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Chapter 14: Lymphatic System and Immunity

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Chapter 14: Lymphatic System and Immunity Anatomy and Physiology 12th Grade – PowerPoint PPT presentation

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Title: Chapter 14: Lymphatic System and Immunity


1
Chapter 14 Lymphatic System and Immunity
  • Anatomy and Physiology
  • 12th Grade

2
Immunity
  • Ability of the body to protect itself from
    disease causing invaders called pathogens.
  • From the Latin word immunis--exempt

3
Immune System
  • Consists of lymphoid tissues of the body, the
    immune cells, and chemicals that coordinate and
    execute the immune functions

4
Functions of the Immune System
  • Immune System has 3 main functions
  • Protect the body from pathogens
  • Remove dead or damaged tissue and cells
  • Recognize and remove abnormal cells that have
    abnormal cell growth and development (i.e. cancer
    cells)

5
Pathogens
  • Include bacteria, viruses, fungii, one-celled
    protozoans, multicellular parasites (i.e.
    hookworm)
  • Bacteria and viruses are the most common
    pathogens.

6
Bacteria Vs. Viruses
  • Know the diagram from the board!!

7
Anatomy of the Immune System
  • Primary lymphatic tissuesthymus gland, bone
    marrow where cells involved in the immune
    response grow mature
  • Secondary lymphatic tissuestwo types
  • Encapsulated
  • Unencapsulated

8
Encapsulated Tissues
  • Lymph nodeslocated along the pathway of
    lymphatic circulation filters lymph.
  • They grab invaders that enter the lymph system by
    breaks in the skin or mucous membranes

9
Encapsulated contin
  • Spleentraps and removes aging red blood cells
    with the help of phagocytes contains immune
    cells to capture foreign invaders

10
Unencapsulated Tissues
  • Tonsilslocated in your posterior nasopharynx
  • Gut Associated Lymphoid Tissue (GALT)lies under
    the mucosa of the esophagus and intestines
  • Clusters of lymphoid tissue in respiratory tract
    and skin

11
Lymphatic System
  • Lymph is a clear fluid that is driven through
    hydrostatic pressure from the interstitial spaces
    into the lymphatic capillaries
  • Muscular activitymajor driving force of lymph
    through the lymphatic vessels

12
Flow of Lymph
  • Once lymph enters a lymphatic vessel, valves
    prevent lymph from flowing backward (back toward
    the interstitial space)
  • Lymph can only move toward a collecting duct
    thanks to these valves!
  • As it moves through vessels, it is filtered
    periodically by lymph nodes.

13
Lymphatic PathwayFigure 14.5
  • Fluid in interstitial space?Lymphatic
    vessel?Lymph node?Lymphatic vessel?Lymphatic
    trunk?Collecting Duct?Subclavian Vein (where it
    re-enters the bloodstream)

14
Collecting Ducts
  • Lymphatic trunks join one of two
  • Thoracic duct
  • Right lymphatic duct

15
Thoracic Duct
  • Larger and longer collecting duct
  • Receives lymph from lower limbs, abdominal
    regions, left upper limb, left side of head,
    thorax, neck
  • Empties into the left subclavian vein near the
    junction of the left jugular vein

16
Right Lymphatic Duct
  • Collects lymph from right side of head and neck,
    right upper limb, right thorax
  • Empties into the right subclavian vein near the
    junction of the jugular vein

17
Edema
  • Anything that interferes with the flow of lymph
    can cause a back-up of interstitial fluid in an
    area.
  • This causes swellingaka. Edema
  • This can happen from something (like position or
    turnicate) obstructing the flow of lymph or from
    surgical removal of lymph nodes.
  • Swelling due to malfunction of lymph
    flowlymphedema

18
Lymph Nodes
  • Vary in size and shapeon average are bean-shaped
    and approx. 2.5 cm
  • Lymphatic sinusspace inside the node
  • Lymphatic sinus contains many macrophages (highly
    concentrated here)
  • Are located everywhere on the body except the
    CENTRAL NERVOUS SYSTEM (brain and spinal cord)

19
Lymph Node Physiology
  • Lymph nodes have two main functions
  • Filtering harmful particles from lymph before it
    returns to the bloodstream
  • Immune surveillance by lymphocytes and
    macrophages
  • Also, they produce lymphocytes along w/ the red
    bone marrow.

