lymphatic system system, general anatomy.pptx

• The body cells are bathed in interstitial (tissue) fluid, which leaks constantly out of the
bloodstream through the permeable walls of blood capillaries.
• It is very similar in composition to blood plasma.
• Some tissue fluid returns to the capillaries at their venous end and the remainder diffuses
through the more permeable walls of the lymph capillaries, forming lymph.
The lymphatic system consists of:
1. lymph
2. lymph vessels
3. lymph nodes
4. lymph organs, e.g. spleen and thymus
5. diffuse lymphoid tissue, e.g. tonsils
6. bone marrow

Functions of the lymphatic system
Tissue drainage
Every day, around 21 litres of fluid from plasma, carrying dissolved substances and some
plasma protein,
• escape from the arterial end of the capillaries and into the tissues and
• most of this fluid is returned to the bloodstream via the capillary at its venous end,
but the excess, about 3-4 litres of fluid, is drained away by the lymphatic vessels.
Without this, the tissues would rapidly become waterlogged, and the cardiovascular system
would begin to fail

Absorption in the small intestine
Fat and fat soluble materials are absorbed into the lymphatic vessels of the
villi
Immunity
• production and maturation of lymphocytes
• white blood cells responsible for immunity
• Bone marrow is therefore considered to be lymphatic tissue, since
lymphocytes are produced there.

1. Lymph
• Clear watery fluid, similar in composition to plasma,
• Transports the plasma proteins that seep out of the capillary beds back to the bloodstream
• Carries away larger particles, e.g. bacteria and cell debris from damaged tissues, which
can then be filtered out and destroyed by the lymph nodes
• Contains lymphocytes, which circulate in the lymphatic system
• In the lacteals of the small intestine, fats absorbed into the lymphatics give the lymph
(chyle), a milky appearance.

Lymph capillaries
• These originate as blind-end tubes in the interstitial
spaces
• have the same structure as blood capillaries, i.e. a
single layer of endothelial cells, but their walls are
more permeable to all interstitial fluid constituents,
including proteins and cell debris.
• The tiny capillaries join up to form larger lymph
vessels
• Nearly all tissues have a network of lymphatic vessels,
 exceptions:
1. central nervous system
2. cornea of the eye
3. bones and
4. the most superficial layers of the skin

2. Larger lymph vessels
• often found running alongside the arteries and veins
• Their walls are about the same thickness as those of small veins and have the
same layers of tissue,
i.e. a fibrous covering,
middle layer of smooth muscle and elastic tissue and
an inner lining of endothelium.

• Like veins, lymph vessels have numerous
cup-shaped valves to ensure that
lymph flows in a one-way system
towards the thorax.
• There is no 'pump', like the heart, involved
in the onward movement of lymph, but the
muscle layer in the walls of the large lymph
vessels has an intrinsic ability to contract
rhythmically (the lymphatic pump).
• In addition, lymph vessels are compressed
by activity in adjacent structures, such as
contraction of muscles and the regular
pulsation of large arteries. This 'milking'
action on the lymph vessel wall helps to
push lymph along.

• Lymph vessels become larger as they join together, eventually forming two large ducts,
the
• thoracic duct and
• right lymphatic duct, which empty lymph into the subclavian veins.
Thoracic duct
• This duct begins at the cisterna chyli, which is a dilated lymph channel situated in front
of the bodies of the first two lumbar vertebrae.
• The duct is about 40 cm long and opens into the left subclavian vein in the root of the
neck.
• Right lymphatic duct This is a dilated lymph vessel about 1 cm long. It lies in the root
of the neck and opens into the right subclavian vein.

Thoracic duct
It drains lymph from both
legs, the pelvic and
abdominal cavities, the left
half of the thorax, head and
neck and the left arm.
Right lymphatic duct :
drains lymph from the right
half of the thorax, head and
neck and the right arm

3. Lymph nodes
• oval or bean-shaped organs that lie, often in groups, along the length of lymph vessels.
• The lymph drains through a number of nodes, usually 8–10, before returning to the
venous circulation.
• These nodes vary considerably in size: some are as small as a pin head and the largest
are about the size of an almond

• Lymph nodes have an outer capsule of
fibrous tissue that dips down into the node
substance forming partitions, or trabeculae.
• The main substance of the node consists of
reticular and lymphatic tissue containing
many lymphocytes and macrophages
Reticular cells produce the network of fibres
that provide internal structure within the lymph
node
lymphatic tissue contains immune and
defence cells, including lymphocytes and
macrophages.
As many as four or five afferent lymph vessels
may enter a lymph node while only one
efferent vessel carries lymph away from the
node

