1 / 59

EPI 5240: Introduction to Epidemiology Overview of Communicable Disease Epidemiology October 26, 2009

EPI 5240: Introduction to Epidemiology Overview of Communicable Disease Epidemiology October 26, 2009. Dr. N. Birkett, Department of Epidemiology & Community Medicine, University of Ottawa. Session Overview. Basic concepts of infectious disease epidemiology Spectrum of disease

conway
Download Presentation

EPI 5240: Introduction to Epidemiology Overview of Communicable Disease Epidemiology October 26, 2009

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. EPI 5240:Introduction to EpidemiologyOverview of Communicable Disease EpidemiologyOctober 26, 2009 Dr. N. Birkett, Department of Epidemiology & Community Medicine, University of Ottawa

  2. Session Overview • Basic concepts of infectious disease epidemiology • Spectrum of disease • Transmission methods • Epidemics and outbreaks • Key concepts • Methods of investigation/control • Approaches to disease surveillance • Sample outbreak investigation exercise

  3. Agents of Infectious Diseases • Bacteria • Viruses • Rickettsia • Fungi (mycoses) • Protozoa • Helminths • Prions

  4. Infections: Sources and agents (1) Foodborne • Botulism • Clostridium Perfringens • Salmonellosis • Shigellosis • Staphylococcal disease • Traveler’s disease • Trichinosis Person-to-person spread • Aseptic Meningitis • Viral hepatitis • Respiratory Infections (influenza) • Herpes Simplex • Streptococcal disease (rheumatic fever) • Tuberculosis • Leprosy Water & Foodborne • Amebiasis • Cholera • Giardiasis • Legionellosis • E Coli

  5. Infections: Sources and agents (1) Vaccine preventable • Chickenpox • Diphtheria • Measles • Mumps • Poliomyelitis • Tetanus Arthropod Borne • Encephalitis (West Nile) • Lyme Disease • Malaria • Plague • Rocky Mountain Spotted Fever Sexually Transmitted • HIV/AIDS • Gonorrhea • Syphilis • Chlamydia Trachomatis Zoonotic • Psittacosis • Q fever • Rabies • Hantavirus Prions • Kuru • vCJD Opportunistic fungal/fungal • Coccidioidomycosis • Candidiasis

  6. Variation in incubation period

  7. Where would Lassa Fever go? Ebola virus?

  8. Some Definitions INFECTION • An infectious agent has entered and established itself in (or on) a host. COLONIZATION • Organism is present on the surface of the body and grows at a rate sufficient to maintain its numbers • There is no host reaction to the organism. CONTAMINATION • The presence of an organism on the surface of a body or inanimate object of an infectious agent which can serve as a source of infection. The organism need not be actively growing.

  9. Terminology (1) • Infectivity • The ability of an agent to invade and multiply in a host (an infection). • Dose of organism required to establish infection in 50% of animals. • Pathogenicity • The ability of an agent to produce clinically apparent illness.

  10. Terminology (2) • Virulence • The proportion of clinical cases which produce severe disease and/or permanent sequelae. • Immunogenicity • The ability of an agent to produce specific immunity against the agent • Can be produced in general body or within specific sites such as the GI tract. • Determines the ability of an agent to re-infect a host • Measles vs. gonorrhea • Seroepidemiology • The use of the immune status of people to study disease severity, distribution, etc. • Lassa fever

  11. Terminology (3) • Reservoir • Living organisms or inanimate matter in which infectious agent normally lives and multiplies • Fomites (Vehicle) • Inanimate objects contaminated with infectious agent (not the reservoir). Example would be toys in a daycare centre. • Vector • An animate source of an infectious agent. The vector may be infected with the organism (e.g. mosquitoes and malaria) or just be a mechanical carrier (e.g. flies). There is disagreement about whether vectors are restricted to insects or can also include small mammals.

  12. Terminology (4) • Zoonoses • Diseases transmitted to humans from animals (e.g. anthrax) • Carriers • An infected person without apparent clinical disease who remains infectious (e.g. Typhoid Mary) • Index Case • The person (case) who brings the infection to the attention of the medical community or the public agency. Sometimes used to refer to the person who brings the infection into a community. This will often (but not always) be the same person.

  13. Terminology (5) • Attack Rate • The probability that people will get ill from the disease. Usually applied in an outbreak situation. It is a cumulative incidence (incidence proportion) type measure. # new cases in group = ------------------------------------ # people in group

  14. Terminology (6) • Secondary Attack Rate • Probability of infection in a closed group who are at risk but excluding the index case(s). Formula is: # new cases in group – index case(s) = ----------------------------------------------------- # people in group – index case(s) • Risk of H. Influenza infection in family members within 30 days of disease in an index case (compared to general public) ≈ 600

  15. Terminology (7) • Case Fatality Rate (CFR) • The probability of death in people with an infection.

  16. Pathogenic Mechanisms (1) • Direct Tissue Invasion • Production of Toxins • Allergic Host Reaction • Resistant/latent infection (carriers) • Enhancement of host susceptibility to drugs (e.g. Reye’s syndrome and ASA). • Immune Suppression

