Brain and neuropsychology

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    Tee ade

    Cards (39)

    • Subdivisions of the nervous system
      • CNS and PNS
      • PNS-ANS SNS
      • ANS-sympathetic and parasympathetic
      • CNS brain and spinal cord
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    • The nervous system
      • Collects and responds to information
      • Coordinates organs including the brain
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    • Central nervous system (CNS)
      • Right hemisphere controls left side of body and vice versa
      • Brain conscious awareness and decision making
      • Brain stem autonomic functions, some reflex responses and consciousness
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    • Peripheral nervous system (PNS)

      • Information from outside world to CNS
      • Information from CNS to muscles
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    • Autonomic nervous system (ANS)

      Automatic functions, eg breathing heart sale, stress response
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    • Somatic nervous system (SNS)

      • Voluntary movement of muscles and reflex responses
      • Sends messages to muscles and takes in information from sensory organs
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    • Homeostasis
      Maintaining a balanced internal state (e.g. temperature at 37°C) by monitoring activity of the body organs
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    • Autonomic nervous system

      • An automatic system
      • No conscious contral because functions are vital to life, eg. heartbeat
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    • Sympathetic nervous system
      Physiological arousal, triggered when stressed and leads to fight or flight response
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    • Parasympathetic nervous system
      • Opposite to sympathetic
      • Produces rest and digest response to return body to resting state
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    • The fight or flight response
      1. Brain detects threat
      2. Hypothalamus identifies a threat (stressor)
      3. Sympathetic division of the ANS triggered, fight or flight
      4. Release of adrenaline
      5. ANS changes from parasympathetic rest state to aroused sympathetic state
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    • Once the threat has passed
      Parasympathetic division of ANS takes over 'rest and digest'
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    • The James-Lange theory of emotion

      • Physiological arousal first
      • Hypothalamus arouses sympathetic division of ANS
      • Adrenaline released leading to physiological arousal (fight or flight)
      • Emotion afterwards
      • Brain interprets physiological activity
      • Causes emotion, eg love, fear
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    • An example
      • Meet bear in forest
      • Sympathetic arousal muscles tense, heart sate increases
      • Interpret as fear
      • No physical changesso emotion
      • Speaking in front of class, no increase in heart rate means you don't experience any sense of fear
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    • Types of neuron
      • Sensory: From PNS to CNS. Long dendrite, short aan
      • Relay Connect sensory to motor Short dendrite, short axon
      • Motor: From CNS to muscles/glands Short dendrite, long axon
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    • Structure of neurons
      • Cell body: Nucleus containing DNA
      • Axon: Carries signals, covered in myelin sheath which helps and protects
      • Myelin sheath: Fatty covering of axon with gaps (nodes of Ranvier), insulation and speeds signal
      • Terminal button: End of axon, part of synapse
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    • Electric transmission-how neurons fire
      • Resting state: negative charge
      • When firing, the charge inside the cell changes which creates an action potential
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    • Synapses and chemical transmission
      • The synapse: Where neurons communicate with each other: terminal button at presynaptic neuron + synaptic cleft + receptor sites on postsynaptic neuron
      • Release of neurotransmitters: Electrical signal causes vesicles (in presynaptic terminal button) to release neurotransmitter into synaptic cleft
      • Reuptake of neurotransmitter: Neurotransmitter in synaptic cleft attaches to postsynaptic receptor sites, chemical message turns into electrical impulse, remaining neurotransmitter reabsorbed
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    • Excitation and inhibition
      • Excitatory neurotransmitter increases postsynaptic neuron's charge, more likely to fire
      • Inhibitory neurotransmitter increases negative charge, less likely to fire
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    • Summation
      More excitatory than inhibitory signals means that neuron fires, creating an electrical impulse
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    • The brain is plastic Hebb’s theory

      • Synaptic connections become stronger the more they are used
      • Brain can change and develop
      • Brain changes in response to new experiences, at any age
      • Learning produces an engram: Learning leaves a trace called an engram, this can be permanent if we rehearse learning
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    • Cell assemblies and neuronal growth
      • Groups of neurons that fire together
      • Neuronal growth occurs as cell assemblies rewire
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    • Hebb's theory is scientific
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    • Hebb's theory has real-world application to education
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    • Hebb's theory is reductionist, reducing learning to the neuronal level and ignoring higher levels like Piaget's idea of accommodation
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    • Structure of the brain
      • Two hemispheres, four lobes
      • Top layer of brain is the cerebral cortex, divided into four lobes
      • Cerebellum
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    • Frontal lobe

      • At front of brain
      • Controls thinking, planning and motor area controls movement
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    • Parietal lobe

      • Behind frontal lobe
      • Somatosensory area is where sensations are processed
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    • Occipital lobe
      • At back of brain
      • Controls vision
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    • Temporal lobe

      • Behind frontal lobe and below parietal lobe
      • Auditory (sound) area, related to speech and learning
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    • Cerebellum
      • Receives information from spinal cord and the brain
      • Coordinates movement and balance; attention and language too
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    • Localisation of function in the brain
      • Specific brain areas do particular jobs
      • Motor area: Damage to the left hemisphere affects the right side of the body, and vice versa
      • Somatosensory area: Most sensitive body parts take up most 'space', damage means less ability to feel pain
      • Visual area: Damage to left hemisphere affects right visual field of each eye, and vice versa
      • Auditory area: Damage can lead to deafness
      • Language area: Usually in left hemisphere only, Broca's area: damage leads to difficulty remembering and forming words, Wernicke's area: damage leads to difficulty understanding and producing meaningful speech
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    • Later research on the interpretative cortex had mixed results, it may not always respond as Penfield had concluded
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    • Neuropsychology
      Scientific study of the influence of brain structures on mental processes
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    • Cognitive neuroscience
      • Aims to create a detailed map of localised functions in the brain
      • Structure and function of the brain relates to behaviour
      • Structure and function of the brain relates to cognition
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    • Cognitive neuroscience and mental illness
      Low serotonin affects thinking (e.g. suicidal thoughts) and behaviour (low mood, depression)
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    • CT scans

      • Large doughnut-shaped scanner that rotates
      • Takes lots of X-rays of brain which are combined to give a detailed picture
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    • PET scan

      • Patient injected with radioactive glucose
      • Brain activity shown on computer screen
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    • MRI Scan

      • Measures changes in blood oxygen levels
      • Displayed as 3-D computer image
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