Download Lymphatic System • Returns fluids that leaked from blood vessels

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

Document related concepts
no text concepts found
Transcript
9/29/2014
Lymphatic System
Lymphoid Organs and Tissues
• Returns fluids that leaked from blood
vessels back to blood
• Consists of three parts
• Provide structural basis of immune system
• House phagocytic cells and lymphocytes
• Structures include spleen, thymus, tonsils,
lymph nodes, other lymphoid tissues
1. Network of lymphatic vessels (lymphatics)
2. Lymph – fluid in vessels
3. Lymph nodes – cleanse lymph
© 2013 Pearson Education, Inc.
Lymphatic System: Functions
© 2013 Pearson Education, Inc.
Figure 20.1 Distribution and special features of lymphatic capillaries.
Venous system
Heart
Arterial system
Lymphatic system:
Lymph duct
Lymph trunk
Lymph node
Collecting lymphatic
vessels, with valves
• Lymphatic vessels (lymphatics)
Lymphatic capillary
Blood capillaries
– Return interstitial fluid and leaked plasma
proteins back to blood
– ~ 3L / day
– Once interstitial fluid enters lymphatics, called
lymph
Tissue
fluid
Tissue cell
Blood
capillaries
Lymphatic
capillaries
Structural relationship between a capillary
bed of the blood vascular system and
lymphatic capillaries.
Filaments anchored
to connective tissue
Endothelial cell
Flaplike minivalve
Fibroblast in loose
connective tissue
© 2013 Pearson Education, Inc.
© 2013 Pearson Education, Inc.
Lymphatic capillaries are blind-ended tubes in which
adjacent endothelial cells overlap each other,
forming flaplike minivalves.
Lymphatic Vessels: Distribution and
Structure
Lymphatic Capillaries
• One-way system; lymph flows toward
heart
• Lymph vessels (lymphatics) include:
• Similar to blood capillaries, except
– Lymphatic capillaries
– Collecting lymphatic vessels
– Lymphatic trunks and ducts
– Very permeable (take up proteins, cell debris,
pathogens, and cancer cells)
• Endothelial cells overlap loosely to form one-way
minivalves
• Anchored by collagen filaments, preventing
collapse of capillaries; increased ECF volume
opens minivalves
– Pathogens travel throughout body via
lymphatics
© 2013 Pearson Education, Inc.
© 2013 Pearson Education, Inc.
1
9/29/2014
Lymphatic Capillaries
• Absent from bones, teeth, bone marrow,
and CNS
• Lacteals: specialized lymph capillaries
present in intestinal mucosa
– Absorb digested fat and deliver fatty lymph
(chyle) to the blood
Figure 20.1b Distribution and special features of lymphatic capillaries.
Filaments anchored
to connective tissue
Endothelial cell
Flaplike minivalve
Fibroblast in loose
connective tissue
Lymphatic capillaries are blind-ended tubes in which
adjacent endothelial cells overlap each other,
forming flaplike minivalves.
© 2013 Pearson Education, Inc.
© 2013 Pearson Education, Inc.
Lymphatic Collecting Vessels
Lymphatic Trunks
• Similar to veins, except
• Formed by union of largest collecting
ducts
– Have thinner walls, with more internal valves
– Anastomose more frequently
• Collecting vessels in skin travel with
superficial veins
• Deep vessels travel with arteries
• Nutrients supplied from branching vasa
vasorum
© 2013 Pearson Education, Inc.
Lymphatic Ducts
– Paired lumbar
– Paired bronchomediastinal
– Paired subclavian
– Paired jugular trunks
– Single intestinal trunk
© 2013 Pearson Education, Inc.
Figure 20.2a The lymphatic system.
• Lymph delivered into one of two large
ducts
– Right lymphatic duct drains right upper arm
and right side of head and thorax
– Thoracic duct arises as cisterna chyli;
drains rest of body
Entrance of
right lymphatic
duct into vein
Cervical
nodes
Entrance of
thoracic duct
into vein
Thoracic
duct
Axillary
nodes
Cisterna
chyli
Aorta
Collecting
lymphatic
vessels
• Each empties lymph into venous
circulation at junction of internal jugular
and subclavian veins on its own side of
body
© 2013 Pearson Education, Inc.
