biopsychology

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    tayibah

    Cards (26)

    • nervous system
      specialised network of cells, primary mode of communication via electrical impulses to collect, process and respond to stimuli and to co-ordinate the working of different organs
    • central nervous system
      consists of the brain and spinal cord
      brain - centre of conscious awareness
      spinal cord - responsible for reflex actions, passes messages to and from the brain and connects the nerves to the pns
    • peripheral nervous system
      transmits messages through neurones to and from the cns, sends information to outside world from cns to effector muscles / glands in the body
      • the pns is divided into the autonomic and somatic nervous system
    • autonomic nervous system
      controls breathing, heart rate, digestion, stress response and sexual arousal - involuntary
      • the ans is divided into the sympathetic and parasympathetic nervous system
    • somatic nervous system
      controls conscious / voluntary muscle movement
      responsible for receiving info from senses and sending to cns + transmitting info from cns to effector organs
    • parasympathetic nervous system
      rest and digest state, controls heart rate, breathing, promotes digestion and constricts pupils etc
    • sympathetic nervous system
      prepares body for fight or flight, increases heart rate, breathing state, stops digestion and dilates pupils
      • the two systems are antagonistic, can only happen one at a time
    • endocrine system
      controls vital functions alongside the nervous system
      • instructs glands to release hormones into the bloodstream
    • endocrine system vs nervous system
      endocrine - uses chemical messengers that are slow acting but more widespread and longer lasting
      nervous - uses electrical impulses that are fast acting
    • glands
      organs that produce hormones
    • hormones
      chemical messengers that circulate in the bloodstream to affect target organs
      each hormone has a specialised function
    • pituitary gland
      'master gland' that controls release of hormones from other endocrine glands
    • adrenal gland
      releases adrenaline + noradrenaline, responsible for activating fight or flight
    • ovaries
      release oestrogen which regulates the menstrual cycle
    • fight or flight
      a response when stressed through the physiological arousal of the body to prepare to fight or flee an aggressor
    • fight or flight process
      hypothalamus activates sympathetic ns, which sends a message to adrenal glands which release adrenaline and noradrenaline, causing the body to respond (fight, flight or freeze)
    • neurones
      cells that make up the ns, they are the ns's primary method of communication and process + transmit messages through chemical and electrical signals
      types of neurones - sensory, motor and relay
    • sensory neurone
      registers input from the pns + and transports to cns
    • relay neurone
      decides what to do and passes on the message on within the brain
      connects sensory to motor neurone or another relay neurone
    • motor neurone
      tells muscles to move by connecting cns to effectors
    • synaptic transmission
      neighbouring cells communicate across the synaptic gap that separates them through chemical messengers in order to pass on the electrical signal to the neighbouring neurone
    • neurotransmitters
      brain chemicals that send signals from one neurone to the next through diffusing across the synapses (excitatory or inhibitory)
    • synaptic transmission
      electrical impulses reach the presynaptic ending and trigger the release of neurotransmitters from vesicles across the synapse
      neurotransmitters bind with receptors on the postsynaptic membrane
      stimulation of postsynaptic receptors of neurotransmitters result in either excitation or inhibition of the postsynaptic membrane
    • excitation
      when a neurotransmitter increases the positive charge of the postsynaptic neurone, increasing the likelihood that the neurone will fire and pass on the electrical impulse
    • inhibition
      when a neurotransmitter increases the negative charge of the postsynaptic neurone, decreasing the likelihood that the neurone will fire and pass on the electrical impulse
    • excitation and inhibition
      excitatory and inhibitory influences are summed (summation), if the net effect on the post synaptic neurone is inhibitory, the neurone will be less likely to fire and pass on the signal, and if the effect is excitatory, the neurone will be more likely to fire
      • action potential of the post synaptic neurone is only triggered if the sum of the excitatory and inhibitory signals at one time reach the threshold
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