Difference between revisions of "SH Lecture - Lymphatic Structure and Organs"

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Immune System
Immune System
Note: Immunity is covered in detail elsewhere in the course current lecture is about Lymphoid Organ structure/location
Note: Immunity is covered in detail elsewhere in the course, current lecture is about Lymphoid Organ structure/location
* Tissues and Organs
* Tissues and Organs

Revision as of 11:27, 22 February 2012



Mark Hill.jpg
Adult lymphatic system

--Mark Hill 10:23, 4 January 2012 (EST) This lecture is currently being reviewed and revised for 2012. The lecture will introduce the anatomical and cellular components of the immune system. The lecture will not cover development of the immune system or details on specific immune cell function.

SH Links: Lymphatic Lecture | Lymphatics Practical Support | Respiratory Lecture | Respiratory Practical Support | Medicine


This lecture will provide an overview of the histology of key lymphoid organs, including the lymph nodes, spleen and thymus, as well as extranodal lymphoid tissues including mucosal associated lymphoid tissues (MALT)

Key Concepts

  1. Lymphatic System
  2. Organs - Thymus, Spleen
  3. Lymph Nodes and Nodules
  4. Bone Marrow
  5. Extranodal Lymphoid Tissues
  6. Mucosal Associated Lymphoid Tissues (MALT)

Textbook References

Immune Links: immune | blood | spleen | thymus | Lymphatic | lymph node | Antibody | Med Lecture - Lymphatic Structure | Med Practical | Immune Movies | vaccination | bacterial infection | Abnormalities | Category:Immune
Historic Embryology  
1909 Lymph glands | 1912 Development of the Lymphatic System | 1918 Gray's Lymphatic Images | 1916 Pig Lymphatics | 1919 Chicken Lymphatic | 1921 Spleen | 1922 Pig Stomach Lymphatics | 1932 Cat Pharyngeal Tonsil | Historic Disclaimer

Two Systems

  • Lymphoid System - three major types of lymphocytes (T, B, and NK), tissues, organs and vessels
  • Mononuclear Phagocytic System (MPS, also called Lymphoreticular System or Reticuloendothelial System, RES) - circulating monocytes of peripheral blood and non-circulating (fixed) tissue macrophages found throughout the body

MBoC Figure 24-3 Human lymphoid organs

Lymphatic System

  • Connective Tissue Embryonic origin- Mesoderm
  • Consists of Cells, tissues and organs
  • Immune “monitor” of body surfaces, internal fluids

Immune System

Note: Immunity is covered in detail elsewhere in the course, current lecture is about Lymphoid Organ structure/location

These are blood cells

Blood Cells

Hematopoietic and stromal cell differentiation.jpg

Blood Cell proportions

Lymphocyte 01.jpg Lymphocyte 02.jpg

Central/Peripheral Lymphoid Organs

Central lymphoid organs

  • Lymphocytes develop from precursor cells

Peripheral lymphoid organs

  • Lymphocytes respond to antigen
  • lymph nodes or spleen

Mononuclear Phagocytic System

(Mononuclear Phagocytic System MPS, also called Lymphoreticular System or Reticuloendothelial System, RES)

Monocyte 01.jpg Liver- Kupffer cell and reticular fibre.jpg

Mononuclear Phagocytes 2 types:

  1. Circulating monocytes of peripheral blood (monocytes entering the connective tissue differentiate into macrophages)
  2. Non-circulating (fixed) tissue macrophages (MΦ) found throughout the body (Liver (Kuffler cells), spleen and other tissues)


  • Fluid portion of lymphatic circulation
  • blood plasma will leave blood vessels into surrounding tissues
  • adds to normal tissue interstitial fluid
  • surplus of liquid needs to be returned to circulation
  • Lymph vessels are provide unidirectional flow of this liquid

Lymph Vessels

Lymph capillary
Thoracic and right lymphatic ducts

Three types based on size and morphology

  • Lymph capillaries begin as blind-ending tubes in connective tissue, larger than blood capillaries, very irregularly shaped
  • Lymph collecting vessels larger and form valves, morphology similar to lymph capillaries
  • Lymph ducts 1 or 2 layers of smooth muscle cells in wall

(Remember anatomy NAVL = Nerve, Artery, Vein and Lymph)

Lymphocyte Circulation

MBoC Figure 24-14. The path followed by lymphocytes as they continuously circulate between the lymph and blood

  • The circulation through a lymph node is shown.
  • Microbial antigens are carried into the lymph node by dendritic cells, which enter via afferent lymphatic vessels draining an infected tissue.
  • T and B cells, by contrast, enter the lymph node via an artery and migrate out of the bloodstream through postcapillary venules.
  • Unless they encounter their antigen, the T and B cells leave the lymph node via efferent lymphatic vessels, which eventually join the thoracic duct.
  • The thoracic duct empties into a large vein carrying blood to the heart.
  • A typical circulation cycle takes about 12–24 hours.

