1 / 26

Veterinary Vaccines & Biologicals

Veterinary Vaccines & Biologicals. By C. Kohn Based on Animal Health Management by W. W. Kirkham. Biologicals vs. Pharmaceuticals . Drugs used by veterinarians are classified as either pharmaceuticals or biologicals. Pharmaceuticals are use mainly for the treatment of a disease

tarala
Télécharger la présentation

Veterinary Vaccines & Biologicals

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Veterinary Vaccines & Biologicals By C. Kohn Based on Animal Health Management by W. W. Kirkham

  2. Biologicals vs. Pharmaceuticals • Drugs used by veterinarians are classified as either pharmaceuticals or biologicals. • Pharmaceuticals are use mainly for the treatment of a disease • Biologicals are used mainly for the prevention of a disease • Biologicals are used to stimulate immunity against specific diseases • They provide the most reliable and effective form of livestock health management.

  3. Origins of Vaccines • Edward Jenner, an English physician, is credited for discovering the first vaccine in 1796 • Dr. Jenner recognized that farmers who had been exposed to cowpox were not susceptible to the much more serious human smallpox • Dr. Jenner inoculated a human volunteer with pus from the sores of a cow with cow pox • The volunteer developed localized sores at the site of inoculation • Months later, the volunteer was inoculated to with small pox. • The subject did no develop any symptoms from this exposure. • The antigens produced from cow pox were similar enough to prevent a small pox infection.

  4. Mechanisms of Biologicals • Biologicals are effective in preventing disease because they cause an “antigen-antibody” reaction in the animal’s body • An antibody is a protein produced by the body of the animal to fight an invading pathogen • An antigen is the invading pathogen • Antigen is shorthand for “Antibody Generator” • A biological vaccine works by giving the animal weakened or killed antigens • The immune system responds by “remembering” the disease so that it can recognize it if it invades again

  5. Characteristics of Vaccines • Vaccines are highly sensitive medicines • This is largely because they contain living material that must be kept at a weakened state but also be kept alive enough to generate an antibody-response in the animal • Vaccines can be rendered ineffective by… • Sunlight • Temperature fluctuations • Mixing with other vaccines • Use after an expiration date • Purchasing from a disreputable dealer

  6. Types of Vaccines • Vaccine means “any biological agent that produces active immunity” • Active immunity is long term immunity created by the animal itself, as opposed to short-term passive immunity from milk or blood transfusion • There are several kinds of biological treatments that fall under this definition

  7. Bacterin • Bacterin is a killed culture of bacteria • It usually requires a series of injections to stimulate adequate protection against a disease • This is the type of vaccine that is most likely to require a booster • A “mixed bacterin” contains more than one type of pathogenic antigen

  8. Autogenous vs. Stock bacterin • An autogenousbacterin is made form an organism isolated from an infected animal on the premises • The weakened bacteria from the infected animal can be used to provide immunity to other animals on the farm • Stock bacterin is made from a bacterial culture mixed ain a laboratory

  9. The Vaccine Spectrum • Vaccines are tricky in that we want to balance virulence of the bacteria with antibody generation potential of the vaccine • In other words, we want the vaccine to be strong enough to generate immunity in the host animal • However, we don’t want the vaccine to be so strong that it actually causes the disease in the animal! • In this regard, there are three categories of vaccine: • Live • Killed • Modified Live

  10. Live vs. Killed Bacterial Vaccines • Live bacterial vaccines of reduced virulence are made form certain strains of bacteria that are less virulent than other strains that cause the disease • Sometimes a less virulent strain can be found in nature • Other times it must be created through laboratory techniques • Killed vaccines contain bacteria that have been killed but whose cellular antigens remain • Killed vaccines are safer as there is no chance of the vaccine causing a disease • However, live vaccines are more effective

  11. Modified Live Vaccines • Modified live vaccines are produced by growing the pathogen in such a manner that it has a reduced ability to grow a disease but is still alive • This reduces the risk of causing a disease but maximizes the antibody formation in the treated animal • Adequate protection from the disease is dependent on the multiplication of the pathogen in the body of the animal • For most diseases a modified live virus can provide adequate protection but will likely require repeated injections (boosters)

  12. Antiserums • An antiserum is a blood serum containing specific antibodies against a disease • The antiserum is obtained from an animal that has been immunized against a disease • It is then used to treat another animal which has contracted the same disease for producing immediate protection in a susceptible animal • Antiserums are considered a form a passive immunity • They are short term and do not require an immune response from the infected animal

