Responses to Extremes (OCR GCSE Combined Science A (Gateway))
Revision Note
How Humans Cope with Extreme Conditions
Higher Tier Only
The mechanisms of homeostasis allow the human body to survive in a range of environmental conditions whilst maintaining optimum internal conditions for enzyme action and healthy cell function
If the body is unable to adjust to extremes of environmental conditions, it may result in illness or even death
Extreme conditions could include
Temperature challenges: Very high or very low temperatures
Osmotic challenges: Excessively high salt intake, water intake or dehydration
Temperature Challenges
High Temperatures
When body temperature exceeds 37.5 °C. it is called a fever
At a temperature of 38.3 °C or more, hyperthermia develops
If not treated carefully, the results could be severe and even fatal
Hyperthermia may occur in response to
Drugs e.g. stimulants such as cocaine, ecstasy or methamphetamine
Heat stroke from dehydration and prolonged exposure to heat e.g. sun
Symptoms include:
Tiredness, dizziness and headaches
Low blood pressure
Muscle cramps
Heavy sweating and intense thirst
Urine produced will be low in volume and darkly coloured
Nausea
Cramps in arms, legs and stomach
Treatments include:
Moving to a cool place
Lie down and raise legs
Drink fluids e.g. rehydration drinks
Apply cool flannels or spray with cool water
Low temperatures
When body temperature drops below 35 °C, hypothermia develops
If not treated, hypothermia can worsen to become exhaustion hypothermia and eventually death
Hypothermia may happen in response to
Sudden or prolonged exposure to cold (e.g. falling into cold water)
Getting cold whilst wearing wet clothes
Exposure to lesser extremes could have the same outcome in babies or elderly people who are more at risk
Symptoms include:
Shivering
Slow breathing
Slurred speech
Tiredness
Pale skin
Low energy
Treatment includes:
Warming the patient up slowly
Removing wet clothes and wrapping in dry blankets or towels
Ensure they are sheltered, ideally indoors
Warm sugary drinks (non-alcoholic)
In serious cases, treatment in hospital may be required to provide oxygen or intravenous warm fluids
Osmotic Challenges
Dehydration
If the body loses more water than it takes in, dehydration occurs
This can happen in hot conditions when sweating increases and fluid intake isn't sufficient
Vomiting or diarrhoea will increase the chances of dehydration
Diabetes is also a risk factor
Dehydration can impact the kidneys as they try to reabsorb as much water as possible
Symptoms include:
Feeling thirsty
A dry mouth
Tiredness
Dizziness
Small volumes of concentrated dark coloured urine
Treatment includes
Consuming more water
Intake of salts to replace those lost through sweating
Over hydration
Consuming too much water is also dangerous as it can lead to water intoxication
The results can be fatal as the excess water leads to swelling in the body, particularly the brain
Symptoms include
Headaches
Personality or behavioural changes
Irritation
Disorientation and confusion
Drowsiness
Nausea
In serious cases
Seizure
Brain damage
Coma or death
Treatment includes:
Reduce fluid intake
Use diuretics to increase urine production
Excess salt intake
High salt levels (or hypernatremia) may occur due to excessive intake of salt or due to increased water loss (e.g. through sweating, vomiting or diarrhoea)
Excessive salt intake can impact the kidneys
Diabetics, babies and the elderly are at a higher risk than others
Symptoms include:
Thirst
Confusion
Muscle twitching
Fatigue
In serious cases,
Seizures
Bleeding in the brain
Kidney damage or kidney failure
Treatment includes:
Careful control of fluid and sodium intake
In serious cases, an intravenous supply of balanced fluids may be required
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