Epidemiologic Surveillance An Outbreak Investigation

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Epidemiologic Surveillance An Outbreak Investigation

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Title: Epidemiologic Surveillance An Outbreak Investigation

1
Epidemiologic SurveillanceAn Outbreak
Investigation

Jennifer Beebe-Dimmer MPH, PhD
Assistant Research Scientist
UM Department of Epidemiology

2
Concepts in Infectious Disease Epidemiology
3
Infectious Disease

An illness due to a specific infectious agent or
its toxic products that arises through
transmission of that agent or its products from
an infected person, animal or inanimate reservoir
to a susceptible host either directly or
indirectly through an intermediate plant or
animal host, vector or the inanimate environment.
(Communicable Disease)
Source Benensen AS, editor. Control of
Communicable Diseases Manual. Sixteenth Edition,
1995.

4
Dynamics of Disease Transmission
Epidemiologic Triad

Human disease results from interaction between
the host, agent and the environment. A vector
may be involved in transmission.
Host susceptibility to the agent is determined by
a variety of factors, including
- Genetic background
- Nutritional status
- Vaccination
- Prior exposure

5
Factors associated with increased risk of human
disease

Host Characteristics Agent
Environmental Factors
Age Biologic (Bacteria, viruses)
Temperature
Sex Chemical (Poison, smoke) Humidity
Race Physical (Trauma, radiation) Altitude
Occupation Nutritional (Lack, excess) Crowding
Marital Status Housing
Genetics Neighborhood
Previous Diseases Water
Immune Status Food
Air Pollution
(In Gordis Epidemiology)

6
Modes of Disease Transmission

The potential for a given agent to cause an
outbreak depends on the characteristics of the
agent, including the mode of transmission of the
agent
Two basic modes of transmission
Direct
Indirect
Certain diseases can be transmitted directly or
indirectly

7
Direct Mode of Disease Transmission

In an infectious setting, immediate and direct
transfer of an agent to a host by an infected
person or animal
Touching, biting, or sexual intercourse are
classic examples
Measles virus airborne by droplet spread or
direct contact with nasal/throat secretions of
infected persons
In a noninfectious setting, the host may have
direct contact with the agent in the environment
Children ingesting lead paint from playground
equipment

8
Indirect Mode of Disease Transmission

Vehicle-borne
Transmission through contaminated inanimate
objects (toys, food, water, surgical utensils, or
biological products such as blood, tissues or
organs)
Vector-borne
Transmission through simple contamination by
animal or arthropod vectors or their actual
penetration of the skin or mucous membranes
Airborne
Transmission occurs when microbial, particulate,
or chemical agents are aerosolized and remain
suspended in air for long periods of time

9
Incubation Period

Interval from receipt of infection to the time of
onset of clinical illness (signs symptoms)
Different diseases have different incubation
periods
No precise incubation period
A range is characteristic for a disease
What accounts for this delay?
Time needed for the pathogen to replicate to the
critical mass necessary for clinical disease
Site in the body at which the pathogen replicates
Dose of the infectious agent received at time of
infection

10
Outcomes of Exposure to an Agent
The spectrum of severity varies by disease 1.
Exposure, No infection 2. Carrier - Individual
harbors the pathogen but does not show evidence
of clinical illness a potential source of
infection (can transmit the agent) 3.
Subclinical Infection - Disease that is not
clinically apparent leads to immunity,
carrier, or non-immunity 4. Clinical
Infection - Apparent disease characterized by
signs and symptoms results in immunity,
carrier, non-immunity, or severe consequences
such as death
11
Endemic, Epidemic and Pandemic
Endemic - The habitual presence (or usual
occurrence) of a disease within a given
geographic area Epidemic - The occurrence of an
infectious disease clearly in excess of normal
expectancy, and generated from a common or
propagated source Pandemic - A worldwide epidemic
affecting an exceptionally high proportion of
the global population
Number of Cases of Disease
Endemic
Epidemic
Time
12
Disease Outbreaks

Typically, sudden and rapid increase in the
number of cases of a disease in a population
Common Source
Cases are limited to those who share a common
exposure
Foodborne, water
Propagated
Disease often passed from one individual to
another
Measles, STDs

13
Essential Steps in an Outbreak Investigation
14
Steps of an Outbreak Investigation

1) Establish the existence of an outbreak
2) Verify the diagnosis
3) Define and identify cases
4) Describe and orient the data in terms of
person, place and time
5) Develop hypotheses
6) Evaluate hypotheses
7) Refine hypotheses and carry out additional
studies
8) Implement control and prevention measures
9) Communicate findings

15
Step 1 Establish the existence of an outbreak

Before you decide whether an outbreak exists, you
must first determine the expected or usual number
of cases for the given area and time

16
Step 1 Establish the existence of an outbreak

Data Sources
1) Health department surveillance records for a
notifiable disease
2) Sources such as hospital discharge records,
mortality records and cancer or birth defect
registries for other diseases and conditions
3) If local data is not available, make
estimates using data from neighboring states or
national data

