Circadian Rhythms

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Anna

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  • Circadian Rhythms - what?

    Circa = about 
    Dia = a day 
    Biorhythm with a daily frequency - the circadian rhythm lasts for about 24 hours
    e.g. sleep/wake cycle
  • 2 examples of circadian rhythms?

    • There are several important types of circadian rhythms such as the sleep/wake cycle.
    • The sleep/wake cycle is an example of a circadian rhythm. Drowsiness/alertness is the internal change whereas darkness/daylight is the zeitgeber
    • Body temperature is another example of a circadian rhythm.
    • Our core body temperature is as high as 38 degrees celsius at 6-7pm and as low as 36 degrees celsius at 4-5am.
  • What are circadian rhythms made & kept by

    Although circadian rhythms are endogenous ("built-in", self-sustained), they are adjusted (entrained) to the local environment by external cues called zeitgebers, commonly the most important of which is daylight. 
  • What is the sleep wake cycle governed by?
    Sleep/wake cycle governed by internal and external mechanism:
    • Exogenous zeitgebers - the fact we feel drowsy when it's night-time and alert during the day shows the effect of daylight.
    • Endogenous pacemakers - a biological clock ‘left to its own devices’ without the influence of external stimuli (e.g. light) is called ‘free running’.
    • The basic rhythm is governed by the SCN. The SCN lies just above the optic chiasm which provides information from the eyes about light.
    • Exogenous zeitgebers (light) can reset SCN.
  • Sleep/Wake Cycle diagram?
    ?
    A) ?
  • Psychologists involved in Sleep/wake cycle?
    •  Michael Siffre
    • Aschoff & Wever (1976)
    • Folkard et al (1985)
  • Outline the PROCEDURE case study of Michael Siffre:

    Procedure?
    • French caver Michael Siffre has spent several long extended periods underground in dark caves to study the effects on his own biorhythms (examine the effect of free-running biological rhythms). He spent 2 months (in 1962) and 6 months (in the 1970s).
    • He was deprived of exposure to natural light and sounds but had access to food and drink
  • Outline the FINDINGS case study of Michael Siffre?

    • After spending 2 months in a cave in the southern Alps he emerged believing it to be mid-August when it was mid September. This is because his free-running biorhythm settled down to one that was around 24.5-25 hours.
    • In each case study, Siffre’s free-running circadian rhythm settled down to about 25 hours. Importantly he did have a regular sleep/wake cycle. Siffe demonstrated a free-running circadian rhythm of about 25 hours
  • Aschoff & Wever (1976) - PROCEDURE & FINDINGS

    Procedure:
    • Studied ppts spent 4 weeks in a WW2 bunker where they deprived of natural light
    Findings:
    • All (but one) emerged with circadian rhythm lasting between 24 & 25 hrs
    • But one had circadian rhythm extended to 29 hours - anomaly
  • Aschoff & Wever (1976) - CONCLUSION

    Conclusion:
    • Suggesting (along with Siffre) our natural sleep/wake cycle is slightly longer than 24 hours but it is entrained by exogenous zeitgebers associated with our 24 hour day (like number of daylight hours, typical meal times etc).
    • BUT, this research also shows zeitgebers like light are key because the internal clock not perfectly accurate: varying from day to day.
  • Folkard et al (1985) - PROCEDURE & FINDINGS

    PROCEDURE:
    • Studied a group of 12 pps who agreed to live in a dark cave for 3 weeks
    • They retired to bed when the clock said 11.45pm and rose when it said 7.45am 
    • Unbeknown to the pps the researchers gradually sped up the clock so that a 24 hour day only lasted 22 hours over the course of the study 
    FINDINGS:
    • Only 1 pp was able to adjust comfortably to the new regime
  • Folkard et al (1985) - CONCLUSION

    CONLUSION:
    • Shows circadian rhythms can only be guided to limited extent by exogenous zeitgebers.
    • Suggesting the existence of a strong free-running circadian rhythm that by exogenous zeitgebers CAN'T easily be overridden by changes in external environment (not controlled by exogenous zeitgebers)
    • Showing endogenous pacemakers stronger than exogenous zeitgebers:
    • However, there are exceptions as individual differences need to be taken into account
    • Zeitgebers have little influence - circadian rhythm only guided to a certain extent by zeitgebers.