Download Homeostasis

Homeostasis
• Controlling your internal conditions
Carbon Dioxide
• Produced by respiration
• Removed from the lungs when we breathe out
• High concentration of CO2 in blood.
• Low concentration of CO2 in lungs.
• Blood moves from high
concentration to low concentration
down concentration gradient.
• CO2 in lungs breathed out during
exhalation.
Temperature
• Regulated in the thermoregulatory centre in the brain
• It has receptors that detect the temperature of the blood in the brain
• Temperature receptors in skin
• Done to maintain core body temperature needed for chemical
processes/enzymes to work effectively
When We’re Too Hot
Heat energy
Dilated
capillaries
• Sweating
• Heat loss by
evaporation
Skin
• Vasodilation
• Capillaries near skin surface get
bigger
• Heat lost by radiation
• When core body temperature is above 37°C
• Detected by skin and thermoregulatory centre
• Hairs lay down
• Stops air being
trapped – no
insulation
When We’re Too Hot
• Shivering
• Generate heat by muscles
rapidly contracting and
relaxing
• Heat from respiration and
friction
• Vasoconstrictions
• Capillaries near skin surface get
smaller
• Reduces heat lost by radiation
• When core body temperature is below 37°C
• Detected by skin and thermoregulatory centre
• Hairs stand up
• Traps air – good
insulator
Temperature
Too hot (temperature
above 37°C)
Too cold (temperature
below 37°C)
Sweating – increase heat Shivering – generate heat
loss by evaporation
by respiration in muscles
Hairs lay down – reduce
insulation
Hairs stand up – trap an
insulating layer of air
Vasodilation – increase
heat loss by radiation
Vasoconstriction – reduce
heat loss by radiation
Water
• Water is lost by:
• Sweating
• Breathing out
• Excretion
Water Filtration in the Nephron
Water, glucose, amino acids, protein,
mineral salts and urea filtered out of the
blood.
Water is mixed with the urea
here depending on hydration
levels.
Glucose, proteins, mineral salts and
amino acids are reabsorbed into the
blood.
Water is collected here depending on
the hydration level.
Urine is taken to the bladder
to be stored.
What happens when the kidneys go wrong?
Kidney Dialysis
Kidney Transplant
Kidney Dialysis
•
•
•
•
•
•
•
Blood is removed from arm and thinned to prevent clotting.
Goes through dialyser which contains membranes and dialysis fluid.
Large proteins and blood cells can’t fit through membrane.
Concentration of glucose, water and mineral ions same in dialysis fluid as in blood.
Urea moves from blood to dialysis fluid down concentration gradient.
Excess salt moves from blood to dialysis fluid down concentration gradient.
Air bubbles removed from clean blood and returned to body.
Kidney Transplant
• Need to find a donor that is a good tissue
match for the recipient.
• This means they need to find someone with
similar antigens on the cell surface.
• After the operation, immunosuppressant
drugs need to be taken to help prevent organ
rejection.
• This can lead to lots of side-effects such as
reduced immune response to communicable
diseases.
• Transplanted kidneys last on average 9 years
– then it’s back onto dialysis until a new
donor is found.
What happens when the kidneys go wrong?
Kidney Dialysis
 Machine removes toxins from blood
 Not very portable
 Hooked up to the machine for up to eight hours
three times a week
Kidney Transplant
 No need for machine to help clean blood
 Can take a long time to find a donor
 Body can reject donor organ
Glucose or Sugar
• Controlled by the pancreas
• It has receptors that detects the glucose levels in
the blood
• Releases hormones (chemical messengers that
travel through the bloodstream) to the liver
Insulin
Glucagon
HT Only: Glucose Regulation
Glucose receptors in
pancreas
Glucose too high.
Pancreas releases
insulin
Glucose too low.
Pancreas releases
glucagon.
Insulin tells liver to
convert glucose into
GLYCOGEN
Glucagon tells liver
and muscles to
convert GLYCOGEN
into glucose
GLYCOGEN stored in
liver and muscles
Glucose levels drop
Glucose levels rise
Diabetes
• Caused when pancreas doesn’t produce enough or any insulin
• Two types:
• Type 2 – controlled by diet and tablets
• Type 1 – controlled by insulin injections
• Symptoms of diabetes –
• Unbearable thirst
• Sweet smelling urine
• Weight loss due to protein digestion
• Extreme tiredness