Links: MBoC Chapter 24 - The Adaptive Immune System | MBoC Figure 24-14. The path followed by lymphocytes as they continuously circulate between the lymph and blood | Immunobiology

Diffuse Lymphatic Tissue

Alimentary canal, respiratory passage, urogenital tract

  • Not enclosed by a capsule
  • Located in subepithelial tissue - Lamina propria


  • travel to nodes and back again
  • proliferation and differentiation

Effector cells

  • B Cell secreting antibody = Plasma Cell
  • T Cell = Memory Cell
  • Diffuse lymphatic tissue + nodules
  • Reactive - enlarge when activated (by antigen)


Oesophagus MALT.jpg Internal epithelia Associated Lymphoid Tissue - naming based upon the anatomical locations
  • MALT - Mucosa Associated Lymphoid Tissue
    • BALT - Bronchus Associated Lymphoid Tissue
    • GALT - Gut Associated Lymphatic Tissue

Immune Responses

Adaptive immunity has 2 main classes

  1. Antibody-mediated - B Lymphocyte
  2. Cell-mediated - T Lymphocyte

Lymph Nodules

(or follicles)

  • Organized concentrations of Lymphocytes
    • No capsule, covered by epithelia
  • Nodules are also unit structure seen in a node
  • Oval concentrations in meshwork of reticular cells

Reticular cell

  • produces reticular fibers (collagen type III) and surrounds the fibers with its cytoplasm
  • reticular fibers are also produced by fibroblasts

Gastrointestinal Tract

  • Oropharynx - Tonsils
  • Distal small intestine (ilieum) - Peyer’s Patches
  • Appendix, cecum

Nodule States

  • Primary Nodule - Mainly small lymphocytes
  • Secondary Nodule
    • Central pale region (germinal centre) - Effector cells and macrophages
    • Dark outer ring (small lymphocytes)

Links: Immnuobiology - Figure 1.10. Organization of typical gut-associated lymphoid tissue


Anatomical location - Palatine (tonsils), Lingual and Pharyngeal ( adenoids )

Palatine Tonsils

300px 300px

  • the "tonsils", lateral wall of oropharynx
  • covered by stratified squamous epithelium
  • numerous crypts (10-20) infolds of surface epithelium
  • Afferent lymph vessels absent
  • Efferent lymph vessels are present

Lingual Tonsils

  • lamina propria root of tongue
  • covered by stratified squamous epithelium
  • salivary glands and skeletal muscle are directly adjacent

Pharyngeal Tonsils

  • adenoids or nasopharyngeal tonsils, upper posterior part of throat
  • covered by a pseudostratified ciliated epithelium with goblet cells

Peyer's Patch

Peyer's patch 01.jpg Peyer's patch 02.jpg

Peyer's Patch, Ileum

microfold cells or M-cells

Lymph Nodes

Quicktime Movie - Mouse Lymph Node 7 | more lymph node movies

Lymph node structure.jpg
Schematic of lymph node showing lymph sinuses

Immunobiology - Figure 1.8. Organization of a lymph node

MBoC Figure 24-16. A simplified drawing of a human lymph node

* Encapsulated organ (1 mm - 2 cm)
  • In lymph vessel pathways “filter”
  • Afferent- towards node
  • Efferent- away from node
  • Location throughout the entire body - Concentrated in axilla, groin, mesenteries
  • Antigen transformed lymphocytes from the blood
Lymph node histology 06.jpg

Lymph Node Structure

Lymph node cortex histology
  • Capsule - dense connective tissue
  • Trabeculae - dense connective tissue
  • Reticular Tissue - Reticular cells and fibers, supporting meshwork

Lymph node histology 02.jpg Lymph node histology 03.jpg


  • enters the node through afferent vessels
  • filters through the sinuses
  • leaves through efferent vessels

Subcapsular sinus = marginal sinus

Lymph node histology 01.jpg Lymph node histology 04.jpg

Continuation of trabecular sinus

Lymphocyte (T and B) Traffic

  1. Enter from high endothelial venules (HEVs also called post-capillary venules)
  2. Spend 8 to 24 h in the lymph node interstitium.
  3. Enter a network of medullary sinuses.
  4. Drain from sinuses into efferent lymphatic vessels.