Regional
lymph
nodes:
Internal
jugular vein
Inguinal
nodes
Drained by the right lymphatic duct
Drained by the thoracic duct
© 2013 Pearson Education, Inc.
General distribution of collecting lymphatic
vessels and regional lymph nodes.
2
9/29/2014
Figure 20.2b The lymphatic system.
Right jugular trunk
Right lymphatic
duct
Right subclavian
trunk
Internal
jugular veins
Right subclavian
vein
Right bronchomediastinal trunk
Brachiocephalic
veins
Superior
vena cava
Azygos vein
Esophagus
Trachea
Left jugular
trunk
Left subclavian
trunk
Left subclavian
vein
Entrance of
thoracic duct
into vein
Left bronchomediastinal
trunk
Ribs
Thoracic duct
Cisterna chyli
Right lumbar
trunk
Hemiazygos
vein
Lymph Transport
• Lymph propelled by
– Milking action of skeletal muscle
– Pressure changes in thorax during breathing
– Valves to prevent backflow
– Pulsations of nearby arteries
– Contractions of smooth muscle in walls of
lymphatics
Left lumbar
trunk
Inferior vena cava
Intestinal trunk
Major lymphatic trunks and ducts in relation to veins and
surrounding structures. Anterior view of thoracic and abdominal wall.
© 2013 Pearson Education, Inc.
© 2013 Pearson Education, Inc.
Lymphoid Cells
Lymphocytes
• Lymphocytes main warriors of immune
system
• T cells and B cells protect against
antigens
– Arise in red bone marrow
• Mature into one of two main varieties
– T cells (T lymphocytes)
– B cells (B lymphocytes)
© 2013 Pearson Education, Inc.
– Anything body perceives as foreign
• Bacteria and bacterial toxins, viruses,
mismatched RBCs, cancer cells
© 2013 Pearson Education, Inc.
Lymphocytes
Other Lymphoid Cells
• T cells
• Macrophages phagocytize foreign
substances; help activate T cells
• Dendritic cells capture antigens and
deliver them to lymph nodes; activate
T cells
• Reticular cells produce reticular fiber
stroma that supports other cells in
lymphoid organs
– Manage immune response
– Attack and destroy infected cells
• B cells
– Produce plasma cells, which secrete
antibodies
• Antibodies mark antigens for destruction by
phagocytosis or other means
© 2013 Pearson Education, Inc.
© 2013 Pearson Education, Inc.
3
9/29/2014
Figure 20.3 Reticular connective tissue in a human lymph node.
Lymphoid Tissue
Macrophage
Reticular cells on
reticular fibers
Lymphocytes
Medullary sinus
Reticular fiber
• Houses, and provides proliferation site for,
lymphocytes
• Surveillance vantage point for
lymphocytes and macrophages
• Largely reticular connective tissue –
type of loose connective tissue
• Two main types
– Diffuse lymphoid tissue; Lymphoid
follicles
© 2013 Pearson Education, Inc.
© 2013 Pearson Education, Inc.
Lymphoid Tissue
Lymphoid Tissue
• Diffuse lymphoid tissue of lymphoid cells
and reticular fibers in ~ every body organ
• Lymphoid follicles (nodules) are solid,
spherical bodies of tightly packed
lymphoid cells and reticular fibers
– Larger collections in lamina propria of mucous
membranes
© 2013 Pearson Education, Inc.
– Germinal centers of proliferating B cells
– May form part of larger lymphoid organs
– Isolated aggregations of Peyer's patches and
in appendix
© 2013 Pearson Education, Inc.
Figure 20.5 Lymphoid organs.
Tonsils (in pharyngeal
region)
Thymus (in thorax; most
active during youth)
Spleen (curves around
left side of stomach)
Lymph Nodes
• Principal lymphoid organs of body
• Embedded in connective tissue, in clusters
along lymphatic vessels
• Near body surface in inguinal, axillary, and
cervical regions of body
Peyer’s patches
(aggregated lymphoid
nodules in small
intestine)
Appendix
© 2013 Pearson Education, Inc.
© 2013 Pearson Education, Inc.
4
9/29/2014
Figure 20.2a The lymphatic system.
