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Disease Transmission

Disease Transmission. January 21 st , 2010. Basic Terms. Pathogen Microorganism that causes disease Commensal Microorganisms that live in the human or animal without affecting them Colonization Living bacteria are present in the host You can be colonized but not infected

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Disease Transmission

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  1. Disease Transmission January 21st, 2010

  2. Basic Terms • Pathogen • Microorganism that causes disease • Commensal • Microorganisms that live in the human or animal without affecting them • Colonization • Living bacteria are present in the host • You can be colonized but not infected • Example: antibiotic resistant Staphylococcus aureus • Infection • Invasion by microorganisms that starts the disease process

  3. Basic Terms • Incubation period • Time between infection and appearance of symptoms • Prodromal period • Time when symptoms are mild • Morbidity • Illness • Mortality • Death

  4. Basic Terms • Fomite • Inanimate object that transmits disease (your cell phone!) • Vehicle • Medium that transmits disease • Water • Food • Air • Blood

  5. Basic Terms • Vector • Arthropods that carry infectious disease • The microorganism can multiply in the vector • Reservoir • Any site where an infectious agent survives • Animal • Natural environment (water, soil) • Diseases can be acquired from their reservoirs • A reservoir does not have to play a role in disease transmission, but it provides a source of pathogens

  6. Basic Terms • Zoonotic disease • Disease that can be transmitted from humans to animals • Some very important environmentally transmitted diseases are zoonotic • Transmission cycles of many diseases go on naturally among animals until we blunder into the cycle

  7. Epidemiology terms • Incidence Number of new cases of disease Person-time at risk • Incidence always incorporates time- the duration of observation

  8. Epidemiology terms • Prevalence Number of new cases of disease Number of people at risk • Prevalence is at a single point in time • A snapshot of the disease in the population

  9. Epidemiology terms • Attack rate Number of new infections Person-time at risk of infection • Attack rate is usually used during an epidemic • Incidence during a limited period of time • Example: people who ate at a certain restaurant

  10. Epidemiology terms • Epidemic • Large number of cases of a disease in a relatively short period • An epidemic of measles in unvaccinated schoolchildren • Endemic • Always present in a population • Malaria endemic regions of the world

  11. Epidemiology concepts • R0: The reproductive number • the average number of secondary infections produced when one infected individual is introduced into a host population where everyone is susceptible • infection can get started in a fully susceptible population if and only if R0 > 1

  12. A model of disease transmission: The SIR model • Common model for describing the transmission of infectious diseases • Can be used for mathematical modeling of disease transmission, but is also a conceptual model • Describes a population where individuals fall into three main categories: • Susceptible (S): can get disease • Infectious (I): Have disease, can spread to others • Recovered (R): Can no longer spread disease

  13. A model of disease transmission: The SIR model • Different individuals within this population can be in one of a few key states at any given time • Susceptible to disease (S) • infectious/asymptomatic (I): transmission risk because they do not know they are ill • infectious/symptomatic (I) • non-infectious/asymptomatic; recovered (R)

  14. A model of disease transmission: The SIR model • A dynamic model: individuals are moving from state to state over time • This is key: the transmission of infectious diseases is a dynamic process • Within human populations • Within animal populations • Between humans, animals, and insect vectors • From humans to the environment and back to humans

  15. The SIR model: key details There are two sets of variables: • Variables describing the states people are in • S=susceptible • I=infectious • R=non-infectious/asymptomatic • Variables describing how many people are moving between these states (parameters) • Example: γ=Fraction of people in state R who move to state S

  16. S R W ENVIRONMENT The SIR Model g  d I • S: Susceptible • I: Infectious (symptomatic+asymptomatic) • R: Non-infectious • W: Concentration of pathogens in the environment • β: Infection rate due to exposure to pathogen • δ: Fraction of people who move from state I to state R • γ: Fraction of people who move from state R to state S • Solid lines: Individuals moving from state to state • Dashed lines: Pathogen flows between individuals in different states

  17. Epidemiology concepts: Epidemic curves • An epidemic curve can provide information on the following characteristics of an outbreak: • Pattern of spread • Magnitude • Outliers • Time trend • Exposure and/or disease incubation period

  18. Epidemic curves • The overall shape of the epi curve can reveal the type of outbreak • Common source • Point source • Propagated

  19. Epidemic curve: a point source outbreak Example: Legionnaire’s Disease

  20. Epidemic curve: a point source outbreak A gastroenteritis outbreak in a nursing home

  21. Epidemic curve: a common source outbreak a foodborne outbreak from a widely distributed food product

  22. Epidemic curve: a propagated outbreak

  23. SARS in Toronto: A propagated outbreak with two waves of cases

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