3. Homeostasis
Why is it important for our body
to maintain steady state?
Chemical reactions in our body
are controlled by enzymes and
enzymes need optimum
temperature and pH to function.
4. Our control systems
The brain has overall control of our body
processes. When blood flows through the brain it
checks:
Temperature
Concentration of chemicals such as carbon di
oxide
Blood sugar level is kept constant in our body by
pancreas and liver.
Water level is kept steady by kidneys.
pH of blood is kept constant at 7.4 by the kidneys.
The carbon dioxide concentration of blood is
controlled by lungs
5. Negative feedback mechanism
Negative feedback is a regulatory mechanism in
which a 'stimulus' causes an opposite 'output' in
order to maintain an ideal level of whatever is
being regulated.
6. Controlling blood sugar
Insulin causes glucose to
change into glycogen
Normal blood
glucose level
Glucagon causes glycogen to
change into glucose
Normal blood
glucose level
Glucose rises
(food intake)
Glucose falls
(exercise)
Glucose falls
Glucose rises
7. Controlling blood sugar
Blood sugar level is controlled by the pancreas.
As a result of the negative feedback it gets, it
eithers:
Makes insulin to decrease blood sugar
Makes glucagon to increase blood sugar
9. Diabetes
Disease that occurs due to deficiency of insulin
or development of resistance to insulin.
Symptoms:
o Increased urination
o Increased eating
o Increased thirst
Reason why glucose is found in the urine of the
diabetic patient is because kidneys can not
reabsorb the excess glucose present in the blood.
One of the complication of diabetes is cataract-
Lens in the eye becomes cloudy
13. Structure of skin
1. Epidermis: The epidermis is composed
of the outermost layers of the skin. It
forms a protective barrier over the body's
surface, responsible for keeping water in
the body and preventing pathogens from
entering.
2. Dermis: Consists of connective tissue. It
has the sensory receptors for touch and
temperature, blood vessels, hair follicles,
sweat glands and sebaceous glands.
3. Subcutaneous layer: Contains fat
(adipose tissue).
14. Functions of skin:
Protects body from damage
Stops pathogens from getting in
Stops too much water loss
Lets you feel touch,pain,temperature and
pressure
Helps to keep your temperature constant
15. Hot or cold?
Humans are homiothermic (warm blooded). This
means we can maintain our body temperature
constant all the time. The optimum temperature
is 37 degrees centigrade. This is the best
temperature the enzymes work.
Ectothermic (cold blooded) lizards can not do
this.
16. Controlling body temperature
Brain switches on
cooling
mechanism
Normal body
temperature
Normal body
temperature
Brain switches on
warming
mechanisms
Blood gets too hot
Blood gets too cold
Blood temperature falls
Blood temperature rises
17. Controlling body temperature
Optimum body temperature is 37
degree centigrade.
Cooling mechanism:
• Blood vessels in the skin dilate-
vasodilation
• This allows more blood to flow to the
surface so more heat is lost by
radiation.
• Sweat glands in skin makes more
sweat. Sweat evaporates and cools you
down.
18. Controlling body temperature
Warming mechanism:
• Blood vessels constricts (narrows) –
vasoconstriction.
• So less heat is lost by radiation.
• Sweat glands stop making sweat.
• Shivering- muscles contracts and therefore
produces extra heat.
20. Excretion
Excretion: Removing waste made by our cells is
called excretion.
Eg. Of waste produced in our body- carbondioxide,
urea
Excretory organs of our body:
Skin
Lungs: excrete carbondioxide
Kidneys: Excrete urea and other salts
Liver: excretes chemical wastes in bile
21. Deamination
Excess amino acids are converted into
urea by liver. This is called deamination.
Then this urea is excreted by the
kidneys.
22. Structure of kidney
Our body has one pair of kidneys situated in the
back of our body.
Kidneys have two areas:
1. outer cortex
2. inner medulla
The functional part of the kidney is called nephron.
Nephron are tubular in structure. Filtration occurs in
the cortex area.
24. Parts of nephron
Glomerulus: Tuft of capillaries present
Bowman’s capsule
Proximal convoluted tubule
Loop of Henle
Distal convoluted tubule
Collecting tubule
25. How kidney works
Renal artery brings blood containing the waste (eg.urea) to the
kidneys
Renal artery forms branches which ends into a bunch of
capillaries called glomerulus
As blood passes through the glomerulus it is filtered. Large
molecules like blood proteins stay back. Small molecules like urea,
glucose, salt and water passes into the Bowman’s capsule from the
glomerulus.
All the glucose, some salt and water are needed by the body so
they are reabsorbed back into the blood. This occurs against
the concentration gradient with the help of active transport.
26. How the kidney works
The remaining fluid in the nephron contains urea and
some salts dissolved in water- this forms the urine.
This urine passes out of the kidneys into the bladder
via ureter.
The cleaned blood leaves the kidneys via renal vein
27. Pituitary gland
Pituitary gland is present in the base of the brain.
It is known as the master gland as it helps to control
other glands.
Antidiuretic hormone is secreted by the pituitary
gland.
28. ADH (Antidiuretic hormone)
ADH (Antidiuretic hormone ) is secreted
by the pituitary gland, which is present
at the base of our brain.
Function of ADH: It helps in
reabsorption of water.
32. Controlling body water
When our blood becomes dilute:
1. No ADH is produced
2. the kidneys don’t reabsorb much
water, from the nephrons back into the
blood
3. dilute urine is produced
33. Controlling body water
When blood becomes concentrated:
1. ADH is produced
2. it tells the kidneys to absorb most
water from the nephrons back into the
blood
3. concentrated urine is produced
34. Kidney dialysis
Kidney dialysis is required in patients with renal
failure (when kidneys can’t function properly)
First a tube is connected to one of the patient’s vein.
The blood flows along the tube into the machine
3.Inside the machine the fluid passes over the
surface of a dialysis membrane. This separates the
patient’s blood from the dialysis fluid.
Urea diffuses out of the blood across the dialysis
membrane into the dialysis fluid.
35. KIDNEY DIALYSIS
The dialysis fluid already has sugar and salts so these
will not diffuse from the blood into the fluid.
Urea and other wastes leave the machine in the
dialysis fluid.
The patient’s cleaner blood passes back into the vein.
37. Kidney transplant
A person with failed kidneys may have a kidney transplant. This involves replacing
the diseased kidneys with a healthy one from donor.
To prevent transplant rejection sometimes the kidneys are taken from close
relatives or patients are first treated with immunosuppressive drugs.
