5.6 - Vaccination

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Created by
Pietra Magagnin

Cards (33)

  • immunity
    ability of an organism to resist infection
  • types of immunity
    passive
    active
  • acquired immunity
    a resistance to specific pathogens acquired over the lifetime of an organism
  • natural immunity
    non-specific immunity you are born with
  • passive immunity
    produced by introduction of antibodies into individuals from an external source
    antibodies aren't produced by organism sono memory lymphocytes produced so no lasting immunity
  • types of passive immunity
    naturally acquired
    artificially acquired
  • naturally acquired passive immunity
    antibodies pass from mother to foetus via placenta or breast milk
    infant doesn't produce any antibodies of its own
  • artificially acquired passive immunity
    antibodies in an immune serum are introduced into an organism
    example: anti-venom to treat snake bites
  • active immunity
    produced through exposure to antigen which causes the organism to produce its own antibodies
  • types of active immunity
    naturally acquired
    artificially acquired
  • naturally acquired active immunity
    organism becomes exposed to pathogen naturally & body produces it's own antibodies & memory lymphocytes
  • artificially acquired active immunity
    antigens are introduced into organism through vaccines S0 body produces antibodies & memory lymphocytes
  • active vs passive immunity
    active immunity requires exposure to antigen & passive immunity doesn't
    passive immunity protection is immediate, active immunity protection takes longer
    in passive immunity memory lymphocytes aren't produced, in active immunity they are
    in active immunity is long term, in passive immunity protection is short term because an tibodies given are broken down
  • vaccination
    introduction of a specific antigen by injection or by mouth stimulates immune response
  • vaccine
    suspension of harmless antigen introduced into body
  • how does vaccine create immunity
    an tigen in vaccine Makes immune system produce antibodies & memory lymphocytes so if antigen enters body again it will quickly the destroyed s0 person doesn't get sick
  • Why are booster vaccines given sometimes
    ensure memory lymphocytes are produced
  • types of vaccine
    whole-agent vaccines
    subunit vaccines
  • antigens in Whole agent vaccines
    whole nonvirulent Microorganisms
  • inactivated (killed) antigen in whole agent vaccines
    viruses May be inactivated with formalin or other chemicals
    no risk of infection & there are many antigens
  • attenuated (weakened) antigen in whole agent vaccines
    usually strains where mutations have accumulated during culture
    pro: many antigens
    con: not fully inactivated so could replicate
  • antigen in subunit vaccines
    contains part or product of Microorganisms that can produce an immune response
    pro: can't replicate
    con: can have fewer antigens
  • why are subunit vaccines safer than attenuated vaccines
    they can't replicate in organism
    produce fever adverse effects
  • antigenic variation
    arises due to mutations which causes changes to an tigen of pathogen
    Makes treatmen & prevention of disease harder
    harder to develop vaccines
  • antigenic variation in influenza virus
    it can recombine its RNA so can change every year so different vaccines must be made
    most effective against the recently circulating strain is administered
  • features of a sucessful vaccination program
    vaccine must be economically available in though quantities to immunise most of the vulnerable population
    there must be few side effects
    means of producing, transporting & storing vaccine must be available
    there must be means of administering vaccine properly
    must be possible to vaccinate most of the vulnerable population to produce herd immunity
  • how does herd immunity arise
    when enough of the population has been vaccinated to make it hard for pathogen to spread within population
    when most of population is immune it's very unlikely that a susceptible individual will come into contact with an infected individual
  • Why is herd immunity important
    it's impossible to vaccinate everyone in a large population
    babies are sometimes too young & it could be dangerous to vaccinate those who are ill
  • reasons for vaccines not eliminating disease
    vaccines fail to induce immunity in some people
    individuals may develop disease after vaccination
    antigenic variability
    there may be too many varieties of a pathogen
    some pathogens hide from immune system - inside alls or living in places out of reach
    people may have objections due to religious, ethical or medical reasons
  • ethics of vaccines
    development often involves animal testing
    side-effects can cause long-term harm
    must be tested on humans
    to be effective most people must be vaccinated
    in an epidemic who should be vaccinated first
  • that's MMR vaccine for
    measles, mumps & rubella
  • facts that show there's no link 'between MMR & autism
    author of research was being paid by Legal Aid Board to discover whether parents claimed their children had been damaged by MMR had a case
    study in Japan with 30000 children found no link
    sample size of initial research was very small
  • why scientific evidence should be treated with caution
    theory must be critically appraised & confirmed by other Scientists in field
    some scientists may not be acting to tally independently so may be biased
    scientist's personal beliefs, views & opinions may influence how they carry out their research
    facts may be distorted by Media /governments
    new knowledge may challenge beliefs