1. Immunization and Immune Testing
Chapter 17
Immunization and Immune Testing

2. Immunization Two Artificial Methods of Immunity Active immunization
Administration of antigens so patient actively mounts a protective immune response
Passive immunization
Individual acquires immunity through the transfer of antibodies formed by immune individual or animal
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3. Immunization Brief History of Immunization
Chinese noticed children who recovered from smallpox did not contract the disease again
They infected children with material from a smallpox scab to induce immunity
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4. Immunization Brief History of Immunization
1796 – Edward Jenner discovered process of vaccination
1879 – Louis Pasteur developed a vaccine against Pasteurella multocida
Later, antibody transfer developed when it was discovered vaccines protected through the action of antibodies
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5. Figure 17.1 Effect of immunization-overview

6. Immunization Brief History of Immunization
Many developing nations do not receive vaccines
Effective vaccines not developed for some pathogens
Vaccines hard to develop for pathogens that mutate frequently
Vaccine development difficult – sometimes hard to isolate method that will induce immunity
Vaccine-associated risks discourage investment in developing new vaccines
Mild toxicity – causes patient to feel ill for a couple of days, could be discouraging to get more vaccines
Anaphylactic shock
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7. Immunization Active Immunization Attenuated (live) vaccines
Use pathogens with reduced virulence
Can result in mild infections
Active microbes stimulate a strong immune response
Can provide contact immunity
Modified microbes may retain enough residual virulence to cause disease
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8. Vaccination allows the adaptive immune system to have its primary immune response BEFORE infection
Therefore, when the person encounters the pathogen in the environment, that person hopefully either will not get sick or might get sick with a lesser form of the disease
Creates important “herd immunity”

9. Immunization Active Immunization Inactivated (killed) vaccines
Whole-agent vaccines
Subunit vaccines
Both safer than live vaccines
Often contain adjuvants
Chemicals added to increase effective antigenicity
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10. Immunization Active Immunization Toxoid vaccines
Chemically or thermally modified toxins used to stimulate immunity
Useful for some bacterial diseases – tetanus, diptheria
Stimulate antibody-mediated immunity
Require multiple doses because toxoids possess few antigenic determinants
Need boosters
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11. Immunization Active Immunization Combination vaccines
Administration of antigens from several pathogens
MMR
Vaccines using recombinant gene technology
Attempts to make vaccines more effective, cheaper, safer
DNA coding for immunogenic antigen is inserted into genome of “safe” microbe
Variety of techniques used to improve vaccines
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12. Immunization Active Immunization Vaccine manufacture
Mass-produce many vaccines by growing microbes in culture vessels
Viruses are cultured inside chicken eggs
Individuals with egg allergies must avoid some vaccines
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13. Figure 17.3 The CDC's recommended immunization schedule for the general population

14. Immunization Active Immunization Vaccine safety
Problems associated with immunization
Mild toxicity most common
Risk of anaphylactic shock – in a few people
Cannot know how anything introduced in the body will effect every individual, especially when you are giving them to millions of people
Residual virulence from attenuated viruses
Allegations that certain vaccines cause autism, diabetes, and asthma
Research has not substantiated these allegations but the danger of not vaccinating is bigger threat to public
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15. Immunization Passive Immunotherapy
Administration of antiserum containing preformed antibodies
Immediate protection against recent infection or ongoing disease
Antisera have several limitations
Contain antibodies against many antigens
Can trigger allergic reactions called serum sickness
Viral pathogens may contaminate antisera
Antibodies of antisera are degraded relatively quickly
Limitations are overcome through development of hybridomas
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18. Antibody-Antigen Immune Testing
Serology
Study and diagnostic use of antigenantibody interactions in blood serum
Two categories of immune testing
Direct testing
Looking for presence of antigens
Indirect testing
Look for antibodies that have formed against antigens
Test chosen based on the suspected diagnosis, cost, and speed with which a result can be obtained
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19. Immune Testing Precipitation Tests
One of the easiest of serological tests
Antigens and antibody mixed in the proper proportion form large complexes called precipitates
Immunodiffusion
Determines optimal antibody and antigen concentrations
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20. Figure 17.6 Characteristics of precipitation reactions-overview

21. Figure 17.7 Immunodiffusion, a type of precipitation reaction-overview

22. Immune Testing Agglutination Tests
Cross-linking of antibodies with particulate antigens causes agglutination
Agglutination is the clumping of insoluble particles
Precipitation involves the aggregation of soluble molecules
Reactions are easy to see and interpret with the unaided eye
Hemagglutination
Agglutination of red blood cells
Can be used to determine blood type
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24. Immune Testing Neutralization Tests Viral neutralization
Cytopathic effect
Viruses will kill appropriate cell cultures
Virus is first mixed with antibodies against it
Ability of virus to kill culture cells is neutralized
Absence of cytopathic effect indicates presence of antibodies
Identify whether individual has been exposed to a particular virus or viral strain
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25. Immune Testing Neutralization Tests
Viral hemagglutination inhibition test
Useful for viruses that aren’t cytopathic
Based on viral hemagglutination
Ability of viral surface proteins to clump red blood cells
Individual’s serum will stop viral hemagglutination if the serum contains antibodies against the specific virus
Used to detect antibodies against influenza, measles, mumps
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26. Immune Testing Labeled Antibody Test Fluorescent Antibody tests
Uses antibody molecules linked to some “label” that enables them to be easily detected
Used to detect either antigens or antibodies
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27. Immune Testing Labeled Antibody Test Fluorescent antibody tests
Use fluorescent dyes as labels
Fluorescein is one dye used in these tests
Fluorescein-labeled antibodies used in two types of tests
Direct fluorescent antibody tests
Indirect fluorescent antibody tests
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28. Direct

29. Indirect

30. Immune Testing Labeled Antibody Test ELISA
Enzyme-linked immunosorbent assay
Uses an enzyme as the label
Reaction of enzyme with its substrate produces colored product
Commonly used to detect presence of antibodies against a specific antigen in serum
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32. Immune Testing Labeled Antibody Test ELISA Antibody sandwich ELISA
Modification of the ELISA technique
Commonly used to detect antigen
Antigen being tested for is “sandwiched” between two antibody molecules
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33. Sandwich ELISA

34. Immune Testing Labeled Antibody Test ELISA Advantages of the ELISA
Can detect either antibody or antigen
Can quantify amounts of antigen or antibody
Easy to perform and can test many samples quickly
Plates coated with antigen and gelatin can be stored for later testing
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35. Immune Testing Labeled Antibody Test Western blot test
Technique to detect antibodies against multiple antigens
Advantages over other tests
Can detect more types of antibodies
Less subject to misinterpretation
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36. Immune Testing Recent Developments in Antibody-Antigen Immune Testing
Simple immunoassays that give results in minutes
Useful in determining a preliminary diagnosis
Immunofiltration and immunochromatography are most common
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37. Immune Testing Recent Developments in Antibody-Antigen Immune Testing
Immunofiltration
Rapid ELISA that uses antibodies bound to membrane filters rather than polystyrene plates
Membrane filters have large surface area
Assay quicker to complete
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38. Immune Testing Recent Developments in Immune Testing
Immunochromatography
Very rapid and easy-to-read ELISAs
Antigen solution flows through a porous strip and encounters labeled antibody
Visible line produced when antigen-antibody immune complexes encounter antibody against them
Used for pregnancy testing and rapid identification of infectious agents
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