HAP Chapter 20: The Lymphatic System and Lymphoid Organs PDF

Summary

This chapter from Marieb Human Anatomy & Physiology details the structure and function of the lymphatic system. It describes lymphatic vessels, lymph nodes, and lymphoid organs, emphasizing their role in fluid balance and immune responses. The chapter also covers lymphoid cells and tissues, and how they provide a critical surveillance mechanism against foreign substances. This PowerPoint lecture complements the textbook coverage.

Full Transcript

Marieb Human Anatomy & Physiology
Twelfth Edition

Chapter 20
The Lymphatic System and
Lymphoid Organs and Tissues

PowerPoint® Lecture Slides
prepared by Justin A. Moore,
American River College

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Video: Why This Matters (Career
Connection)
Understanding the structure and function of the lymph nodes allows
you to evaluate a patient for signs of infection

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The Lymphatic System and Lymphoid
Organs and Tissues
Lymphatic system returns fluids leaked from blood vessels back to blood;
consists of:
– Lymphatic vessels - Network of drainage vessels
– Lymph- Fluid in lymphatic vessels.
– Lymph nodes - Structures that cleanse lymph as it passes through

Lymphoid organs and tissues provide structural basis of immune system
– Role in body’s defense mechanisms and resistance to disease
– Structures include spleen, thymus, tonsils, lymph nodes, other lymphoid
tissues

Lymph Fluid

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 20.1 The Lymphatic System Includes Lymphatic
Vessels , Lymph, and Lymph Nodes
Hydrostatic and colloid osmotic pressures in blood capillaries
force fluid out at one end of the capillary and reabsorb it at the
other end
– The difference (up to 3 L daily) becomes part of the
interstitial fluid
Lymphatic vessels, or lymphatics, collect the excess protein-
containing interstitial fluid and return it to the blood
– Also transport pathogens to lymph nodes and absorbed fats
from intestine to blood

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Distribution and Structure of Lymphatic
Vessels
Lymphatic capillaries
– Blind-ended vessels that weave between tissue cells and blood capillaries
▪ Absent from bones and teeth
▪ In brain, astrocytes form channels that connect to lymphatics in
meninges; together form glymphatic system
– Helps drain E C F (interstitial and cerebrospinal fluids) and their
wastes
– Malfunction may play role in degenerative diseases (e.g.,
Alzheimer’s)
– Like blood capillaries, but much more permeable due to two unique
endothelial cell modifications:
▪ Overlap loosely to form one-way minivalves
▪ When pressure rises inside lymphatic capillaries, minivalve flaps
forced shut; prevents lymph from leaking back out as pressure moves
it along

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Distribution and Special
Features of Lymphatic
Capillaries (1 of 2)

Figure 20.1a Distribution and special
features of lymphatic capillaries.
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Distribution and Special Features of
Lymphatic Capillaries (2 of 2)

Figure 20.1b Distribution and special features of lymphatic capillaries.
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Major Lymphatic Trunks and Ducts

Figure 20.2 Major lymphatic trunks and ducts.
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The Lymphatic
System

Figure 20.3 The lymphatic system.
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Clinical—Homeostatic Imbalance 20.1
Like larger blood vessels, larger lymphatics receive blood
supply from a vasa vasorum (small blood vessels providing
oxygen and nutrients to the walls of larger arteries and
veins)
– Become congested with blood during severe
inflammation, called lymphangitis
– Inflamed lymphatics appear as red streaks that are
tender to the touch

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Lymph Transport
Lymphatic vessels are low-pressure conduits; rely on same structures
and mechanisms that promote unidirectional blood flow through low-
pressure veins
– Mechanisms (with help of one-way valves) that promote flow
through lymphatics:
▪ Milking action of skeletal muscles
▪ Pressure changes in thorax during breathing
▪ Pulse pressure waves from adjacent arteries
▪ Rhythmic contractions of smooth muscle in walls of (all but
smallest) lymphatics
Physical activity increases flow of lymph
– Immobilize badly infected body part to restrict outflow of
inflammatory materials

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Clinical—Homeostatic Imbalance 20.2
Lymphedema: insufficient return of lymph to blood resulting
in severe localized edema
– May be caused by tumors blocking lymphatics or
removal of lymphatics during cancer surgery
– May improve if some lymphatic pathways remain and
enlarge

