BSc Medical Sciences: Epidemiology PDF

Summary

This document covers disease surveillance and measures of morbidity, including incidence rates, cumulative incidence, attack rates, prevalence, and case fatality rate. The document also introduces active and passive surveillance methods and spot maps. It's for BSc Medical Sciences students.

Full Transcript

BSc Medical Sciences: Epidemiology
Assistant Prof. Dr. Soza Th. Baban
Learning objectives
By the end of this session, students should be able to:
1. To compare different measures of morbidity, including incidence
rates, cumulative incidence, attack rates, prevalence, and disease
surveillance.
2. Understand and calculate the case fatality rate (CFR) and explain its
importance in assessing disease outbreaks.
3. Interpret and analyse spot maps to identify disease patterns.
4. Apply epidemiological measures to real-world scenarios, including
outbreak investigations.
5. Describe disease surveillance in human populations and its
importance in providing information about morbidity from disease.
6. Understand challenges in calculating these rates and their
importance in public health.
Let’s go through each of these points in detail!
Introduction and Review
In Week 2, we discussed:

How diseases are transmitted in populations.
Define and distinguish between Endemic, Epidemic, and Pandermic and
apply to real-world case senarios.
Today, we will move forward by learning how to measure the impact of
diseases in populations using core epidemiological measures like incidence
and prevalence rates and disease surveillance.
We'll also use these concepts to solve public health problems, much like real
epidemiologists do.
 What Is Epidemiologic Surveillance?
The Centers for Disease Control and Prevention (CDC) defined
epidemiologic surveillance as the “ongoing systematic collection,
analysis, and interpretation of health data essential to the
planning, implementation, and evaluation of public health practice
closely integrated with the timely dissemination of these data to
those who need to know (policy makers, Health officials etc.).”
 Epidemiologic Surveillance

Surveillance may be carried out to monitor changes in disease
frequency or to monitor changes in the levels of risks for specific
diseases.
Disease surveillance programs provide most of our data on disease
morbidity and mortality.
Surveillance, once focused mainly on infectious diseases, now also
monitors congenital malformations, noncommunicable diseases,
environmental toxins, and health impacts from natural disasters.
 Epidemiologic Surveillance

Surveillance is also used to monitor for completeness of
vaccination coverage and protection of a population and for the
prevalence of drug-resistant organisms such as drug-resistant
tuberculosis (TB) and malaria.

Surveillance provides policy makers with guidance for developing
and implementing the best strategies for programs for disease
prevention and control.
 PASSIVE AND ACTIVE SURVEILLANCE

Passive surveillance is a public health data collection method in
which available data on reportable diseases are used, or in which
disease reporting is mandated or requested by the government or
the local health authority, with the responsibility for the reporting
often falling on the health care provider or district health officer.
 Passive surveillance

Passive surveillance is the most common type of surveillance and relies
on the clinicians, laboratory staff or other related sources to either take
the initiative or comply with mandatory rules to report data to public
health authorities.
This type of surveillance is able to more easily detect and report
clinically sick individuals or outbreaks to be noticed.
In practical terms, within veterinary public health, passive surveillance is
useful for diseases that almost always produce clear clinical signs, such
as foot-and-mouth disease in cows.
Concomitantly, passive surveillance can be affected by under-reporting,
for reasons that span from unreported asymptomatic cases or untested
samples from clinically suspicions events.
 Active surveillance

An active surveillance system is a system that relies on the public
health authorities' initiative to contact physicians, laboratory or
hospital staff or other relevant sources to report data.
Active surveillance denotes a system in which project staff are
specifically recruited to carry out a surveillance program. They are
recruited to make periodic field visits to health care facilities such
as clinics, primary health care centers, and hospitals in order to
identify new cases of a disease or diseases or deaths from the
disease that have occurred (case finding).
 Active surveillance

An active surveillance system is a system that relies on the public
health authorities' initiative to contact physicians, laboratory or
hospital staff or other relevant sources to report data.
Active surveillance denotes a system in which project staff are
specifically recruited to carry out a surveillance program. They are
recruited to make periodic field visits to health care facilities such
as clinics, primary health care centers, and hospitals in order to
identify new cases of a disease or diseases or deaths from the
disease that have occurred (case finding).
Homework Assignment:
Active vs. Passive Surveillance

Explore the advantages and disadvantages of
active and passive surveillance in public health.
 Measures of Morbidity
Incidence rate
The incidence rate of a disease is defined as the number of new
cases of a disease that occur during a specified period of time in a
population at risk for developing the disease.
Incidence rate per 1,000 persons =
No of NEW cases of a disease
occurring in the population
during a specified period of time
×1,000
No. of persons who are at risk
of developing the disease
during that period of time
 Measures of Morbidity
Incidence rate

The incidence rate tells us how quickly a disease is spreading.

Example: If 50 people develop a flu in a population of 1,000 over
one year, the incidence rate is:
Incidence Rate = (50/1000) x 100 = 5% per year.
 Measures of Morbidity
Incidence rate

The incidence rate is a measure of risk.
This risk can be looked at in any population group, such as a
particular age group, among males or females, in an occupational
group, or a group that has been exposed to a certain environmental
agent, such as radiation or a chemical toxin.
 Measures of Morbidity
Incidence rate

The incidence rate is a measure of risk.
This risk can be looked at in any population group, such as a particular age
group, among males or females, in an occupational group, or a group that
has been exposed to a certain environmental agent, such as radiation or a
chemical toxin.
The incidence is calculated using a period of time during which all of the
individuals in the population are considered to be at risk for the outcome,
also called the cumulative incidence proportion, which is a measure of
risk.
 Measures of Morbidity
Prevalence rate

Prevalence rate refers to the total number of cases (new and
existing) of a disease in a population at a specific time.

