Patterns of Disease

Question 1

Epidemic

Answer 1

An increased or unexpected occurrence of cases

- epizootic

Question 2

Endemic

Answer 2

A normal or expected number of cases in time and space

- enzootic

Question 3

Pandemic

Answer 3

Epidemic over a large area

- country or worldwide

Question 4

Incidence

Answer 4

New cases, force of disease, probability of becoming a case

Question 5

Prevalence

Answer 5

Cases at a point in time, “commonness” of disease, probability of being a case

Question 6

Epidemic curve

Answer 6

Visual display of disease occurrence in time

• vertical axis: incidence count
• horizontal axis: time

Question 7

What are the 2 basic types of epidemics?

Answer 7

• common source

- propagated

Question 8

Common-source epidemic

Answer 8

Results from exposure to a common source

• contaminated food or water
• all cases are infected from a source common to all individuals at risk

Question 9

Point-source epidemic

Answer 9

If the exposure is sudden and brief

• ex: food poisoning at a picnic
• median incubation time

Question 10

Extended common source epidemic

Answer 10

If the exposure period is prolonged

Question 11

Propagating epidemic

Answer 11

Results from animal-to-animal transmission

Question 12

The initial slope of the epidemic curve is steeper when the animal density is ______

Answer 12

Higher

• remember R0 formula!*
• are changing probability of transmission per contact

Question 13

The initial slope of the epidemic curve is steeper when the infectious period is _______

Answer 13

Longer

• will drive it faster, and you will get more cases
• changing probability of transmission per contact, and duration of infectiousness

Question 14

The initial slope of the epidemic curve is steeper when animal numbers ______

Answer 14

Increase

Question 15

Slope of curve suggests efficiency of ________ within the population

Answer 15

Transmission

- as the slope gets steeper, new cases are being produced faster and transmission is more efficient

Question 16

Temporal distribution of disease

Answer 16

Short term trends
- epidemics
Cyclical trends
- periodic changes in susceptible host population and in effective contact
- seasonal trends
Secular or long term trends
- long term interaction of host and agent

Question 17

Potential usefulness of epidemic curve

Answer 17

• characterize the source of an epidemic (general shape)
• assess relative transmission
• determine mode of transmission (common source/propagated)
• determine a seasonal pattern
• possibly assess control measures where effective
• prospectively predict what effect interventions will have

Question 18

Dissemination rate

Answer 18

Propensity of infection to spread to other herds

- average number of uninfected herds to which an infectious agent is delivered by each infected herd

Question 19

What does DR depend on?

Answer 19

• host
• environment
• animal movements, behavior of owner, disease control strategies (biosecurity)
• agent