17
Step 1 Establish the existence of an outbreak

Whether or not an outbreak is investigated or
control measures are implemented is not strictly
tied to verifying that an epidemic exists
Other factors may come into play, including
Severity of the illness
Potential for spread
Political considerations
Public concern and pressure from community
Availability of resources

18
How do we know when we have an excess over what
is expected?
Public Health Surveillance The ongoing and
systematic collection, analysis, and
interpretation of outcome-specific data for use
in the planning, implementation, and evaluation
of public health practice. (Thacker, Berkleman.
Epidemiologic Reviews 198810164-90)
19
Notifiable Disease

Disease for which regular, frequent, and timely
information regarding individual cases is
considered necessary for the prevention and
control of disease

20
Summary of Botulism Cases by Year, U.S.,
1979-1999
21
Step 2 Verify the diagnosis

Two goals in verifying a diagnosis
1. Ensure that the problem has been properly
diagnosed -- the outbreak really is what it has
been reported to be
Review clinical findings and laboratory results
for affected people
Visit or talk to several of the people who became
ill
2. For outbreaks involving infectious or toxic
chemical agents, be certain that the increase in
diagnosed cases is not the result of a mistake in
the laboratory.

22
Step 3 Define and identify cases

Establish a case definition - a standard set of
criteria for deciding whether a person should be
classified as having the disease under study
In many outbreaks, a working definition of the
disease syndrome must be drawn up that will
permit the identification and reporting of cases
As the investigation proceeds and the source,
mode of transmission and/or etiologic agent
becomes better known, you can modify the working
definition

23
Step 3 Define and identify cases

A case definition includes four components
Clinical information about the disease,
Characteristics about the people who are affected
(person),
Information about the location (place), and
A specification of time during which the outbreak
occurred (time).

24
Step 3 Define and identify cases

To increase sensitivity specificity of
reporting, we use three classifications of cases
that reflect the degree of certainty regarding
diagnosis
1) Confirmed
2) Probable
3) Possible
The case definition is used to actively search
for more cases beyond the early cases and the
ones that presented themselves.

25
Step 3 Define and identify cases

The following information should be collected
from every affected person in an outbreak
1) Identifying information - name, address,
phone
2) Demographic information - e.g., age, sex,
race, occupation
3) Risk factor information
4) Clinical information
Verify the case definition has been met for every
case
Date of onset of clinical symptoms to create an
epidemic curve

26
Step 3 Define and identify cases

The first cases to be recognized are usually only
a small proportion of the total number
To identify other cases, use as many sources
possible
Passive Surveillance - Relies on routine
notifications by healthcare personnel (recall
Notifiable Diseases)
Active Surveillance - Involves regular outreach
to potential reporters to stimulate reporting of
specific conditions investigators are sent to
the afflicted area to collect more information
Contact physician offices, hospitals, schools to
find persons with similar symptoms or illnesses
Send out a letter, telephone or visit the
facilities to collect information

27
Step 4 Describe and orient the data in terms of
time, place and person

Characterizing an outbreak by time, place and
person is called descriptive epidemiology.
Descriptive epidemiology is important because
You can learn what information is reliable and
informative (e.g., similar exposures)
And what may not be as reliable (e.g., many
missing responses to a particular question)
Provides a comprehensive description of an
outbreak by showing its trend over time, its
geographic extent (place) and the populations
(people) affected by the disease

28
Step 4 Describe and orient the data in terms of
time

The time course of an epidemic is shown by the
distribution of the times of onset of the
disease, called the Epidemic Curve.
Graph of the number of cases of the health event
by their date of onset
Provides a simple visual display of the
magnitude and time trend of the outbreak
May stratify epidemic curves by place
(residence, work, school, etc.) or by personal
traits (age, gender, race, etc.) to assess
whether time of onset varies in relation to place
or person characteristics

29
Step 4 Describe and orient the data in terms of
place

Assessment of the outbreak by place provides
Information on the geographic extent of the
problem
A spot map indicating place of occurrence of
cases may show clusters or patterns that provide
clues to the nature and source of the outbreak
Patterns reflecting water supply, wind currents,
or proximity to a restaurant, swimming pool,
school room or workplace
If the size of overall population varies between
comparison areas, a spot map of the area may be
misleading because it only shows number of cases

30
Step 4 Describe and orient the data in terms of
person

Examine risks in subgroups of the affected
population according to personal characteristics,
as well as interaction between characteristics
- Age, race, sex, occupation, social group,
medical status
Characterizing an outbreak by person helps to
determine which subgroups of the population are
at risk

31
Examples of Epidemic Curves
32
Step 5 Develop hypotheses

Though we generate hypotheses from the beginning
of the outbreak, at this point, the hypotheses
are sharpened and more accurately focused.
Use existing knowledge (if any) on the disease,
or find analogies to diseases of known etiology
Hypotheses should address
Source of the agent
Mode of transmission
Exposures associated with disease
and should be proposed in a way that can be tested