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20.2 Lymphoid Cells and Tissues Are
Found in Lymphoid Organs and in
Connective Tissue of Other Organs

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Lymphoid Cells (1 of 2)
Consist of immune system cells found in lymphoid tissues together with supporting cells
that form “scaffolding” of those tissues
Immune system cells in lymphoid tissues:
▪ T lymphocytes (T cells)
– Activated T cells manage immune response; some directly attack and
destroy infected cells
▪ B lymphocytes (B cells)
– Activated B cells produce plasma cells, which secrete antibodies that
mark antigens for destruction by phagocytosis or other means
– Macrophages phagocytize foreign substances and activate T cells
– Dendritic cells capture and deliver antigens to lymph nodes to activate T cells

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Lymphoid Cells (2 of 2)
Supporting cells
– Reticular cells: fibroblast-like cells that produce
reticular fiber stroma (network that supports other cell
types) in lymphoid organs and tissues

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 Lymphoid Tissue (1 of 2)
Lymphoid tissue is:
– An important component of the immune system:
▪ Houses and provides activation and proliferation sites for
lymphocytes
▪ Ideal surveillance location for lymphocytes and macrophages
– Largely composed of (loose) reticular connective tissue
▪ Dominates all the lymphoid organs except thymus
▪ Macrophages reside on reticular fibers
▪ Spaces between fibers provide place for lymphocytes to “live”
when they return from patrolling body

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Lymphoid Tissue (2 of 2)
Lymphoid tissue comes in various “packages”:
– Diffuse lymphoid tissue: loose arrangement of lymphoid cells and reticular
fibers
▪ Found in virtually every body organ
▪ Larger collections in lamina propria of mucous membranes
– Lymphoid follicles (lymphoid nodules): solid, spherical bodies consisting of
tightly packed lymphoid cells and reticular fibers
▪ Often have lighter-staining germinal centers of proliferating B cells
▪ May form part of larger lymphoid organs, like lymph nodes
▪ Isolated aggregations of lymphoid follicles found in:
– Intestinal wall (of ileum), called Peyer’s patches
– The appendix

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 Lymphoid Organs (1 of 4)
Lymphoid organs are grouped into two functional categories:
– Primary lymphoid organs: where T and B cells mature
▪ B cells mature in red bone marrow
▪ T cells mature in thymus
– Secondary lymphoid organs: where mature lymphocytes
first encounter their antigens and become activated; include:
▪ Lymph nodes and spleen
▪ Collections of mucosa-associated lymphoid tissue (MALT)
that form:
– Tonsils, Peyer’s patches in small intestine, and
appendix
▪ Diffuse lymphoid tissues

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Lymphoid
Organs (2 of 4)

Figure 20.5 Lymphoid organs.

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20.3 Lymph Nodes Cleanse Lymph and
House Lymphocytes
Clustered along lymphatics, lymph nodes are the most important secondary lymphoid
organs
– Hundreds throughout body, mostly imbedded in connective tissue
– Large clusters near body surface in inguinal, axillary, and cervical regions (where
collecting lymphatic vessels converge to form trunks)
Two basic protective functions:
– Cleansing the lymph: act as lymph “filters” as lymph is transported back to blood
▪ Macrophages remove and destroy microorganisms and other substances that
enter lymph (that we don’t want entering blood)
– Immune system activation: strategically located in sites where lymphocytes
encounter antigens and are activated to mount attack against them
▪ Many antigens brought to lymph nodes from their point of entry by dendritic
cells, which present them to (and activate) T cells

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The Lymphatic
System (2 of 2)

Figure 20.3 The lymphatic system.

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Structure of a Lymph Node
Shape and size vary, but most are bean shaped and small (length < 2.5 cm or 1 in)
– Surrounded by external fibrous capsule; fibers extend inward as trabeculae to
divide node into compartments
Two histologically distinct regions:
– Cortex (outer part):
▪ Superficial part contains densely packed follicles, many with germinal centers
filled with dividing B cells
▪ Deep part houses T cells in transit (circulate among blood, nodes, and lymph)
▪ Abundant dendritic cells throughout
– Medulla (inner part): consists of medullary cords, thin inward extensions of
cortical tissue
▪ Contains B cells, T cells, and plasma cells

Lymph sinuses: large lymphatic capillaries spanned by crisscrossing reticular fibers;
found throughout node
– Macrophages reside on reticular fibers; phagocytize foreign matter in lymph