  13. Antitoxins • Antitoxins are antiserums that contain antibodies to bacterial toxins • Tetanus antitoxin is a prime example • A tetanus antitoxin antiserum helps an animal overcome both the tetanus infection as well as the effects of the exotoxin produce by the tetanus bacteria

  14. Toxoids & Adjuvants • Toxoids are detoxified toxins that are used as antigens • Adjuvants are substances added to biologicals to enhance the antigen’s ability to stimulate antibody production • Adjuvants perform this enhancement by delaying the absorption of the antigen • Adjuvants also increase effectiveness of the biological by stimulating the immune system to respond with greater force to the antigen in the biological

  15. Immunity and Immune Response By C. Kohn Based on Intro. To Veterinary Science, Lawhead & Baker

  16. Initial Exposure • When an animal is first exposed to an antigen, it takes 3-14 days for a significant amount of antibody to be produced. • This is called the Primary Response • A pathogen has numerous binding sites on its surface • Y-shaped antibodies will bind to these surfaces • They will then stimulate the phagocytic cells that digest the pathogen or can even inactive the pathogen through their binding to its surface • For example, an antibody-coated virus is incapable of attacking other cells

  17. Antigen vs. Antibody Animation Antigen Antibody

  18. Memory Cells • During the initial production of antibodies, some antibody-producing cells slow down their production • Instead of producing short-lived antibodies to fight the pathogen, they produce smaller amounts of long-lived memory cells. • These cells are able to provide a much quicker response the next time the body is exposed to the same pathogen • With the presence of memory cells, much less antigen is required to stimulate the reaction by the immune system • This results in a quicker response time and a larger production of antibody

  19. Secondary Response • The quicker, larger production of antibodies due to the memory cell activity is known as the Secondary Response • The Secondary Response prevents the animal from developing the disease the second time. • The memory cells that enable the Secondary Response to occur originate from the B- and T-Lymphocytes (the predator cells that kill pathogenic bacteria and viruses). • Reminder – Primary & Secondary Responses are part of Active Immunity – the body is producing its own response • Passive Immunity would be from a transfer of blood or milk from an immune animal to a non-immune animal • Passive is short-term immunity

  20. Administration of Pharmaceuticals By C. Kohn Based on Animal Health Management by W. W. Kirkham

  21. Methods of Application • Topical – applied to the skin or mucous membranes • Oral – given by mouth via tablet, pill, capsule, or liquid via feeding (mixed with feed), balling gun (tube with plunger), or drenching (long-necked bottle for up to 1 quart of fluid), or dose syringe (blunt, plastic needled syringe) • Injection (or Parenteral Route) – direct injection using a needle and syringe • Next slides

  22. Injections • Injection requires a sterile technique • Care must be taken to prep the injection site, equipment, and product to minimize complications • Needles come in many diameters and variable lengths • 22 gauge 1 inch and 18 gauge 1.5 inch needles are adequate for most injections in livestock

  23. Filling the Syringe • To fill a syringe – • Pull back on the plunger and fill the syringe with an amount of air equal to the amount of medication to be placed in the syringe • Wipe the rubber stopper of the medicine bottle with rubbing alcohol • Pass the needle through the rubber stopper and slowly inject the air into the bottle

  24. Filling the Syringe • 4. Holding the bottle upside down, make certain that only the bevel of the needle is through the stopper (so that you can remove the last of the drug from the bottle) • 5. Remove all air bubbles from the syringe by tapping with your finger and allowing adequate time for air bubbles to move upward. • 6. Pull the desired amount of product into the syringe • 7. Pull the needle straight out to remove it from the stopper. Be sure to avoid contaminating the needle.

  25. Prepping the Injection Site • Alcohol is a poor disinfectant and requires several minutes to be effective against the bacteria it is killing • Be sure to remove mud and manure from the injection site using soap and water • Rinse the site and dry it prior to the injection and after the treatment of soap and water • It is not necessary to clip or shave the injection site • After the injection, make sure that the injected material does not leak from the opening in the skin when the needle is removed. • If it occurs, hold your finger over the injection site and pinch firmly for a few seconds.

  26. Types of Injections • Intramuscular – into the muscle • Subcutaneous – beneath the skin • Intravenous - into a vein • Intradermal – between the layers of skin • Intraperitoneal - into the lumen of the intestines • Intramammary – into the udder through the teat cistern via a cannula (hollow tube for injections) • Subconjunctival - beneath the conjunctiva (outer layer) of the eye • Nebulization/Inhalation - administration via inhaling

More Related