1	Human Anatomy, First Edition McKinley & O'Loughlin Chapter 24 Lecture Outline: Lymphatic System
2	Lymphatic System Assists the cardiovascular system by transporting excess interstitial fluid (lymph) through lymphatic vessels. Lymph is filtered and checked for foreign or pathologic material, such as cancer cells and bacteria. Lymphatic structures contain certain cells that initiate an immune response to abnormal materials and perform other functions essential to homeostasis and survival. Without the primary immune response by the lymphatic system, the body would be unable to fight infection and keep itself healthy.
3	Functions of the Lymphatic System Fluid and nutrient transport, lymphocyte development, and the immune response. Reabsorbs excess interstitial fluid and returns it to the venous circulation in order to maintain blood volume levels and prevent interstitial fluid levels from rising out of control. Transport dietary lipids which are transported through tiny lymphatic vessels called lacteals, which drain into larger lymphatic vessels and eventually into the bloodstream.
4	Immune Response Some cells produce soluble proteins called antibodies. bind to and immobilize the foreign or abnormal agent, thus damaging it or identifying it to other elements of the immune system Other cells attack and destroy the antigen directly. Other cells become memory cells, which remember the past antigen encounters and initiate an even faster and more powerful response should the same antigen appear again
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6	Lymphatic Capillaries The lymphatic network begins with microscopic vessels called lymphatic capillaries. closed-ended tubes that are found in most blood capillary networks similar to a blood capillary in that its wall is an endothelium tend to be larger in diameter, lack a basement membrane, and have overlapping endothelial cells anchoring filaments help hold these endothelial cells to the nearby tissues
7	Lymphatic Capillaries Act as one-way valves. when interstitial fluid pressure rises, the margins of the endothelial cell walls push into the lymphatic capillary lumen and allow interstitial fluid to enter when the pressure increases in the lymphatic capillary, the cell wall margin pushes back into place next to the adjacent endothelial cell fluid “trapped” in the lymph capillary cannot be released back into the tissues
8	Lymphatic Capillaries – Lacteals The small intestine contains special types of lymphatic capillaries called lacteals. Lacteals pick up not only interstitial fluid, but also dietary lipids and lipid-soluble vitamins. The lymph of this area has a milky color due to the lipid and is also called chyle.
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10	Lymphatic Vessels Lymphatic capillaries merge to form larger structures. Lymphatic vessels resemble small veins. both contain three tunics and both have valves Some vessels connect directly to lymphatic organs called lymph nodes. Afferent lymphatic vessels bring lymph to a lymph node where it is examined for foreign on pathogenic material. Once filtered, the lymph exits the lymph node via efferent lymphatic vessels. Lymph nodes are often found in clusters. lymph is repeatedly examined for the presence of foreign or pathogenic materials
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14	Lymphatic Cells Also called lymphoid cells. Located in both the lymphatic system and the cardiovascular system. Work together to elicit an immune response. Types of lymphatic cells are: macrophages epithelial cells dendritic cells lymphocytes
15	Types and Functions of Lymphocytes T-lymphocytes (also called T-cells). B-lymphocytes (also called B-cells). NK cells. Migrate through the lymphatic tissues and monitor them for the presence of antigens. Identified according to the tissue or organ where they mature: T-lymphocytes mature in the Thymus B-lymphocytes mature in the Bone marrow
16	Types and Functions of Lymphocytes – T-lymphocytes Make up about 70–85% of body lymphocytes. Plasma membrane contains a coreceptor that can recognize a particular antigen. There are several types of T-lymphocytes, each with a particular kind of coreceptor. helper T-lymphocytes cytotoxic T-lymphocytes
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18	B-Lymphocytes Make up about 15–30% of the lymphocytes in the body. Contain antigen receptors that respond to one particular antigen and cause the production of immunoglobulins (Ig), or antibodies, that respond to that particular antigen. the five main classes of immunoglobulins are called IgG, IgA, IgD, IgM, and IgE. these immunoglobulins are released by the specific B-lymphocytes to immobilize or neutralize specific antigens
19	Vaccines Some vaccines introduce milder or dead forms of an antigen. The body can fight and eliminate the illness before any symptoms ever develop. Depending upon the life span of the particular memory B-lymphocytes: vaccine may provide lifelong immunity, or periodic booster shots may be needed
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21	NK Cells Also called large granular lymphocytes. Make up the remaining small percentage of body lymphocytes. NK cells tend to have CD16 receptors. NK cells can kill a wide variety of infected cells and some cancerous cells.
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23	Lymphatic Nodules Oval clusters of lymphatic cells with some extracellular matrix that are not surrounded by a connective tissue capsule. Contains proliferating B-lymphocytes and some macrophages. T-lymphocytes are located outside the germinal center. Filter and attack antigens. In some areas of the body, many lymphatic nodules group together to form larger structures. mucosa-associated lymphatic tissue (MALT) or tonsils MALT detect antigens and initiate an immune response very prominent in the mucosa of the small intestine, primarily in the ileum Peyer patches also prevalent in the appendix
24	Tonsils Large clusters of lymphatic cells and extracellular matrix that are not completely surrounded by a connective tissue capsule. Consist of multiple germinal centers and have invaginated outer edges called crypts. crypts help trap material and facilitate its identification by lymphocytes Several groups of tonsils form a protective ring around the pharynx. pharyngeal tonsils (or adenoids) are in the posterior wall of the nasopharynx palatine tonsils are in the posterolateral region of the oral cavity lingual tonsils are along the posterior one-third of the tongue
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26	Lymphatic Organs Consist of lymphatic cells and extracellular matrix, and are completely surrounded by a connective tissue capsule. lymph nodes spleen thymus a bilobed organ located in the anterior mediastinum in infants and young children, it is quite large and extends into the superior mediastinum as well continues to grow until puberty, when it reaches a maximum weight of 30–50 grams cells of the thymus regress, and it is eventually replaced by adipose connective tissue in adults, it atrophies and becomes almost nonfunctional
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28	Lymph Nodes Small, round or oval structures located along the pathways of lymph vessels. Range in length from 1 to 25 millimeters, and typically are found in clusters that receive lymph from many body regions. axillary lymph nodes receive lymph from the breast, axilla, and upper limb inguinal lymph nodes, receive lymph from the lower limb and pelvis cervical lymph nodes receive lymph from the head and neck Lymph nodes are also found individually throughout the body tissues.
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31	Spleen Largest lymphatic organ in the body. Located in the upper left quadrant of the abdomen, inferior to the diaphragm and posterior to ribs 9–11. Deep red organ lies lateral to the left kidney and posterolateral to the stomach. Can vary considerably in size and weight, but typically is about 12 centimeters long and 7 centimeters wide.
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36	Functions of the Spleen Initiates an immune response when antigens are found in the blood (a white pulp function). Serves as a reservoir for erythrocytes and platelets (red pulp function). Phagocytizes old, defective erythrocytes and platelets (red pulp function). Phagocytizes bacteria and other foreign materials.
37	Aging and the Lymphatic System The thymus is no longer able to mature and differentiate T-lymphocytes. New T-lymphocytes can be produced only by replication (mitosis). Ability to provide immunity and fight disease decreases. Helper T-lymphocytes do not respond to antigens as well, and do not always reproduce rapidly. Fewer B-lymphocytes and other kinds of T-lymphocytes. The body’s ability to acquire immunity and resist infection decreases, making elderly people more susceptible to illnesses and more likely to become sicker. Faltering immune system makes the elderly more prone to developing cancers.