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Epidemiology 101: basic concepts

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Title: Epidemiology 101: basic concepts


1
Epidemiology 101 basic concepts
  • Dr Ike Anya
  • Specialist Registrar in Public Health Medicine,
  • Bristol Joint Directorate of Public Health UK and
    Visiting Lecturer London School of Hygiene and
    Tropical Medicine
  • ikeanya_at_doctors.org.uk

2
Learning objectives
  • To explore the definition of epidemiology
  • To introduce key concepts in epidemiology
  • To introduce the concepts of risk, risk
    measurement and standardization in epidemiology

3
What is epidemiology?
  • The study of epidemics?
  • The study of diseases?
  • The study of diseases of the skin?
  • Something scientists and academics use to confuse
    other people?

4
Definition of epidemiology
  • The study of the distribution and
  • determinants of health related states or events
    in specified populations and the application of
    this study to control health problems
  • - James Last
  • A Dictionary of
    Epidemiology

5
Unpacking that definition
  • Study Observing,recording,experimenting
  • Distribution Who, where, when
  • Determinants Why?
  • Health related states
  • Specified populations
  • Application

6
Epidemiology asks or uses
  • Person- Who?
  • Place- Where?
  • Time- When?
  • Helps us to understand Why?

7
Specified populations
  • How many people in this room are infected with
    the HIV virus?
  • How many people in Toronto are infected ?
  • How many people in Canada are infected?

8
Why is it important to specify the population
  • In order to be able to compare between two
    populations, we need to know what the defined
    population is
  • For example,if we say 50 people in this room have
    an infection compared with 100 people in the next
    room, does it mean that infections are less
    common in this room?

9
Numerators and denominators
  • (N/d)
  • Numerator the top half of the fraction
  • Denominator- the bottom number in the fraction

10
Numerators and denominators 2
  • There may be fewer people in this room than in
    the next room
  • Lets assume that there are 100 people in this
    room and 1000 people in the next room
  • So 50 people with infections out of 100 people in
    this room means half (50/100) of the people in
    this room have infections
  • 100 people with infections out of a 1000 in the
    next room means only a tenth (100/1000) of the
    next room have colds

11
Measuring disease frequency
  • There are 2 main measures used
  • Prevalence
  • Incidence

12
Prevalence and incidence
  • Prevalence - the number of people with a
    particular condition, habit at a specified time
    within a defined population eg prevalence of
    colds,smoking
  • Incidence - the number of NEW cases of a
    condition/habit in a defined population over a
    specified period of time

13
Distinguishing between incidence and prevalence
  • Prevalence includes both old and new cases and is
    usually expressed as a percentage
  • Incidence includes only NEW cases and is
    expressed as the number of cases per population
    per year
  • Time period and population must be specified

14
Prevalence
  • Prevalence of colds in this class
  • Number of cases (people with colds) 3
  • Population of class 30
  • Prevalence 3/30
  • Expressed as a percentage 3/30 X 100
  • 10

15
Incidence
  • Number of cases of newly diagnosed HIV
    infection in a city in 2003 is 900
  • Population of the city is 100 000
  • Incidence of HIV is 900 per 100 000 in 2003

16
Defining risk
  • Probability that an event will occur
  • Different from causation
  • Chance that if exposed to certain risk factors
    will develop condition

17
Risk and risk factors
  • Risk factors are factors that increase the
    probability that a disease will occur
  • Risk factors could be
  • environmental
  • behavioural/lifestyle
  • genetic

18
Differentiating between risk and causation
  • Risk is about probability or likelihood
  • Causation is about certainty
  • Identifying a risk may be the first step to
    understanding causation eg smoking and lung
    cancer

19
Types of risk
  • Absolute risk
  • Relative risk
  • Attributable risk

20
Measures of risk absolute risk
  • Number of cases in a defined population
  • Similar to incidence
  • If 100 people are infected with HIV in a town of
    1000 people, the absolute risk of HIV in the town
    is 100 per 1000
  • But the people in the town have different
    lifestyles, genes,living conditions which
    absolute risk does not take note of

21
Measures of risk relative risk
  • Going back to our example, we could divide the
    population of the town into injecting drug users
    (IDUs) and non-injecting drug users non-IDUs)
  • Count the number of cases of HIV in IDUs and
    count the number in non-IDUs
  • Relative risk (risk ratio) is the ratio between
    the two
  • I.e.Risk in the exposed /risk in the unexposed

22
Relative risk
  • In our example, there were 400 IDUs in the town,
    and 80 of them were diagnosed with HIV in the
    year of our study. The risk of HIV in IDUs was
    therefore 80/400 0.2
  • There were 20 diagnoses of HIV in the non-IDU
    population of 600, so the risk of HIV in non-IDUs
    was 20/600 0.033
  • The relative risk is therefore 0.2 divided by
    0.0336.06

23
What does the relative risk mean?
  • From the example, we obtained a relative risk of
    6.06
  • In simple terms it means that IDUs in the town in
    that year were 6.06 times more likely to be
    diagnosed with HIV than non-IDUs

24
Attributable risk
  • Difference between risk in the exposed and risk
    in the unexposed
  • Risk in exposed minus risk in unexposed
  • From our example the attributable risk for
    smokers in the town was
  • 0.2-0.0330.167

25
Rates
  • Rates are another means of expressing measurement
  • 3 broad types of rates commonly used in
    epidemiology
  • Crude rates
  • Specific rates
  • Standardized rates

26
Crude rates
  • Looking at the death records in Newtown which has
    a population of 100 000 we find that 500 people
    died in 2005
  • In neighbouring OldTown with the same population
    of 100 000, there were 800 deaths in 2005

27
Comparing crude rates
  • Newtown had a crude death rate of 500 per 100 000
  • Oldtown had a crude death rate of 800 per 100 000
  • Oldtown appears to have a higher death rate than
    Newtown, but do the crude rates tell the whole
    story?

28
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29
Delving deeper specific rates
  • Looking at the number of deaths in different age
    groups we get a different picture
  • The majority of deaths in Oldtown occurred in
    people over the age of 60
  • The majority of deaths in Newtown occurred in
    people under the age of 40

30
Specific rates
  • Specific rates give us more detail by looking at
    the occurrence of events in a subgroup of the
    population
  • In the example, we used age groups, but could
    have used gender, ethnicity,occupation,etc

31
Comparing rates - standardisation
  • Going back to the example, we know that there
    were different patterns in the deaths recorded in
    the two towns
  • But we may find it difficult to compare rates
    between the two towns
  • Why?

32
Why standardize ?
  • Perhaps Oldtown is a retirement town with many
    old people and few young people?
  • Perhaps Newtown has very few old people and is a
    barracks town consisting largely of soldiers
    going to Iraq?
  • To enable valid comparison, we need to be
    comparing like with like hence standardization

33
What are standardized rates?
  • Standardized rates are rates that take into
    account the structure of the population and
    adjust for differences in population structure
  • Rates can be age-standardized, sex-standardized,
    etc

34
Summary
  • Epidemiology uses person, time and place to study
    how illness and health are distributed in
    populations
  • In epidemiology, specifying populations and time
    periods is important
  • When interpreting epidemiology, always check that
    like is being compared with like
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