• Each node has a concave surface called the hilum where an artery enters and
a vein and the efferent lymph vessel leave
• large numbers of lymph nodes situated in strategic positions throughout the
body are arranged in deep and superficial groups.
• Lymph from the head and neck passes through deep and superficial cervical
nodes

Lymph from:
upper limbs passes through nodes situated in the elbow region, then through
the deep and superficial axillary nodes
organs and tissues in the thoracic cavity drains through groups of nodes
situated close to the mediastinum,
Most of the lymph from the breast passes through the axillary nodes.
pelvic and abdominal cavities passes through many lymph nodes before
entering the cisterna chyli
lower limbs drains through deep and superficial inguinal nodes

Functions
• Filtering and phagocytosis
• Lymph is filtered by the reticular and lymphatic tissue as it passes through lymph nodes
• Particulate matter may include bacteria, dead and live phagocytes containing ingested
microbes, cells from malignant tumours, worn out and damaged tissue cells and inhaled
particles
• Organic material is destroyed in lymph nodes by macrophages and antibodies
• In some cases where phagocytosis of bacteria is incomplete they may stimulate
inflammation and enlargement of the node (lymphadenopathy).
• Proliferation of lymphocytes
Activated T- and B-lymphocytes multiply in lymph nodes.
Antibodies produced by sensitised B-lymphocytes enter lymph and blood draining the node

Spleen
• contains reticular and lymphatic tissue
and is the largest lymph organ
• lies in the left hypochondriac region of
the abdominal cavity between the fundus
of the stomach and the diaphragm
• purplish in colour
• varies in size in different individuals, but
is usually about 12 cm long, 7 cm wide
and 2.5 cm thick
• weighs about 200 g

Tonsils
• Uncapsulated collections of lymphoid tissue located in the back of mouth
and throat.
• They are largest in childhood and regresses with age
1. Pharyngeal tonsil/adenoid
2. Palatine tonsil
3. Lingual tonsil

• spleen is slightly oval in shape with the hilum on
the lower medial border.
• anterior surface is covered with peritoneum
• enclosed in a fibroelastic capsule that dips into the
organ, forming trabeculae
• The cellular material, consisting of lymphocytes
and macrophages, is called splenic pulp, and lies
between the trabeculae.
• Red pulp is the part suffused with blood and
• white pulp consists of areas of lymphatic tissue
where there are sleeves of lymphocytes and
macrophages around blood vessels.

Structures passing through hilum are:
1. splenic artery, a branch of the coeliac artery
2. splenic vein, a branch of the portal vein
3. lymph vessels (efferent only)
4. Nerves
• Blood passing through the spleen flows in sinusoids, which have distinct pores
between the endothelial cells, allowing it to come into close association with
splenic pulp.
• This is essential for the spleen’s function in removing ageing or damaged cells
from the bloodstream

Functions
• Phagocytosis
• Storage of blood: spleen contains upto 350 mL of blood ,and in response to sympathetic
stimulation can rapidly return most of this volume to the circulation, e.g. in haemorrhage
Immune response
• spleen contains T- and B-lymphocytes, which are activated by the presence of antigens, e.g.
in infection.
• Lymphocyte proliferation during serious infection can cause enlargement of the spleen
(splenomegaly)
• Erythropoiesis
spleen and liver are important sites of fetal blood cell production, and the spleen can also fulfil
this function in adults in times of great need.

Thymus gland
• lies in the upper part of the mediastinum behind the sternum and extends
upwards into the root of the neck
• weighs about 10 to 15 g at birth and grows until puberty, when it begins to
atrophy.
• Its maximum weight, at puberty, is between 30 and 40 g

Function:
• Lymphocytes originate from
stem cells in red bone marrow
• Those that enter the thymus
develop into activated T-
lymphocytes

Mucosa-associated lymphoid tissue (MALT)
• collections of lymphoid tissue which, unlike the spleen and thymus, are not
enclosed within a capsule
• They contain B- and T-lymphocytes, and are important in the early detection of
invaders
• have no afferent lymphatic vessels, they do not filter lymph, and are therefore
not exposed to diseases spread by lymph
• found throughout the GIT, respiratory tract, genitourinary tract

Mucosa-associated lymphoid tissue (MALT)
• main groups of MALT:
tonsils and
aggregated lymphoid follicles (Peyer's patches)

lymphatic system system, general anatomy.pptx

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