Regional
lymph
nodes:
Internal
jugular vein
Entrance of
right lymphatic
duct into vein
Cervical
nodes
Entrance of
thoracic duct
into vein
Thoracic
duct
Axillary
nodes
Cisterna
chyli
Lymph Nodes
• Functions
1. Filter lymph—macrophages destroy
microorganisms and debris
2. Immune system activation—lymphocytes
activated and mount attack against antigens
Aorta
Inguinal
nodes
Collecting
lymphatic
vessels
Drained by the right lymphatic duct
Drained by the thoracic duct
© 2013 Pearson Education, Inc.
General distribution of collecting lymphatic
vessels and regional lymph nodes.
© 2013 Pearson Education, Inc.
Structure of a Lymph Node
Structure of a Lymph Node
• Vary in shape and size but most bean
shaped
• External fibrous capsule
• Trabeculae extend inward and divide
node into compartments
• Two histologically distinct regions
• Cortex contains follicles with germinal
centers, heavy with dividing B cells
• Dendritic cells nearly encapsulate follicles
• Deep cortex houses T cells in transit
• T cells circulate continuously among
blood, lymph nodes, and lymph
– Cortex
– Medulla
© 2013 Pearson Education, Inc.
© 2013 Pearson Education, Inc.
Figure 20.4a Lymph node.
Afferent
lymphatic
vessels
Cortex
• Lymphoid follicle
• Germinal center
• Subcapsular sinus
Efferent
lymphatic
vessels
Structure of a Lymph Node
• Medullary cords extend inward from cortex
and contain B cells, T cells, and plasma
cells
• Lymph sinuses contain macrophages
Hilum
Medulla
• Medullary
cord
• Medullary
sinus
Trabeculae
Capsule
Longitudinal view of the internal structure of a lymph
node and associated lymphatics
© 2013 Pearson Education, Inc.
© 2013 Pearson Education, Inc.
5
9/29/2014
Figure 20.4b Lymph node.
Circulation in the Lymph Nodes
• Lymph
Follicles
Trabecula
– Enters convex side via afferent lymphatic
vessels; travels through large subcapsular
sinus and smaller sinuses to medullary
sinuses; exits concave side at hilum via
efferent vessels
Subcapsular
sinus
Capsule
• Fewer efferent vessels so flow somewhat
stagnate; allows lymphocytes and
macrophages time to function
Medullary
cords
Medullary
sinuses
Photomicrograph of part of a lymph
node (72x)
© 2013 Pearson Education, Inc.
© 2013 Pearson Education, Inc.
Figure 20.4 Lymph node.
Spleen
Cortex
Afferent
lymphatic
vessels
• Lymphoid follicle
• Germinal center
• Largest lymphoid organ
• Served by splenic artery and vein, which
enter and exit at the hilum
• Functions
• Subcapsular sinus
Efferent
lymphatic
vessels
Follicles
Trabecula
Subcapsular
sinus
– Site of lymphocyte proliferation and immune
surveillance and response
– Cleanses blood of aged cells and platelets,
macrophages remove debris
Hilum
Medulla
Capsule
• Medullary
cord
• Medullary
sinus
Medullary
cords
Trabeculae
Capsule
Longitudinal view of the internal structure of a lymph
node and associated lymphatics
Medullary
sinuses
Photomicrograph of part of a lymph
node (72x)
© 2013 Pearson Education, Inc.
Figure 20.6c The spleen.
© 2013 Pearson Education, Inc.
Spleen: Additional Functions
Diaphragm
Spleen
Adrenal
gland
Left
kidney
Splenic
artery
Pancreas
Photograph of the spleen in its normal position in
the abdominal cavity, anterior view.
© 2013 Pearson Education, Inc.
• Stores breakdown products of RBCs (e.g.,
iron) for later reuse
• Stores blood platelets and monocytes
• May be site of fetal erythrocyte production
(normally ceases before birth)
• Encased by fibrous capsule; has
trabeculae
• Contains lymphocytes, macrophages, and
huge numbers of erythrocytes
© 2013 Pearson Education, Inc.
6
9/29/2014
Figure 20.6a–b The spleen.
Structure of the Spleen
• Two distinct areas
Capsule
Trabecula
– White pulp around central arteries
• Mostly lymphocytes on reticular fibers; involved in
immune functions
– Red pulp in venous sinuses and splenic
cords
• Rich in RBCs and macrophages for disposal of
worn-out RBCs and bloodborne pathogens
• Composed of splenic cords and sinusoids
© 2013 Pearson Education, Inc.
