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Specific, non-specific defense and vaccines

Specific, non-specific defense and vaccines . The Immune System is the Third Line of Defense Against Infection. 11. Immunity. Specific defenses Immunity. Active immunity. Passive immunity. Following clinical infection. natural. Transfer of maternal Antibodies Through placenta.

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Specific, non-specific defense and vaccines

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  1. Specific, non-specific defense and vaccines

  2. The Immune System is the Third Line of Defense Against Infection 11

  3. Immunity Specific defenses Immunity Active immunity Passive immunity Following clinical infection natural Transfer of maternal Antibodies Through placenta Following subclinical infection Transfer of maternal Antibodies Through milk acquired Following vaccination Following administration of Immunoglobulin or antiserum 10

  4. Active immunity • Resistance developed in response to stimulus by an antigen. 9

  5. Passive immunity • Immunity conferred by an antibody produced in another host. 8

  6. The Immune Response Immunity: Ability to recognize and defend against specific pathogens or antigens. Immune Response: production of antibodies and specialized lymphocytes Antigen: Molecules that provoke a specific immune response. Pathogen – foreign organism 7

  7. Innate or Genetic Immunity: Immunity an organism is born with. Acquired Immunity: Immunity that an organism develops during lifetime. 6

  8. Components of Human Immune System 5

  9. Types of Acquired Immunity II. Artificially Acquired Immunity: by vaccine 1. Active • Antigensfrom vaccines (immunization). • Body makes immune response. • Immunity can be lifelong or temporary 2. Passive: • antibodies(antiserum) introduced by injection. • Snake antivenom injection from horses or rabbits. • Immunity is short (half life three weeks). • Host immune system does not respond to antigens. 4

  10. Antibodies are Produced by B cells Lymphocytes 3

  11. Antibodies are Proteins that Recognize Specific Antigens 2

  12. Duality of Immune System I. Humoral (Antibody-Mediated) Immunity • antibodies are made to fight antigens. • Antibodies are made by lymphocytes called B cells. • Stimulated B cells will secrete antibodies called plasma cells. • Antibodies are found in extracellular fluids (blood plasma, lymph, mucus, etc.) and the surface of B cells. • Defense against bacteria, bacterial toxins, and viruses that circulate freely in body fluids, before they enter cells. • Also cause certain reactions against transplanted tissue. 1

  13. End day one notes • 0

  14. II. Cell Mediated Immunity • specialized lymphocytes called T cells • Helper T cells • Cytotoxic T cells • T cells regulate proliferation and activity cells inthe immune system: B cells, macrophage, etc. • Defense against: • Bacteria and viruses that are inside host cells and are inaccessible to antibodies. • Fungi • Cancer cells • Transplanted tissue 14

  15. Cell Mediated Immunity is Carried Out by T cells 13

  16. How Do B Cells Produce Antibodies? • B cells-- develop from stem cells • mature B cells migrate to lymphoid organs • Clonal Selection: B cell recognizes, stimulates and divides into plasma cells, secrete antibodies. • antibodies recognize only one antigen. 11

  17. T Cells and Cell Mediated Immunity Antigens that stimulate this response are mainly intracellular. Requires constant presence of antigen to remain effective. Unlike humoral immunity, cell mediated immunity is not transferred to the fetus. 10

  18. T Cells and Cell Mediated Immunity Cellular Components of Immunity: • T cells have an antigen receptor • recognizes and reacts to a specific antigens • majorhistocompatability (MHC) proteins on the surface of cells. • Clonal selection increases number of T cells. 9

  19. T Cells Only Recognize Antigen Associated with MHC Molecules on Cell Surfaces 8

  20. T Cells and Cell Mediated Immunity Types of T cells 1. T Helper (TH) Cells: Central role in immune response. • Recognize antigen • Activate macrophages • Induce formation of cytotoxic T cells • Stimulate B cells to produce antibodies. 7

  21. Central Role of Helper T Cells 6

  22. Types of T cells (Continued) 2. Cytotoxic T (Tc) Cells: Destroy target cells. • Recognize antigens on the surface of all cells: • Kill host cells that are infected with viruses or bacteria. • Recognize and kill cancer cells. • Recognize and destroy transplanted tissue. 5

  23. Humoral Response to T Dependent Antigens 4

  24. Overview of the Immune Response 3

  25. Vaccination • Vaccination is a method of giving antigen to stimulate the immune response through active immunization. • A vaccine is an immuno-biological substance designed to produce specific protection against a given disease. • A vaccine is “antigenic” but not “pathogenic”. 2

  26. Periods of maintained immunity due to vaccines • Short period (months): cholera vaccine • Two years: TAB vaccine • Three to five years: DPT vaccine • Five or more years: BCG vaccine • Ten years: yellow fever vaccine • Solid immunity: measles, mumps, and rubella vaccines. 1

  27. Levels of effectiveness • Absolutely protective(100%): yellow fever vaccine • Almost absolutely protective (99%): Variola, measles, mumps, rubella vaccines, and diphtheria and tetanus toxoids. • Highly protective (80-95%): polio, BCG, Hepatitis B, and pertussis vaccines. • Moderately protective (40-60%) TB, cholera vaccine, and influenza killed vaccine. 0

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