33
Step 6 Evaluate hypotheses

Generally, after a hypothesis is formulated, one
should be able to show that
1) all additional cases, lab data, and
epidemiologic evidence are consistent with the
initial hypothesis and
2) no other hypothesis fits the data as well
Observations that add weight to validity
The greater the degree of exposure (or higher
dosage of the pathogen), the higher the incidence
of disease
Higher incidence of disease in the presence of
one risk factor relative to another factor

34
Attack Rates

An attack rate is the proportion of a
well-defined population that develops illness
over a limited period of time, such as during an
epidemic or outbreak
Useful for comparing the risk of disease in
groups with different exposures
Similar to a cumulative incidence
Often expressed as a percent
Formula
Attack Rate Number of new cases occurring in a
given time period
Population at risk at the start of the time
period
Number of people at risk who
develop a certain illness
Total number of people at risk
(Source Gordis L., Epidemiology)

35
Calculating an Attack Rate in a Foodborne
Outbreak

In a foodborne outbreak occurring among people
attending a social function or common
geographical site
Calculate an attack rate for people who ate a
particular item (exposed) and an attack rate for
those who did not eat the item (unexposed)
The attack rate is calculated by dividing the
number who became ill and consumed the item by
the total number of people who consumed that item

36
Identifying the Source of an Outbreak

Look for an item with
A high attack rate among those exposed AND
A low attack rate among those not exposed (so the
ratio of attack rates for the two groups is high)
Ideally, most of the people who became ill should
have been exposed to the proposed agent so that
the exposure could explain most, if not all, of
the cases.

37
Step 7 Refine hypotheses and carry out
additional studies

Additional epidemiologic studies
What questions remain unanswered about the
disease?
What kind of study used in a particular setting
would answer these questions?
When analytic studies do not confirm the
hypotheses
reconsider the original hypotheses
look for new vehicles or modes of transmission

38
Step 7 Refine hypotheses and carry out
additional studies

Laboratory and environmental studies
Epidemiologic studies can
Implicate the source of infection, and
Guide appropriate public health action
But sometimes laboratory evidence can clinch
the findings
Environmental studies often help explain why an
outbreak occurred and may be very important in
certain settings

39
Case-Control Methods Applied to a Foodborne
Outbreak

The usual approach is to apply the case-control
methodology to determine what exposures ill
people had that well people did not have
List all of the relevant items on the menu
Determine the proportions of ill and of non-ill
persons who ate each of the items by
questionnaire
Identify the food item with the largest
difference in attack rates between cases (ill)
and controls (non-ill)
Usually one food item stands out as showing the
greatest difference in proportion between cases
and controls.

40
Step 8 Implementing control and prevention
measures

The practical objectives of an epidemic
investigation are to
Stop the current epidemic, and
Establish measures that would prevent similar
outbreaks in the future.
Preliminary control measures should be done as
soon as possible!

41
Elements of Epidemic Control
The elements of epidemic control include 1.
Controlling the source of the pathogen (if
known) Remove or inactivate the pathogen 2.
Interrupting the transmission Sterilize
environmental source of spread vector
control 3. Controlling or modifying the host
response to exposure Immunize the
susceptibles use prophylactic
chemotherapy
42
Step 9 Communicate the findings

At the end of the investigation, communicate
findings to others who need to know
Prepare a final report
Provide information on the nature, spread, and
control measures employed
The report can take several forms
1) An oral briefing for local health authorities
2) A written report to a journal or the
Mortality and Morbidity Weekly Report (MMWR)
3) Formal presentation of recommendations (a
blueprint for action)

43
Foodborne Outbreaks
44
Recognizing Foodborne Illnesses

Patients with foodborne illnesses typically
present with GI tract symptoms (vomiting,
diarrhea, abdominal pain)
But nonspecific symptoms and neurologic symptoms
may also occur
Important clues in foodborne etiology
Incubation period (time between infection and
clinical illness)
Duration of the resultant illness
Predominant clinical symptoms
Population involved in the outbreak
Additional clues
Recent consumption of raw/poorly cooked foods,
unpasteurized milk or juices, home canned goods
Foreign travel, travel to coastal areas
Camping/hiking to areas where untreated water is
consumed
Visit to a farm
Occupation

45
Reporting Foodborne Illness

Foodborne disease reporting began over 50 years
ago
High morbidity and mortality caused by typhoid
fever and other childhood diarrheal diseases was
a concern
Intent of investigating and reporting these cases
was to obtain information about the role of food,
milk, and water in outbreaks of GI illness.
Early reporting efforts led to the enactment of
important public health measures (e.g.,
Pasteurized Milk Ordinance)
Led to a profound decrease in incidence of
foodborne illnesses

46
A Foodborne OutbreakOswego County, New York
(1940)

Over a period of a few hours, 46 people became
ill with gastrointestinal symptoms
All had attended a church supper the previous
evening
A physician in charge of investigating the
outbreak obtained a detailed history from all 75
people who attended the supper

From Centers for Disease Control (1976)
47
(No Transcript)
48
Food Specific Attack Rates among Persons
Attending the Supper