3. Arteriole end of capillaries venule end of capillaries
Blood capillaries
High hydrostatic
pressure
low hydrostatic
pressure90%
10%
4. 1. When blood flows from the arteriole into the
capillaries, there is a high hydrostatic pressure in
the capillaries. This is due to the pumping of the
heart and the resistance in the capillaries.
2. The high hydrostatic pressure in the capillaries
forces the plasma to pass across the one-cell thick
capillary walls into the space between the cells.
3. The plasma consisting of small molecules of
dissolved substances such as water, minerals,
glucose and amino acids.
5. 4. The fluid that fills up the space between the cells
is called tissue fluid or interstitial fluid.
5. The larger molecules like erythrocytes, platelets
and plasma proteins cannot pass through the
capillary walls. However, leucocytes like
phagocytes can squeeze into the fine pore
between the capillary walls and pass through it.
6. The interstitial fluid is the medium for exchange
of nutrients, waste products and respiratory
gases between the body cells and the capillaries.
6. 7. The interstitial fluid is also an optimal
internal environment for an organism.
8. The role of the phagocytes in the
interstitial fluid is to destroy any
microorganisms present.
7. 9. There are two ways the tissue fluid is
returned to the circulatory system:
85%
Blood
capillaries
The pressure in the capillary
end of the venule is lower
than the arteriole end.
diffuse
back into
15%
Lymphatic
capillaries
The interstitial fluid now is
called lymph once it enters
the lymphatic system.
diffuse
into
10. The lymph will return to the circulatory system
when it flows into the subclavian veins in the
shoulder.
8. 10 The lymphatic system consists of organs
such as:
Lymph nodes
Spleen
Thymus gland
Bone marrow
Tonsils
Appendix
12. 1. Lymphatic system consists of lymphatic vessels,
lymphatic capillaries, lymph nodes, spleen and
thymus.
2. The lymphatic vessel branches out into a very
fine vessel with blind-end called lymph
capillary.
3. At every interval along the lymphatic vessels,
there are valves to prevent the backflow of
lymph and to ensure the lymph flows in one
direction.
13. Lymph nodes
4. Lymph nodes are found in the specific areas along the
lymphatic vessels. The lymph nodes produce
lymphocytes which provide antibody to defend the body
from virus and bacteria infections. Phagocytes are also
present in the lymph nodes to ingest the bacteria, dead
leucocytes and other foreign particles.
5. In human, the major lymph nodes are located in the neck,
underarms and groin.
18. 1. Lymph flows from the lymph capillary into
lymph vessels.
2. Lymph from the left part of the head arm,
thorax, hind limbs and whole abdomen is
drained into thoracic duct, while lymph from the
right parts is drained into the right lymphatic
duct.
3. Lymph in the thoracic duct eventually enters
into the circulatory system via the left
subclavian vein, while the lymph in the right
lymphatic duct enter into the circulatory system
via the right subclavian vein.
19.
20.
21.
22. 4. The flow of lymph is aided by a few factors such as:
(a) contraction of smooth muscles in the wall of
the lymphatic vessels.
(b) contraction of the skeletal muscles when the
body moves.
(c) peristalsis movement in the alimentary canal.
(d) breathing movement.
(e) the pulses in the blood vessels.
24. 1. To collect the interstitial fluid in the spaces
between cells and return it to the circulatory
system.
2. To defend the body against disease by producing
lymphocytes which release antibodies to react with
the antigens.
3. To transport lipids, glycerol and fat soluble vitamins
(A, D, E, K) from the lacteal (lymph capillary) of the
villus into the thoracic duct back to the circulatory
system.
25. 4. To transport water, hormones, glucose, amino
acids, minerals and heat in the interstitial fluid
that diffuse into the lymphatic system back to
the circulatory again.
5. To transport waste products such as carbon
dioxide, urea, ammonia and other nitrogenous
compounds to the circulatory system to be
excreted by the lungs and kidneys.
33. There is no cure for elephantiasis. It is not a
common disease in most countries, but in
some tropical and subtropical countries it is a
fairly common and horribly disfiguring
disease. It's caused by infection-carrying
mosquitoes, usually in childhood and takes 9
to 12 years for victims to fully manifest the
symptoms. It's generally treated with palliative
care (reduce pain only).