stimulus.
    • ERP AO3
      • ERPs have been used in memory research as they give researchers more clues about information processing in the brain
      • cant tell which neurons generated the signal
      • can only look at signals generated by the cortex
    • spatial resolution is the level of detail at which the methods allow us to study the brain. highest to lowest:
      • post mortem
      • fMRI
      • EEGs and ERPs
    • temporal resolution is the precision of measurements with respect to time
      highest to lowest:
      • EEGs and ERPs
      • fMRI
      • (post mortem examinations do not have any temporal validity)