Links: Immunobiology - Figure 1.8. Organization of a lymph node | Blue Histology - Lymph Nodes


Thymus cartoon.jpg MBoC Figure 24-6. The development and activation of T and B cells

Figure 24-7. Electron micrographs of nonactivated and activated lymphocytes

Development Changes

Fetal thymus anatomy
Fetal thymus

Changes with age Overall Size

  • birth 10-15 g
  • puberty 30-40 g
  • after puberty - involution
    • Replaced by adipose tissue
    • middle-aged 10 g

Thymus Anatomy

  • Superior mediastinum, anterior to heart
  • Bilobed lymphoepithelial organ
    • Contains reticular cells but no fibers
  • Stem lymphocytes
    • proliferate and differentiate
    • forms long-lived T- lymphocytes

Thymus Cells

  • Reticular cells
    • Abundant, eosinophilic, large, ovoid and light nucleus 1-2 nucleoli
    • sheathe cortical capillaries
    • form an epitheloid layer
    • maintain microenvironment for development of T-lymphocytes in cortex (thymic epitheliocytes)
  • Macrophages
    • cortex and medulla
    • difficult to distinguish from reticular cells in H&E
  • Lymphocytes
    • cortex and medulla - more numerous (denser) in cortex
    • majority of them developing T-lymphocytes (= thymic lymphocytes or thymocytes)

Fetal/Young Thymus

Thymus - young 01.jpg Thymus - young 02.jpg
Young medulla Young cortex

Thymic corpuscle

Hassall’s corpuscle - Mass of concentric epithelioreticular cells

Adult Thymus

Thymus adult.jpg

  • Cortical lymphoid tissue is replaced by adipose tissue
  • Increase in size of thymic corpuscles

Links: Blue Histology - Thymus


Spleen anatomy.jpg Gray1039.jpg


1. Immune

  • filters blood in much the way that the lymph nodes filter lymph.
  • Lymphocytes in the spleen react to pathogens in the blood and attempt to destroy them.
  • Macrophages then engulf the resulting debris, the damaged cells, and the other large particles.

2. Red Blood Cell Removal

  • The spleen (and liver) removes old and damaged erythrocytes from the circulating blood.
  • Like other lymphatic tissue, it produces lymphocytes, especially in response to invading pathogens.

3. Blood Reservoir

  • The sinuses in the spleen also act as a reservoir for blood.
    • In emergencies, such as hemorrhage, smooth muscle in the vessel walls and in the capsule of the spleen contracts.
    • This squeezes the blood out of the spleen into the general circulation.


Spleen histology 01.jpg Spleen histology 02.jpg

  • Capsule, trabeculae (dense connective tissue)
  • Splenic pulp White pulp, red pulp - based on appearance and cell content
White pulp -periarterial lymphoid sheath (PALS)

White Pulp

  • lymphocytes surround central arteries
  • as periarterial lymphoid sheath (PALS)

Red Pulp

  • Red blood cells
  • Splenic sinuses
  • Splenic cords

Spleen histology 03.jpg

Reticular Fibers

Spleen histology 05.jpg Spleen histology 04.jpg

Spleen Reticular Fibres

Links: Immunobiology - Figure 1.9. Organization of the lymphoid tissues of the spleen

B Cell Development

  • Bone marrow
  • blood
  • Lymph node, nodule
  • Lymphatic vessel
  • Bone marrow

Germinal Centres

  • Bone Marrow
  • Medullary cords contain plasma cells

Plasma cells

  • secrete antibody directly into blood for distribution to all body
  • in local extrafollicular sites are short lived 2–4 days
  • longer-lived plasma cells in bone marrow 3 weeks to 3 months+

Additional Information

The following is not part of the lecture and is for reference purposes only.