It shows the overall burden of a disease on a population.

Example: If there are 200 people with flu in a town of
1,000 people, the prevalence rate is:
Prevalence Rate = (200/1000) x 100 = 20%.
 Measures of Morbidity
Prevalence rate

Prevalence is defined as the number of affected persons present
in the population at a specific time divided by the number of
persons in the population at that time; that is, what proportion of
the population is affected by the disease at that time?
No of cases (old and new) of a disease
present in the population at a specific time
×1,000
No. of persons in the population
at that specified time
 Measures of Morbidity
Prevalence rate

For example, if we are interested in knowing the prevalence of
arthritis in a certain community on a certain date, we might visit
every household in that community and, using interviews or
physical examinations, determine how many people have arthritis
on that day.
This number becomes the numerator for prevalence.
The denominator is the population in the community on that
date.
What is the difference between incidence and prevalence?

For example, if we are interested in knowing the prevalence of
arthritis in a certain community on a certain date, we might visit
every household in that community and, using interviews or
physical examinations, determine how many people have arthritis
on that day.
This number becomes the numerator for prevalence.
The denominator is the population in the community on that
date.
 Types of Prevalence

Point prevalence: Prevalence of the disease at a certain point in
time.

Period prevalence: How many people have had the disease at any
point during a certain time period? The time period referred to
may be arbitrarily selected, such as a month, a single calendar
year, or a 5-year period. Some people may have developed the
disease during that period, and others may have had the disease
before and died or been cured during that period.
 Types of Prevalence

Examples of Point and Period Prevalence and Cumulative
Incidence in Interview Studies of Asthma:
 Example of incidence and prevalence
Calculating incidence rate
This figure shows five cases of a disease in a community in 2017.

1st case : occurred in 2016, and the patient died in 2017.
2nd case: developed in 2017 and continued into 2018.
3rd case: was a person who became ill in 2017 and was
cured in 2017.
4th case: occurred in 2016, and the patient was cured in
2017.
5th case: occurred in 2016 and continued through 2017 and
into 2018.

What is the numerator for incidence in 2017?
We know that incidence counts only new cases, and because
two of the five cases developed in 2017, the numerator for
incidence in 2017 is 2.
 Calculating Point Prevalence in 2017
This figure shows five cases of a disease in a community in 2017.
1st case : occurred in 2016, and the patient died in 2017.
2nd case: developed in 2017 and continued into 2018.
3rd case: was a person who became ill in 2017 and was cured in 2017.
4th case: occurred in 2016, and the patient was cured in 2017.
5th case: occurred in 2016 and continued through 2017 and into 2018.

What is the numerator for POINT PREVALENCE in 2017?
This depends on when we do our prevalence survey.
If we do the survey in May, the numerator will be 5.
If we do the survey in July, the numerator will be 4.
If we do the survey in September, however, the numerator will be 3
If we do it in December, the numerator will be 2.
Thus, the prevalence will depend on the point during the year at which the survey is performed.
 Attack Rate
Attack rate is a special type of incidence rate used for outbreaks.
It shows the proportion of people who become ill after being exposed to
the disease.
Formula: Attack Rate = (Number of Ill People / Number of Exposed
People) x 100
Example: If 30 out of 100 people exposed to contaminated food get sick,
the attack rate is:
Number of people at risk in
Attack Rate = (30/100) x 100 = 30%. whom a certain illness develops
×100
Total number of people at risk
 Attack Rate
Attack rate is a special type of incidence rate used for outbreaks.
It shows the proportion of people who become ill after being exposed to
the disease.
Formula: Attack Rate = (Number of Ill People / Number of Exposed
People) x 100
Example: If 30 out of 100 people exposed to contaminated food get sick,
the attack rate is:
Number of people at risk in
Attack Rate = (30/100) x 100 = 30%. whom a certain illness develops
×100
Total number of people at risk
 Spot Maps: Visualizing Disease Spread
Spot maps are visual tools used to display the locations of disease cases.
They help identify patterns of spread and the possible sources of outbreaks.
Historical Example: John Snow’s famous cholera map in 1854.
Spot maps continue to be valuable in modern epidemiology, especially during
pandemics like COVID-19.
Example:
Imagine you are tracking cases of a flu outbreak in a city. You collect addresses of
all reported cases and plot them on a city map. You notice a cluster of cases in one
neighborhood, indicating a possible hotspot for the outbreak.
Spot Maps: Visualizing Disease Spread
 Case Fatality Rate (CFR)
CFR measures the severity of a disease by calculating the
percentage of people who die from it.
What percentage of people who have a certain disease die within a certain
time after their disease was diagnosed?
It is useful for understanding how deadly an outbreak is.
Formula: CFR =(Number of Deaths /Number of Confirmed Cases x100
Example: If there are 10 deaths out of 200 confirmed cases of a
disease, the CFR is:
Number of individuals dying during a specified
CFR = (10/200) x 100 = 5%. period of time after disease onset or diagnosis
×100
No. of individuals with the specified disease
 Recap and Q&A
Let’s review:
Incidence Rate: Measures new cases.
Prevalence Rate: Measures all cases.
Attack Rate: Measures the proportion of exposed people who get
sick.
CFR: Measures the percentage of cases that result in death.
Spot Maps: Visual tools to track disease spread.

Any questions before we move on to the next topic?
Preparation for Next Session

For next session, please:
1. Read Chapter 4 (Pages 65-93) from 'Gordis Epidemiology'.
2. Review Chapter 3 (Pages 62-70) from 'Parks Textbook of
Preventive & Social Medicine'.
3. Research examples of mortality measures in different public
health contexts.
4. Be prepared to discuss how these measures are used to evaluate
population health outcomes.