Splenic cords
Splenic
sinusoids
Arterioles
and
capillaries
Splenic
artery
Splenic
vein
Hilum
Red pulp
White pulp
Central artery
Diagram of the spleen,
anterior view
Splenic artery
Splenic vein
Diagram of spleen histology
© 2013 Pearson Education, Inc.
Thymus
Thymus
• Important functions early in life
• Found in inferior neck; extends into
mediastinum; partially overlies heart
• Increases in size and most active during
childhood
• Stops growing during adolescence, then
gradually atrophies
• Thymic lobules contain outer cortex and
inner medulla
• Most thymic cells are lymphocytes
– Still produces immunocompetent cells, though
slowly
© 2013 Pearson Education, Inc.
– Cortex contains rapidly dividing lymphocytes
and scattered macrophages
• Medulla contains fewer lymphocytes and
thymic corpuscles involved in regulatory
T cell development (prevent autoimmunity)
© 2013 Pearson Education, Inc.
Figure 20.7 The thymus.
Thymus
• Differs from other lymphoid organs in
important ways
– Has no follicles because it lacks B cells
– Does not directly fight antigens
Capsule
• Functions strictly in T lymphocyte maturation
– Keeps isolated via blood thymus barrier
Cortex
Medulla
Thymic
corpuscles
© 2013 Pearson Education, Inc.
• Stroma of epithelial cells (not reticular
fibers)
– Provide environment in which T lymphocytes
become immunocompetent
© 2013 Pearson Education, Inc.
7
9/29/2014
Mucosa-associated Lymphoid Tissue
(MALT)
Tonsils
• Lymphoid tissues in mucous membranes
throughout body
• Protects from pathogens trying to enter
body
• Largest collections of MALT in tonsils,
Peyer's patches, appendix
• Also in mucosa of respiratory and
genitourinary organs; rest of digestive tract
• Simplest lymphoid organs
• Form ring of lymphatic tissue around pharynx
© 2013 Pearson Education, Inc.
Tonsils
–
–
–
–
Palatine tonsils—at posterior end of oral cavity
Lingual tonsil—grouped at base of tongue
Pharyngeal tonsil—in posterior wall of nasopharynx
Tubal tonsils—surrounding openings of auditory
tubes into pharynx
• Gather and remove pathogens in food or air
© 2013 Pearson Education, Inc.
Figure 20.8 Histology of the palatine tonsil.
Pharyngeal tonsil
• Contain follicles with germinal centers
• Are not fully encapsulated
• Overlying epithelium invaginates forming
tonsillar crypts
Palatine tonsil
Lingual tonsil
– Trap and destroy bacteria and particulate
matter
– Allow immune cells to build memory for
pathogens
© 2013 Pearson Education, Inc.
Aggregates of Lymphoid Follicles
© 2013 Pearson Education, Inc.
Germinal centers
in lymphoid follicles
Tonsillar
crypt
Figure 20.9 Peyer’s patch (aggregated lymphoid nodules).
• Peyer's patches
– Clusters of lymphoid follicles
– In wall of distal portion of small intestine
– Similar structures are also found in the
appendix
Follicles of a
Peyer’s patch
(aggregated
lymphoid nodules)
• Peyer's patches and appendix
– Destroy bacteria, preventing them from
breaching intestinal wall
– Generate "memory" lymphocytes
© 2013 Pearson Education, Inc.
Smooth muscle in
the intestinal wall
© 2013 Pearson Education, Inc.
8
9/29/2014
Developmental Aspects
Developmental Aspects
• Beginnings of lymphatic vessels and main
clusters of lymph nodes by 5th week of
embryonic development
• Lymphoid organs (except thymus) develop
from mesodermal mesenchymal cells
• Thymus (endodermal origin) forms as an
outgrowth of pharynx
• Except for spleen and tonsils, lymphoid
organs poorly developed at birth
• After birth high numbers of lymphocytes;
their development parallels maturation of
immune system
– Arise as lymph sacs from developing veins
– Jugular lymph sacs arise  right lymphatic
duct and thoracic duct
• Lymphatic organs (except thymus) arise
from mesoderm
© 2013 Pearson Education, Inc.
© 2013 Pearson Education, Inc.
9