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Lymph Node (1 of 2)

Figure 20.6 Lymph node.
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 Circulation in the Lymph Nodes
Lymph enters via afferent lymphatic vessels
– Then travels through large subcapsular sinus followed
by smaller sinuses of cortex and medulla
Lymph passes through medullary sinuses before exiting
node at the hilum (indented region on concave side) via
efferent lymphatic vessels
Fewer efferent vessels draining node than afferent vessels
feeding it, so flow of lymph very slow, providing time for
lymphocytes and macrophages to function
– Lymph travels through several nodes before completely
cleansed

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Lymph Node (2 of 2)

Figure 20.6a Lymph node.
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Clinical—Homeostatic Imbalance 20.3
Buboes: infected lymph nodes (often pus-filled); bubonic
plague named for them
– Overwhelmed by bacteria they are trying to destroy
– Results in inflamed, swollen, and tender nodes—a
condition often referred to (erroneously) as swollen
“glands”—but correctly called lymphadenopathy
Lymph nodes can become secondary cancer sites if
metastasizing cells become trapped
– Cancer-infiltrated lymph nodes are swollen but usually
not painful, which helps distinguish cancerous nodes
from infected

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20.4 The Spleen Removes Bloodborne
Pathogens and Aged Red Blood Cells (1 of 2)
Spleen is soft, blood-rich organ about size of fist
– Largest lymphoid organ; located in left side of abdominal cavity, under
diaphragm
– Served by splenic artery and vein, which enter and exit at the hilum
– Provides site for lymphocyte proliferation and immune surveillance and
response
– Cleanses blood of aged and defective blood cells and platelets (via
macrophages)
Spleen also performs three additional, and related, functions:
– Stores iron and recycles breakdown products of red blood cells for later
reuse
– Stores blood platelets and monocytes for release into the blood when
needed
– May be a site of fetal erythrocyte production

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Lymphoid
Organs (3 of 4)

Figure 20.5 Lymphoid organs.
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The Spleen (1 of 4)

Figure 20.7a The spleen.
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The Spleen (2 of 4)

Figure 20.7c The spleen.
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20.4 The Spleen Removes Bloodborne
Pathogens and Aged Red Blood Cells (2 of 2)
Like lymph nodes, spleen is surrounded by fibrous capsule and has
trabeculae
Histologically, spleen consists of two components:
– White pulp: where immune function occurs
▪ Mostly lymphocytes on reticular fibers, forming “cuffs” around
central arteries; appear as islands of white in sea of red
– Red pulp: where old blood cells and bloodborne pathogens are
destroyed
▪ Lots of RBCs and macrophages that engulf them
▪ Composed of splenic cords (reticular tissue) that separate
blood-filled splenic sinusoids (venous sinuses)

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The Spleen (3 of 4)

Figure 20.7b The spleen.
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The Spleen (4 of 4)

Figure 20.7d The spleen.
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Clinical—Homeostatic Imbalance 20.4
Spleen has a thin capsule, so direct blow or severe infection
may cause it to rupture, spilling blood into peritoneal cavity
Splenectomy: surgical removal of spleen
– Was standard treatment, thought necessary to prevent life-
threatening hemorrhage and shock, but surgeons have
discovered spleen can often repair itself if left alone
▪ Frequency of emergency splenectomies has
decreased dramatically
Liver and bone marrow take over most of spleen’s functions if
removed
– In children younger than 12, spleen will regenerate if a
small part remains
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20.5 MALT Guards the Body’s Entryways
Against Pathogens
Mucosa-associated lymphoid tissue (MALT)
– Lymphoid tissues in mucous membranes throughout
body
▪ Lining the respiratory, genitourinary, and digestive
tracts
▪ Protects us from pathogens trying to enter body
– Largest collections include:
▪ Tonsils
▪ Peyer’s patches
▪ Appendix

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 Tonsils

Form ring of lymphoid tissue around entrance to pharynx (seen as swellings of mucosa)
– Gather and remove pathogens in food or inhaled air

Named according to location
– Paired palatine tonsils: on either side at posterior end of oral cavity
▪ Largest and most often infected
– Lingual tonsil: lumpy collection of lymphoid follicles at base of tongue
– Pharyngeal tonsil (adenoid if enlarged): in posterior wall of nasopharynx
– Pair of tubal tonsils: surround openings of auditory tubes into pharynx

Contain follicles with obvious germinal centers and diffusely scattered lymphocytes
– Trap debris and bacteria (which cross epithelium to enter lymphoid tissue)
▪ Immune cells activated and build “memory” against these pathogens

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Histology of the
Palatine Tonsil

Figure 20.8 Histology of the palatine tonsil.

