Biological Rhythms Flashcards
What is a biological rhythm?
Any change in physiological activity that repeats periodically in a set cyclical pattern
What is a circadian rhythm?
A cycle that takes approximately 24 hours. Examples include the sleep wake cycle, body temperature, metabolic activity and hormones.
What is an infradian rhythm?
One cycle takes longer than 24 hours. Examples include menstruation, hibernation and SAD
What is an ultradian rhythm?
One cycle takes less than 24 hours. Examples include feeding, stages of sleep and alertness.
How does the menstruation cycle work as an infradian rhythm?
The follicular phase - 10 - 14 days. Low levels of oestrogen and progesterone during menstruation. When the bleeding stops the endometrium grows and thickens. FSH levels rise. This signals ovaries to produce oestrogen which stimulates LH levels to rise. Eggs is released into one of fallopian tubes. LH causes progesterone after ovulation which stimulates the endometrium to prepare a thick blanket of blood vessels to support a fertilised egg.
What is body temperature as a circadian rhythm?
Human body temperature is at its lowest in the early hours of the morning and at its highest during early evening. Sleep typically occurs when core temperature starts to drop and body temperature starts to rise towards the end of the sleep cycle, promoting feelings of alertness influenced by muscular activity, digestion and heat loss.
What is an endogenous pacemaker?
Internal mechanisms that influence the patterns of our biological rhythms. These may be genetic mechanisms. They help maintain regular rhythms in absence of zeitgebers but they are not perfect and need zeitgebers to synchronise the rhythms to our original behaviours.
What is the role of endogenous pacemakers in controlling the sleep wake cycle?
Internal body clock inside the hypothalamus is called the SCN. The SCN receives light through the eyes. When light levels drop, this information is received by the SCN causing it to fire impulses to the pineal gland which secretes melatonin which causes sleepiness. When light increases, melatonin levels fall making us more alert. Without light as a zeitgeber, the process free runs into a 25 hour cycle.
Case study to support the role of endogenous peacemakers?
Siffre spent six months in an underground cave. He found that his body was able to free run to a regular pattern of 25 - 30 hours. The internal body clock regulated even without external cues.
Problem with using case studies to evaluate endogenous pacemakers?
Siffre was a one off study so results may not be representative. Individual differences make it difficult to generalise findings.
Scientific evidence to support the role of endogenous pacemakers?
Ralph took the SNC from a mutant hamster who had a circadian rhythm which mutated to 20 hours. Mutant SNC was transplanted into brains of normal adult hamsters. The normal hamsters took on the circadian rhythm of the mutant hamsters.
Is the use of animal studies problematic when evaluating endogenous pacemakers?
Results cannot be extrapolated to explain human brains as many animals are nocturnal. Humans are more adaptable than animals.
What are exogenous zeitgebers?
External stimuli/environmental cues that are responsible for resetting the biological clock which provide information about elapsed time and prompt changes in bodily activity and the patterns of our biological rhythms.
Is there evidence to support the role of exogenous zeitgebers?
Vetter changed light in the workplace. 4000 kelvin was natural warm light and 8000 kelvin was blue enriched light. Results suggest that blue enriched light and natural light complete as a zeitgeber. Pts working under warmer light tended to synchronise to natural dawn whereas pts exposed to blue enriched light synchronised to office hours.
Problem with using artificial tasks as evidence for exogenous zeitgebers?
Vetter’s study used a task with artificial light which could affect the way that the body clock would naturally work so study lacks ecological validity