  • Blood Cells
  • Florence R. Sabin (1871-1953)

Associated Practical

SH Practical - Lymphatic Structure and Organs

Blood Cell Numbers

Red Blood Cells

  • Male: 4.32 - 5.66 x 1012/l
  • Female: 3.88 - 4.99 x 1012/l


  • Male: 3.7 - 9.5 x 109/l
  • Female: 3.9 - 11.1 x 109/l

Granulocytes (1.8 - 8.9 x 109/l)

  • Neutrophils: 1.5 - 7.4 x 109/l
  • Eosinophils: 0.02 - 0.67 x 109/l
  • Basophils: 0 - 0.13 x 109/l

Lymphocytes (1.1 - 3.5 x 109/l)

  • B-cells: 0.06 - 0.66 x 109/l
  • T-cells: 0.77 - 2.68 x 109/l
  • CD4+: 0.53 - 1.76 x 109/l
  • CD8+: 0.30 - 1.03 x 109/l
  • NK cells: 0.20 - 0.40 x 109/l

Monocytes (0.21 - 0.92 x 109/l)


  • 140 - 440 x 109/l


Immunobiology by Janeway, Charles A.; Travers, Paul; Walport, Mark; Shlomchik, Mark New York and London: Garland Science; c2001

Anatomy of the Human Body (Gray)1918

Lymph Node Analysis

  • 3D Reconstruction Pelvic Node Anatomy
  • Reconstruction of Axillary Node Anatomy

Additional Images


A few key terms associated with the Lymphoid system.