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Peyer’s Patches
Peyer’s patches (aggregated lymphoid nodules): large
clusters of lymphoid follicles in wall of distal portion of
small intestine
– Structurally like tonsils
– Ideally located to:
▪ Prevent bacteria from breaching intestinal wall
▪ Generate “memory” lymphocytes for long-term
immunity

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Peyer’s Patch (Aggregated Lymphoid
Nodules)

Figure 20.9 Peyer’s patch (aggregated lymphoid nodules).

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 Appendix
Appendix: tubular offshoot of first
part of large intestine that contains
large number of lymphoid follicles
Like Peyer’s patches, ideally located
to:
– Prevent bacteria from breaching
intestinal wall
– Generate “memory” lymphocytes
for long-term immunity

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20.6 T Lymphocytes Mature in the
Thymus (1 of 2)
Thymus: bilobed lymphoid organ found in inferior neck;
extends into mediastinum and partially overlies heart
Thymus is site of T lymphocyte development
– Most active and largest during childhood
– After puberty, gradually atrophies
– In older adults, replaced almost entirely by fibrous and
fatty tissue
▪ Becomes difficult to distinguish from surrounding
connective tissue
▪ Still produces immunocompetent cells, though more
slowly
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20.6 T Lymphocytes Mature in the
Thymus (2 of 2)
Thymus divided into thymic lobules that contain an outer cortex and inner medulla
– Cortex contains rapidly dividing lymphocytes (the bulk of thymic cells) and scattered
macrophages
– Medulla contains fewer lymphocytes and structures called thymic corpuscles
▪ Involved in the development of regulatory T cells (important for preventing
autoimmune responses)
– Thymus (primary lymphoid organ) differs from secondary lymphoid organs in three
important ways:
▪ Has no follicles because it lacks B cells
▪ Does not directly fight antigens, functions strictly in T lymphocyte maturation
– Blood thymus barrier keeps immature T lymphocytes isolated from
antigens to prevent premature activation
▪ Stroma consists of epithelial cells (not reticular fibers), which provide
environment in which T lymphocytes mature

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The Thymus

Figure 20.10 The thymus.

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Table 20.1 Summary of Lymphoid Organs
and Tissues* (1 of 2)
Cortex
and Lymphoid Special
Blank
Major Functions Capsule Medulla Follicles Stroma Features
Lymph nodes Cleanse lymph Yes Yes Yes (in cortex) Reticular Both afferent
Site for connective and efferent
lymphocyte tissue lymphatic
An illustration shows a lymph node.

activation and vessels
proliferation

Spleen Cleanses blood Yes No Yes (in white Reticular Red and white
and removes pulp) connective pulp
aged or tissue
An illustration shows the spleen.

defective red
blood cells
Site for
lymphocyte
activation and
proliferation
Stores platelets,
monocytes, and
iron

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Table 20.1 Summary of Lymphoid Organs
and Tissues* (2 of 2)
Cortex
and Lymphoid Special
Major Functions Capsule Medulla Follicles Stroma Features
Prevent No No Yes Reticular Diffuse
M A L T super dagger symbol.

MALT † pathogens from connective lymphoid
penetrating tissue tissue in
An illustration shows mucosa-associated lymphoid tissues, or M A L T, in the intestines.

mucous addition to
membrane follicles
Site for
lymphocyte
activation and
proliferation
Thymus Site of T cell Yes Yes No Epithelial Thymic
An illustration shows the thymus.
maturation tissue corpuscles

*Red bone marrow, a primary lymphoid organ, is not included.
†
MALT = mucosa-associated lymphoid tissues.
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The Big Picture:
Lymph is “leaked” fluid recovered from tissues
- this fluid is transported back to the heart to maintain blood
volume

- this fluid may contain cellular debris, pathogens
(in the case of injury or infection)

The immune system scans this fluid and cleans it
up
- non-specific mechanisms (macrophages)
- specific mechanisms (B-cell/plasma cell antibodies)

The cardiovascular system receives this fluid
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