Lecture 20 Epi of Infectious Diseases

Question 1

Modes of Transmission
Contact

Answer 1

1. Direct Contact (touching, kissing, sex)
2. Indirect contact (intermediate object, fomites)

Question 2

MOT: Respiratory Droplets

Answer 2

Secretion particles, coughing, sneezing.

Question 3

MOT: Airborne

Answer 3

Particles that are less than 5 microns: droplet nuclei, dust

Question 4

MOT: Vehicle-Borne

Answer 4

Ingestion of contaminated food or water, instrumentation, infusion/injection

Question 5

MOT: Vertical Transmission

Answer 5

In utero, birth, breastmilk

Question 5

MOT: Vector-born

Answer 5

Mechanical, biologic

Question 6

Airborne Transmission

Answer 6

Suspended microorganisms are inhaled by a susceptible host and cause infection. Think about the stadium crisis. Air flow in the stadium carried the microorganisms to all parts of the stadium and people got sick.
1. Depends on temperature and humidity
2. Droplet nuclei less than 5microns
3. Microorganisms can travel considerable distances.

Question 7

Droplet Transmission

Answer 7

Droplets are propelled from an infectious host onto an other susceptible host to cause infection. Propelled via talking, sneezing, etc and they fall to the floor.
1. Larger than 5 microns
2. Do not remain in air for long and require proximity. (6-10 microns can be suspended briefly
3. Microorganisms travel 3-6 feet

Question 8

Epidemiologic Triad

Answer 8

A way to describe the interactive mechanism between host, vector, agent, and environment.
It’s not the most optimal way to describe the how disease spreads

Question 10

Chain Model of Infectious Disease
What is the first circle?

Answer 10

1. Susceptible host
   Someone with a compromised immune system.

Question 11

Chain Model of Infectious Disease
What is the second circle?

Answer 11

1. Causative Agent
   Also known as the pathogen

Question 12

Chain Model of Infectious Disease
What is the third circle?

Answer 12

1. Reservoir or Host
   The thing in which the pathogen is already living in.

Question 13

Chain Model of Infectious Disease
What is the fourth circle?

Answer 13

1. Portal of exit
   The way the pathogen leaves the reservoir/host

Question 14

Chain Model of Infectious Disease
What is the fifth circle?

Answer 14

1. Mode of Transmission
   The way the pathogen travels, can be 6 different ways

Question 15

Chain Model of Infectious Disease
What is the sixth circle?

Answer 15

1. Portal of entry
   How the pathogen enters the susceptible host

Question 16

Chain Model of Infectious Disease
What is the seventh circle?

Answer 16

1. Back to susceptible host

Question 17

Infectivity

Answer 17

The ability of an infectious agent to establish infection in a susceptible host. Infectivity is high if it takes a minimal amount of exposure to the infectious particles.
Measured in:
Number of infectious particles
Secondary attack rate

Question 18

Pathogenicity

Answer 18

Proportion of infections that result in clinically apparent infection or disease. Person has symptoms

Question 19

Virulence

Answer 19

Proportion of clinically apparent cases that result in significant clinical manifestations
Measured by case fatality

Question 20

Natural History of Disease (Pathogen Perspective)

Answer 20

1. Latent Period
2. Infectious Period
3. Non-infectious Period

Question 21

Natural History of Disease (Host Perspective)

Answer 21

1. Incubation Period
2. Symptomatic Period
3. Non-diseased Period

Question 22

What is the latent period?

Answer 22

Period of time after infection where the pathogen is not yet infectious

Question 23

What is the infectious period?

Answer 23

Period of time where the pathogen is infectious.

Question 24

What is the non-infectious period?

Answer 24

Pathogen is no longer infectious due to
1. Immunity
2. Death (pathogen can still cause damage)
3. Recovery

Question 25

What is the incubation period?

Answer 25

Period of time after infection. You can either have symptoms or no symptoms by this point.

Question 26

What is the symptomatic period?

Answer 26

When the infected person develops apparent symptoms.

Question 27

What is the non-diseased period?

Answer 27

1. Become immune
2. Become a carrier
3. Die
4. Recovered

Question 28

Influenza

Answer 28

Individuals are contagious before they develop symptoms.

Question 29

Smallpox

Answer 29

People are symptomatic before they become infectious.

Question 30

Sars 2003

Answer 30

Individuals are contagious only when they experience symptoms.

Question 31

Sars-Cov-2

Answer 31

Individuals are contagious before they develop symptoms.
Infectious before symptomatic

Question 32

What is the SIR Model?

Answer 32

Susceptible
Infected
Recovered

Question 33

Susceptible

Answer 33

People who are at risk for developing the disease

Question 34

Infected

Answer 34

People are infected with disease/illness

Question 35

Recovered

Answer 35

Those who have recovered from the disease and are no longer susceptible.

Question 36

Epidemic Theory

Answer 36

Once there are no longer any susceptible people the outbreak will die out. Exceptions are the SIS model which is susceptible, infected, susceptible again.

Question 37

Basic Reproductive Number (R0)

Answer 37

The expected number of new infectious hosts that a primary infectious host will produce during their infectious period in a large, susceptible population.
Does not include new cases produced by secondary cases

Question 38

Why is R0 not realistic?

Answer 38

Very rarely do we have completely susceptible populations so we don’t measure RO usually. (Sars covid-2 was exception; everyone was susceptible)

Question 39

Effective Reproductive Number

Answer 39

Used in populations that are not completely susceptible (reality)
RO * x (the fraction of the population that is susceptible)
shelter in place, vaccinations can help change x
RO does not change it stays the same
R can change over time depending on what humans and pathogen is doing

Question 40

Herd Immunity

Answer 40

there is protection offered by presence and proximity of immune people even if the person themselves is not immune because the other immune people won’t spread the disease.

Question 41

herd immunity threshold

Answer 41

minimum proportion of a population that must be immune for elimination of infection
If R0 is high, the higher the more people that need to be immune to achieve an R < 1.

Question 42

R > 1

Answer 42

If R is > 1 that means one infectious host is producing on average more than one infected people. This is a recipe for outbreak.

Question 43

R < 1

Answer 43

If R < 1 that means one infectious host is producing on average less than one infected person. Outbreak will die out.

Question 44

R = 1

Answer 44

Outbreak is in equilibrium. One infectious host produces one infected person.

Question 45

The concept of flattening the curve

Answer 45

If R is much greater than 1 then it produces a high epidemic curve. The x-axis represents infected people on a

Question 46

Which of the following about effective reproductive rate (R) in infectious disease epidemiology is FALSE?

Question 47

Which of the following about effective reproductive rate (R) in infectious disease epidemiology is FALSE?

Answer 47

Choice 1 of 5:Disease with a higher R could be a more infectious disease.

Choice 2 of 5:Increasing the proportion of the population that is susceptible will increase the effective reproductive rate.

Choice 3 of 5:Changes in R can reflect the success of our control efforts.

Choice 4 of 5:An outbreak with R > 1 will continue to spread while R < 1 will eventually die out.

Choice 5 of 5:
R0 is equal to the effective reproductive rate scaled by the proportion of the population that is susceptible.

Question 48

Which of the following statements around measles describes pathogenicity?

Answer 48

Individuals who contract measles often have a prominent rash 10-14 days after exposure.