  • adenoid - (Greek " +-oeides = in form of) in the form of a gland, glandular; the pharyngeal tonsil.
  • Afferent lymph - vessel carrying lymph towards a node.
  • Antibody mediated immunity - the immune function of plasma cells (active B lymphocytes) secreting antibody which binds antigen.
  • antibodies - mammals have five classes (IgA, IgD, IgE, IgG, and IgM)
  • antigen - any substance that is recognised by the immune system and stimulates antibody production.
  • appendix - is a gut-associated lymphoid tissue located at the beginning of the colon. The anatomy is as a finger-like structure that arises from the cecum. The length (2.5-13 cm) is longer in both infants and children and also has more abundant lymphatic tissue in early life. The wall structure is similar to the small intestine (though with no villi), nor plicae circularis. Lymph nodules surround the lumen of the gastrointestinal tract and extend from the mucosa into the submucosa.
  • B lymphocyte (cell) - historically named after a structure called the bursa of Fabricius in birds, a source of antibody-producing lymphocytes. These cells develop in the bone marrow. (More? Electron micrographs of nonactivate and activated lymphocytes)
  • BALT - Bronchus Associated Lymphoid Tissue
  • band cell - (band neutrophil or stab cell) seen in bone marrow smear, a cell undergoing granulopoiesis, derived from a metamyelocyte, and leading to a mature granulocyte. Also occasionally seen in circulating blood.
  • cecum - (caecum, Latin, caecus = "blind") within the gastrointestinal tract a pouch that connects the ileum with the ascending colon of the large intestine.
  • cell - has a specific cell biology definition, but is often used instead of "lymphocyte" when describing B and T cells.
  • Cell-mediated immunity - the immune function of T lymphocytes.
  • "clockface" - a term used to describe the appearance of plasma cell nuclei due to the clumping of the chromatin at the nucleus periphery. More clearly seen in tissue plasma cells that the bone marrow smear, where they are sometimes confused with the basophilic erythroblasts.
  • cords of Billroth - spleen cellular columns located in red pulp. surrounded by splenic sinusoids. Cords contain reticular cells, macrophages, lymphocytes, plasma cells and erythrocytes.
  • cortex - outer layer, used in association with medulla (innner layer or core) a general description that can be applied to describing an organ with a layered structure.
  • Effector cells - the immune functioning (active) B and T lymphocytes.
  • Efferent lymph - vessel carrying lymph away from a node.
  • GALT - Gut Associated Lymphatic Tissue
  • haemopoiesis (hemopoiesis) formation of blood cells.
  • Hassall's corpuscle - thymic corpuscle.
  • IgA - the main class of antibody in secretions (saliva, tears, milk, and respiratory and intestinal secretions).
  • IgD - the immunoglobulin B cell starts to produce as a cell-surface molecule after leaving the bone marrow.
  • IgE - bind Fc receptors (surface of mast cells in tissues and basophils in the blood).
  • IgG - the major class of immunoglobulin in the blood.
  • IgM - the first class of antibody made by a developing B cell, which may switch to making other classes of antibody.
  • immunodeficiency - when one or more components of the immune system is defective. (More? Immunobiology - immunodeficiency)
  • involution - in the Thymus refers to the replacement, mainly in the cortex, of cells by adipose tissue. (More? PubMed- thymus involution) | Cancer Medicine - Thymomas and Thymic Tumors)
  • lamina propria - a layer of loose connective tissue found underneath the epithelium of mucosa.
  • Leukocyte- (Greek, lukos= clear, white) white blood cell.
  • lingual- related to the tongue.
  • lymph node - connective tissue encapsulated lymphoid organ (1mm - 2cm in size), positioned in the pathway of lymph vessels.
  • macrophage - a large highly motile white blood cell which engulfs foreign material (bacteria etc) and both degenerating cells and cell fragments. Found in many different tissues and locations. (More? Immunobiology - Defects in phagocytic cells are associated with persistence of bacterial infection)
  • MALT - Mucosa Associated Lymphoid Tissue
  • medulla - inner layer or core, used in association with cortex (outer layer) a general description that can be applied to describing an organ with a layered structure.
  • Memory Cell - effector T cell (lymphocyte)
  • normoblast - seen in bone marrow smear, a developing erythroblast (red blood cell) that still retains a nucleus.
  • parenchyma - (Greek = enkeim "to pour in") cells forming the functional cells of an organ or tissue. These cells carry out the function of the organ at a cellular level, and are not the structural cells, connective tissue, extracellular matrix (stromal).
  • periarterial lymphoid sheath - (PALS) in the spleen the white pulp that surrounds the central arteries. (T-lymphocytes,macrophages and plasma cells)
  • Plasma Cell - active B cell (lymphocyte) which is secreting antibody. Located in either bone marrow or peripheral lymphoid tissues, these cells have and increased cytoplasmic volume (due to increase rough endoplasmic reticulum) in comparison to the inactive (non-secreting) lymphocyte.
  • sentinel lymph node - the hypothetical first lymph node or group of nodes reached by metastasizing cancer cells from a primary tumour.
  • splenic sinusoids - enlarged spleen capillary spaces located in red pulp and surrounding cords of Billroth.
  • stroma - (Greek = "a cover, table-cloth, bedding") tissue forming the framework/support of an organ or tissue. That is the structural cells which form connective tissue and secrete extracellular matrix, rather than the functional cells (parenchymal). All organs can therefore be functionally divided into these 2 components, stromal/parenchymal.
  • Subcapsular sinus (=marginal sinus) space lying under the connective tissue capsule which receives lymph from afferent lymphatic vessels.
  • Thymic corpuscle (=Hassall's corpuscle) a mass of concentric epithelioreticular cells found in the thymus. The number present and size tend to increase with thymus age. (see classical description of Hammar, J. A. 1903 Zur Histogenese und Involution der Thymusdriise. Anat. Anz., 27: 1909 Fiinfzig Jahre Thymusforschung. Ergebn. Anat. Entwickl-gesch. 19: 1-274.)
  • thymic epitheliocytes - reticular cells located in the thymus cortex that ensheathe the cortical capillaries, creating and maintain the microenvironment necessary for the development of T-lymphocytes in the cortex.
  • T lymphocyte (cell) - named after thymus, where they develop, the active cell is responsible for cell-mediated immunity. (More? Electron micrographs of nonactivate and activated lymphocytes)



  • vermiform appendix - see appendix, anatomical region containing gut-associated lymphoid tissue located within the gastrointestinal tract at the beginning of the colon. The anatomy is as a finger-like structure that arises from the cecum. The length (2.5-13 cm) is longer in both infants and children and also has more abundant lymphatic tissue in early life. The wall structure is similar to the small intestine (though with no villi), nor plicae circularis. Lymph nodules surround the lumen of the gastrointestinal tract and extend from the mucosa into the submucosa.

Glossary Links

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Cite this page: Hill, M.A. (2019, October 17) Embryology SH Lecture - Lymphatic Structure and Organs. Retrieved from https://embryology.med.unsw.edu.au/embryology/index.php/SH_Lecture_-_Lymphatic_Structure_and_Organs

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© Dr Mark Hill 2019, UNSW Embryology ISBN: 978 0 7334 2609 4 - UNSW CRICOS Provider Code No. 00098G