Epidemiology Lecture 1 Introduction PDF

Summary

This lecture introduces epidemiology, tracing its origins to Hippocrates. It outlines course contents and key concepts including the definition and scope of epidemiology. The lecture discusses disease causation, natural history, and the importance of epidemiology in understanding and improving population health. Smallpox is used as a historical example.

Full Transcript

Epidemiology
Dr. Asma Sayedali
BDS UofK
MD SMSB
Course contents
1-Introduction to epidemiology.
2-Measuring health and disease.
3-Causation in epidemiology.
4-Epidemiology and prevention: chronic non-communicable diseases.
5-Communicable diseases: epidemiology surveillance and response.
6-Clinical epidemiology.
7-Environmental and occupational epidemiology.
8-Epidemiology, health policy and planning.
What is epidemiology?
Epidemiology originates from Hippocrates’ observation more
than 2000 years ago that environmental factors influence the
occurrence of disease.
However, it was not until the nineteenth century that the
distribution of disease in specific human population groups
was measured to any large extent. This work marked not
only the formal beginnings of epidemiology but also some of
its most spectacular achievements. The finding by John Snow
that the risk of cholera in London was related to the drinking of
water supplied by a particular company provides a well-known
example.
Definition
“the study of the distribution and determinants of
health-related states or events in specified
populations, and the application of this study to the
prevention and control of health problems”.
Epidemiologists are concerned not only with death,
illness and disability, but also with more positive
health states and, most importantly, with the means
to improve health. The term “disease” encompasses
all un favorable health changes, including injuries and
mental health.
Scope
focus of an epidemiological study is the
population defined in geographical or other terms;
for example, a specific group of hospital patients
or factory workers could be the unit of study.
Early studies in epidemiology were concerned with the
causes(etiology) of communicable diseases, and such work
continues to be essential since it can lead to the identification
of preventive methods. In this sense, epidemiology is a basic
medical science with the goal of improving the health of
populations, and especially the health of the disadvantaged.
Causation of disease
Although some diseases are caused solely by genetic
factors, most result from an interaction between genetic and
environmental factors. Diabetes, for example, has both genetic
and environmental components.
Personal behaviors affect this interplay, and epidemiology is
used to study their influence and the effects of preventive
interventions through health promotion.
Natural history of disease
Health status of populations
Epidemiology is often used to describe the
health status of population groups. Knowledge of
the disease burden in populations is essential for
health authorities, who seek to use limited
resources to the best possible effect by identifying
priority health programs for prevention and care. In
some specialist areas, such as environmental and
occupational epidemiology, the emphasis is on
studies of populations with particular types of
environmental exposure.
Achievements in epidemiology
Smallpox
The elimination of smallpox contributed greatly to the
health and wellbeing of millions of people, particularly in
many of the poorest populations. Smallpox illustrates both
the achievements and frustrations of modern public health.
In the 1790s it was shown that cowpox infection conferred
protection against the smallpox virus, yet it took almost
200 years for the benefits of this discovery to be accepted
and applied throughout the world.
An intensive campaign to eliminate smallpox was
coordinated over many years by the World Health
Organization (WHO).
An understanding of the epidemiology of smallpox was central
to its eradication, in particular, by:
providing information about the distribution of cases and the
model, mechanisms and levels of transmission.
mapping outbreaks of the disease.
evaluating control measures.
The fact that there was no animal host was of critical
importance together with the low average number of secondary
cases infected by a primary case.
When a ten-year eradication program was proposed by
WHO in 1967, 10–15 million new cases and 2million deaths
were occurring annually in 31 countries. The number of
countries reporting cases decreased rapidly in the period
1967–76; by 1976 smallpox was reported from only two
countries, and the last naturally-occurring case of smallpox was
reported in 1977 in a woman who had been exposed to the
virus in a laboratory.
Smallpox was declared to be eradicated on 8 May 1980.
Several factors contributed to the success of the program:
universal political commitment.
a definite goal, a precise timetable, well-trained staff and a flexible
strategy.
Furthermore, the disease had many features that made its elimination
possible and an effective heat-stable vaccine was available.
In 1979, WHO maintained a stockpile of smallpox vaccines sufficient
to vaccinate 200 million people. This stockpile was subsequently
reduced to 2.5 million doses, but given renewed concern about
smallpox being used as a biological weapon, WHO continues to
maintain and ensure adequate vaccine stocks.
Epidemiological methods were used to establish the following
features of smallpox:
there are no non-human hosts.
there are no subclinical carriers.
recovered patients are immune and cannot transmit the infection,
naturally-occurring smallpox does not spread as rapidly as other
infectious diseases such as measles or pertussis.
transmission is generally via long-lasting human-to-human contact.
most patients are bedridden when they become infectious, which
limits transmission.
Thanks