endogenous pacemakers and exogenous zeitgebers

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    Created by
    rhianna

    Cards (17)

    • endogenous pacemakers
      internal body clocks that regulate many of our biological rhythms - such as the influence of the suprachiasmatic nucleus on the sleep/wake cycle
    • exogenous zeitgebers
      external factors that affect or entrain our biological rhythms such as the influence of light on the sleep wake cycle
    • sleep/wake cycle
      a daily cycle of biological activity based on a 24-hour period that is influenced by regular variations in the environment
    • endogenous pacemakers and the sleep/wake cycle - the suprachiasmatic nucleus
      • tiny bundle of nerve cells located in the hypothalamus in each hemisphere
      • maintains circadian rhythms (sleep/wake cycle)
      • nerve fibres connected to the eye cross in an area called the optic chiasm on their way to the left and right visual area of the cerebral cortex
      • SCN lies above the optic chiasm
      • receives information about light
      • carries on while eyes closed - enables biological clock to adjust to changing patterns of daylight whilst asleep
    • DeCoursey and suprachiasmatic nucleus
      • DeCoursey - destroyed the SCN connections in the brain of 30 chipmunks who were then returned to their natural habitat and observed for 80 days
      • sleep/wake cycle disappeared and by the end of 80 days most had been killed by predators
    • Ralph and suprachiasmatic nucleus
      • Ralph - bred mutant hamsters with a 20 hour sleep/wake cycle
      • when SCN cells from the foetal tissue of mutant hamsters were transplanted into the brains of normal hamsters - defaulted to 20 hours
    • the suprachiasmatic nucleus - the pineal gland and melatonin
      • SCN passes information on day length and light that it receives to the pineal gland
      • the pineal gland increases the production of melatonin - induces sleep
      • factor of seasonal affective disorder
    • exogenous zeitgebers and the sleep-wake cycle
      • external factors in the environment that reset our biological clocks through entrainment
      • in the absence of external cues the free-running biological clock that controls the sleep/wake cycle continues to tick in a distinct cyclical pattern
      • environmental cues entrain the free-running cycle
    • exogenous zeitgebers - light
      • resets the SCN and plays a role in the maintenance of the sleep/wake cycle
      • indirect influence on key processes in the body that control such functions as hormone secretion and blood circulation
    • exogenous zeitgebers - light
      Campbell and Murphy - light may be detected by skin receptor sites on the body even when the eyes do not receive the same information
      • 15 ppts were woken at various times and a light pad shone on the back of their knees
      • researchers managed to produce a deviation in the ppts usual sleep/wake cycle of up to 3 hours
      • light powerful exogenous zeitgeber that doesn't rely on eyes
    • exogenous zeitgebers - social cues
      • newborn babies' initial sleep/wake cycle is random
      • at 6 weeks of age = circadian rhythms begin
      • 16 weeks = babies rhythms have been entrained by the schedules imposed by parents - mealtimes and bedtimes
    • exogenous zeitgebers - social cues
      jet lag: adapting to local times for eating and sleeping is an effective way of entraining circadian rhythms and beating jet lag when travelling long distances
    • two exogenous zeitgebers for the sleep wake cycle
      • light
      • social cues
    • AO3 endogenous pacemakers - beyond the master clock
      • research revealed that there are numerous circadian rhythms in many organs and cells in the body
      • influenced by actions of the SCN but also act independently
      • Damiola - changing feeding patterns in mice could alter the circadian rhythms of cells in the liver by up to 12 hours - SCN unaffected
      • there are other influences on sleep wake cycle
    • AO3 endogenous pacemakers - interactionist system
      • cannot be studied in isolation
      • total isolation - Siffre - rare
      • siffre made use of artificial light - may of reset biological clock
      • in everyday life pacemakers and zeitgebers interact - makes little sense to separate the two
      • isolate - lowers validity
    • AO3 exogenous zeitgebers - environmental observations
      • do not have the same effect in all environments
      • people who live in places where there is little darkness in summer and little light in winter
      • Artic circle - similar sleep patterns all-year round despite spending 6 months in darkness
      • sleep/wake cycle is primarily controlled by endogenous pacemakers that override environmental changes
    • AO3 exogenous zeitgebers - case study evidence
      • Miles- young man, blind from birth, abnormal circadian rhythm of 24.9 hours
      • despite exposure to social cues his sleep/wake cycle could not be adjusted
      • social cues alone are not effective in resetting the biological rhythm