Biology 40.3 Disease Transmission and prevention

1. Disease Transmission and Prevention Biology 40.3 Disease Transmission and prevention

2. In general, you can get an infectious disease in any of five different ways: through person-to-person contact, air, food, water, and animal bites. Diseases transferred from person to person are considered contagious or communicable. For example, when a person sneezes, droplets of saliva and mucus carrying pathogens are expelled from the mouth and nose. If another person breathes these droplets, these pathogens can infect that person. Disease Transmission

3. People directly transmit some diseases by kissing, shaking hands, touching sores, or having sexual contact. People can also transmit diseases indirectly through touching objects; such as drinking glasses, toys, cell phones, computer keyboards, plumbing, and tattoo needles. By minimizing exposure to pathogens you can decrease your chance of becoming ill. To prevent illness caused by bacteria found in food you need to make sure you are cooking foods thoroughly, such as pork and chicken, and sanitizing cooking areas and utensils carefully are important in preventing illnesses from spreading. Disease Transmission

4. The German physician Robert Koch (1843-1910) established a procedure for diagnosing causes of infection. Koch determined that bacteria caused anthrax, a disease that affects cattle, sheep, goats, and humans. Anthrax is a deadly disease although it is not passed from person to person. In an experiment, Koch isolated bacteria from a cow with anthrax and then infected a healthy cow with the same bacteria. The healthy cow developed anthrax and had the same bacteria that the first cow had. Detecting Disease

5. In his research, Koch developed the following four-step procedure, known as the Koch postulates, as a step for identifying specific pathogens. 1:The pathogen must be found in an animal with the disease and not a healthy animal. 2: The pathogen must be isolated from the sick animal and grown in a laboratory. 3: When the isolated pathogen is injected into a healthy animal, that animal must develop the disease. 4: The pathogen should be taken from the second sick animal. That pathogen should be identical to the original pathogen from the first sick animal. Koch Postulates

6. The specific immune response is very powerful, and it can be a long lasting defense. After an immune response, some B cells and T cells become memory cells that continue to patrol your body’s tissues. Some memory cells provide lifelong protection against previously encountered pathogens. If a pathogen ever appears again, memory cells activate antibody protection against that pathogen. A second exposure to the same pathogen causes a sharp increase in the antibody concentration. This enables macrophages to destroy the pathogen before you become ill. You are said to be “immune” to the disease caused by the pathogen. Long term protection

7. Resistance to a particular disease is called immunity. It has long been noted that individuals that have recovered from a particular infectious disease are immune to that disease. This knowledge led to the development of immunology, a field of science that deals with antigens, antibodies, and immunity. Immunologists study the body’s defenses and develop ways to help protect against diseases. Resistance To disease

8. In 1796, an English doctor named Edward Jenner performed an experiment that marks the beginning of immunology. Smallpox, which is caused by a virus, was a common and deadly disease than. Jenner noted that milkmaids who had contracted cowpox, a milder form of smallpox, rarely became infected with smallpox. Jenner hypothesized that cowpox produced a protection against the more serious smallpox. Immunology

9. Jenner, to test his hypothesis that cowpox exposure produced a resistance to smallpox, infected healthy people with cowpox. As Jenner had predicted, many of the people he had injected with cowpox never experienced smallpox even when they were exposed to the virus. They had become immune to it. We know now that cowpox and smallpox are produced by two very similar viruses. The exposure to cowpox had produced an immune response to later exposures of smallpox that prevented the smallpox from developing. A specific defense was already in place to fight it. Dr. Jenner and smallpox

10. Jenner’s procedure of injecting the cowpox virus to produce resistance to smallpox is called a vaccination. Vaccination is a medical procedure used to produce an immune response against a known pathogen. All of us have been to a doctor and been vaccinated against various diseases since we were young children. Modern vaccination involves a shot of a vaccine under our skin. A vaccine is a dead or weakened version of a virus-pathogen that causes our body to develop an immune response to that pathogen. Vaccination

11. A vaccine triggers an immune response against the pathogen with only very mild symptoms of infection. For several days after you are vaccinated, your immune system develops antibodies and memory cells against the pathogen. You develop a long-lasting (sometime lifetime) immunity to the particular disease the pathogen causes. Some vaccines need to be updated every few years with a booster shot to boost the response. Vaccine

12. You can get the flu even if you have already been infected or vaccinated. Influenza (common cold) viruses constantly mutate over time as they move through a population. The viruses produce new antigens that your immune system may not recognize, a process we call antigen shifting or antigenic drift. With following exposure to the changed virus, your body must now produce new antibodies to the shifted form of the virus. Antigen shifting