20
Lymphocytes and Macrophages
  • Lymphocytesattack invaders that enter the lymph
    node
  • Macrophages--engulf and destroy foreign
    substances, damaged cells, and cellular debris

21
Thymus
  • Located posterior to the upper sternum (breast
    bone) upper chest
  • Large during infancy and childhood
  • Shrinks after puberty
  • In elderlytissue is gradually replaced by
    adipose (fat) and connective tissues
  • By 70 yearsit is one-tenth the size that it was
    when a person is 10!!

22
Thymus Physiology
  • Thymus contains immature cells called thymocytes.
  • These can be inactive. However, when needed they
    can mature into T-cells (T-lymphocytes)
  • T-cells are important in immunity
  • Thymus epithelial cells also secrete hormones
    called thymosins, stimulate T-cells to mature as
    they migrate to other tissues.

23
Spleen
  • Largest lymphatic organ
  • Located in the upper abdomen to the left of the
    stomach (on left side)
  • Sort of like a large lymph node except instead of
    inner space having lymph, it has blood

24
Spleen
  • Has two types of tissue
  • White pulplike splattered islands around the
    space contains many lymphocytes
  • Red pulpContains many red blood cells, plus
    lymphocytes and macrophages

25
Spleen
  • Splenectomyremoval of the spleen
  • Splenitisinflammation of the spleen

26
Immunity
  • Your body has two ways to defend against
    infection
  • Innate (nonspecific) defense
  • Adaptive (specific) defense

27
Innate (Nonspecific) Defense
  • There are six basic types of innate defense
  • Species Resistance
  • Mechanical Barriers
  • Chemical Barriers
  • Fever
  • Inflammation
  • Phagocytosis

28
Innate (Nonspecific) Defense
  • Species resistancea given organism develops a
    set of diseases that is unique to it but it will
    be resistant to other disease because the
    conditions in our body are not ideal for every
    pathogen
  • Ex. Other animal species do not get measles,
    mumps, gonorrhea, syphilis

29
Mechanical Barriers
  • The skin and the mucous membranes of the
    respiratory, digestive, urinary, and reproductive
    systems create mechanical barriers that prevent
    the entry of pathogens
  • These barriers are a first line of defense.

30
Chemical Barriers
  • Enzymes in body fluids are chemicals that provide
    a chemical resistance, or barrier, to pathogens.
  • Ex. Protein-splitting enzyme pepsin in the
    stomach enzyme, lysozyme, in tears salt (from
    sweat) on the skin

31
Chemical Barriers
  • Interferonhormone-like peptides made by
    lymphocytes and fibroblasts in response to cells
    with viral infection or tumor cells
  • Interferonbinds to receptors on the outside of
    healthy cells?cells synthesize proteins that
    block the replication of viruses
  • Interferonstimulates phagocytosis, also helps
    resist infection and kill tumor cells

32
Fever
  • Feverelevated body temperature\
  • Bacteria and fungii require iron as temperature
    rises.
  • High body temperature stimulates liver and spleen
    to hoard iron so it is out of the blood.
  • It slows the growth of bacteria and fungii!!

33
Fever
  • High body temperature also increases the activity
    of phagocytes.
  • Low-grade fever is actually a healthy response by
    the body?dont medicate unless you have a high
    fever!!!