  17. Reservoirs (examples of transmission patterns) • Human Human Human • Animal Animal Animal Human Animal Vector Vector Human

  18. Mechanisms of Spread (1) • kissing • sexual intercourse • hand shaking • droplets • spores in soil Indirect transmission Direct transmission • Vehicle borne • fomites (e.g. toys) • food • IV fluid • Vector borne • mechanical (e.g. soiled feet of insect) • biological (e.g. malaria) • Airborne • dust • droplet nuclei

  19. Factors Influencing Spread of Disease in a Population (1) • Period of infectivity in relation to symptoms • Mumps • Carrier state • Herd immunity • Attack Rate • Secondary attack rate • Type of spread • Person to person • common vehicle • vector-borne • zoonoses • Transmission mechanisms • sexually transmitted vs. droplet spread

  20. Develop disease Immune

  21. Epidemics (1) • Epidemic (now often called ‘outbreak’) • the occurrence in a community or region of cases of a disease/condition/behaviour clearly in excess of normal expectancy • Endemic • the occurrence of a disease/condition at a relatively constant level in a given setting (often required to be at a high rate) • Pandemic • an epidemic covering a very wide area and affecting a large proportion of the population • Pathogen • Infectious and non-infectious substance capable of producing tissue damage or initiating a process which can lead to a disease.

  22. Epidemics (2) • Common conditions increasing likelihood of an epidemic • The introduction of a new pathogen or an increased amount of, or a change in the virulence (infectivity) of, a pathogen. • An adequate number of exposed and susceptible persons. • An effective means of transmission between the source of the pathogen and the susceptible person.

  23. Epidemics (4) • Types of epidemics • Common source • Point source • Ongoing exposure • Need not be geographically localized • Propagated/progressive • Mixed • Note that epidemics can arise from behaviour as well as from traditional infectious sources. • Intravenous drug users and HIV/HPC • Mass hysteria • Epidemic curve • Spot maps

  24. Epidemic Curves: point source (1)

  25. Epidemic Curves: propagated (2) 10 days

  26. Epidemics (3) • Incubation period and causal agent

  27. Epidemic of hepatitis in institution

  28. Epidemic of hepatitis in institution

  29. SARS

  30. Epidemic Control (1) Twin goals: • Understand the cause, etc. • Minimize the impact to the affected community Goals can conflict: • need to collect full information base • need to take action in absence of full information Effective and clear communication with general public is essential • SARS outbreak • designate one spokesperson • regular press briefings

  31. Epidemic Control (2) Step 1: Identify potential investigation team members and resources/prepare for fieldwork. • Identify a lead investigator Step 2: Establish the existence of an outbreak Step 3: Verify the diagnosis • contact patients, verify history, symptoms, lab tests, etc.

  32. Epidemic Control (3) Step 4: Construct a working case definition • Uses a few simple clinical criteria • May be restricted by person, place and/or time • do not include an exposure or risk factor you want to test. • Is ‘loose’ or ‘sensitive’ if used for case-finding • Is ‘specific’ or ‘tight’ if used for hypothesis testing. • Your case definition may (should) change as you acquire more information. Step 5: Find cases systematically and develop a case listing.

  33. Epidemic Control (4) Step 6: Perform descriptive epidemiology • time: epidemic curve • place: spot map • person: look for commonalities. Tends to follow case series methods at this point but may involve comparison to ‘known’ community information. • Can use cohort or case-control methods is appropriate Step 7: Develop hypotheses. Step 8: Evaluate hypotheses.

  34. Epidemic Control (5) Step 9: As necessary, reconsider and refine hypotheses and conduct additional studies Step 10: Implement control and prevention measures. • your PRIMARY goal. Implement as soon as feasible even if information base is incomplete. Step 11: Communicate your findings. Step 12: Maintain surveillance to monitor trends and evaluate control/prevention measures.

  35. Actions to take in first 24 hours • Determine extent of outbreak • Establish etiological agent (if possible). • Identify all persons at risk • Identify key clinical & epidemiological features • age, sex, race • candidate exposures of interest • data of onset, place of onset, etc. • Obtain relevant environmental samples • when in doubt, take a sample! Think CSI. • Designate a public spokesperson and set-up media communications system • Organize investigative team • Call for help (if needed)

  36. Actions for ‘acute’ outbreak control Isolation • separation of infected persons or animals from others during the period of communicability • usually isolate for at least two incubation periods. Quarantine • restrictions on the activities of well people who (may) have been exposed to a communicable disease during its period of communicability. • active surveillance is an alternative • usually quarantine for at least two incubation periods. • More controversial than isolation since it affects people who are not currently ill (and may never get ill). Immunization • passive or active. Passive (IGG) is more useful for acute outbreaks. Chemoprophylaxis

More Related