34
Inflammation
  • Inflammationtissue response to injury or
    infection categorized by localized redness,
    swelling, heat, and pain.
  • Causes the site of the problem to be walled off
    or isolated so that it cannot spread

35
Phagocytosis
  • Phagocytic cells include
  • Neutrophils
  • Monocytes
  • These cells can leave the blood by squeezing
    between the cells of blood vessel
    wallsdiapedesis
  • Chemicals from injured tissues attract these
    cells (chemotaxis)

36
Adaptive (Specific) Defenses
  • Adaptive (Specific) DefensesImmunity
  • It is our third line of defense
  • Is what our bodies develop in response to a
    particular pathogen

37
Antigens
  • On the surface of all cells
  • Can be a protein, a polysaccharide, glycoprotein,
    or glycolipid

38
Recognizing Self
  • Before birth, cells go around to body cells
    take inventory
  • This is how your body determines which cells are
    self
  • Then as your immune system develops after birth,
    it recognizes any other type of cell as foreign
    or non-self

39
Recognizing Nonself
  • After birth, the body really begins developing
    its immune system
  • It produces lymphocytes that go around to the
    cells of the body and recognize the foreign
    antigens as nonself

40
Major Histiocompatibility Complex
  • AKA, MHC
  • Cell membrane proteins that are coded by certain
    genes
  • The MHC on the outside of your cells is
    recognized by your bodys lymphocytes

41
Lymphocytes
  • Are the cells primarily responsible for the
    immune response
  • Two types
  • T-lymphocytesT-cells
  • B-lymphocytesB-cells

42
Cell Mediated Immunity
  • AKA, Cellular Immune Response
  • T-cells are primarily responsible for this immune
    action
  • In cell mediated, the t-cells attach to foreign
    antigen cells and interact directly by cell to
    cell contact

43
Cell Mediated Immunity
  • Cell ingests or is infected with pathogen.
  • The pathogen breaks up inside the cell and pieces
    of it bind to the MHC on the cell membrane.
    Presents the antigen
  • T-cells then bind to the antigen presenting cell

44
Cell Mediated.
  • Helper T-cellsrelease cytokines to call other
    cells to the area to help and/or ingest the
    infected cell
  • Cytotoxic T-cellsform protein channel (hole)
    called perforin in cell membrane of infected
    cell. It then injects granzymes ?
    apoptosis(death) of cell

45
Humoral Immune Response
  • AKA, Antibody Mediated Immune Response
  • Led by the B-cells
  • B-cells secrete antibodies.
  • Antibodies bind to pathogen and target them for
    destruction
  • Mature B-cells insert antibodies into their cell
    membrane to form receptor

46
Humoral.
  • The receptor on B-cell attaches to the antigen.
  • The antibody goes to work.
  • Antibodies
  • Make it easier for phagocytic cells to eat
    infected or antigen bearing molecules
  • Covering antigen-presenting cell or molecule in
    envelope and inactivating the antigen.
  • Activating complement proteins

47
Complement Proteins
  • Complement has a variety of functions
  • Enhancing phagocytosis
  • Attracting macrophages and neutrophils
  • Rupturing cell membranes of foreign cells
  • Causing antigen-bearing agents to clump making
    it easier to get them out
  • Altering the molecular structure of viruses so
    that they cant work

48
5 Types of Antibodies
  • Immunoglobulin G (IgG)in plasma and tissue
    fluids effective against virus, bacteria,
    toxins activate complement babies get from mom
    through cord ?lasts 6 months to 1 yr
  • Immunoglobulin A (IgA)in exocrine gland
    secretions (sweat glands) breast milk, tears,
    nasal fluid, bile, urine, etc.

49
5 Types Antibodies.
  • Immunoglobulin M (IgM)develops in response to
    foods or bacteria
  • Immunoglobulin D (IgD)found on surfaces of
    B-cells important to B-cell activation
  • Immunoglobulin E (IgE)in exocrine secretions
    along w IgA ASSOCIATED WITH ALLERGIC REACTIONS

50
Primary/Secondary Response
  • Humoral Responseprimary response and secondary
    response
  • Primary responsethe initial response that occurs
    with infection (by effector B-cells)
  • Secondary responsethe lasting immunity provided
    by long lasting memory B-cells (live a long time
    and wait to see if pathogen)

51
Vaccine
  • When you get an infection, your body develops
    resistance the natural way. (Naturally Acquired
    Immunity)
  • A vaccine gives you resistance artificially.
    (Artificially Acquired Immunity)
  • It is made of live/weakened or dead pathogen and
    creates an immune response that prevents
    infection without causing illness.
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