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THREE CONCEPTS ABOUT THE RELATIONSHIPS OF VARIABLES IN RESEARCH

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Title: THREE CONCEPTS ABOUT THE RELATIONSHIPS OF VARIABLES IN RESEARCH


1
THREE CONCEPTS ABOUT THE RELATIONSHIPS OF
VARIABLES IN RESEARCH
  • CONFOUNDING
  • MEDIATION
  • EFFECT MODIFICATION, INTERACTION OR MODERATION

2
THINKING ABOUT THE WAYS IN WHICH VARIABLES MAY BE
RELATED ILLUMINATES BIAS AND CONFOUNDING
3
ILLUSTRATION OF CONFOUNDING
  • Diabetes is associated with hypertension.
  • Does diabetes cause hypertension?
  • Does hypertension causes diabetes?
  •  
  • Or is it possible that diabetes and hypertension
    share a common antecedent?
  •  

4
  • Thus while an exposure may cause a disease,
    another way in which exposure and disease may be
    related is if both variables are caused by FACTOR
    X. For hypertension and diabetes, Factor X might
    be obesity
  •  
  • X A (hypertension)
  • (obesity)
  • B (diabetes)
  •  

5
  • If we had concluded that diabetes caused
    hypertension, whereas, in fact, they had no true
    causal relationship, we would say that
  •  THE RELATIONSHIP BETWEEN HYPERTENSION AND
    DIABETES IS CONFOUNDED BY OBESITY. OBESITY WOULD
    BE TERMED A CONFOUNDING VARIABLE IN THIS
    RELATIONSHIP.
  •  
  • Another important truism
  • CONFOUNDERS ARE TRUE CAUSES OF DISEASE, WHEREAS
    BIASES ARE ARTEFACTS

6
MEDIATION AND CONFOUNDING
  • Not every factor that is associated with both the
    exposure and the disease is a confounding
    variable. Such a factor could be a MEDIATING
    VARIABLE.
  •  
  • A mediator is also associated with both the
    independent and dependent variables, but is part
    of the causal chain between the independent and
    dependent variables.

7
  • FAILURE TO DISTINGUISH A CONFOUNDER FROM A
    MEDIATOR IS ONE OF THE COMMONEST ERRORS IN
    EPIDEMIOLOGY.  THESE TWO KINDS OF VARIABLES
    CANNOT BE DISTINGUISHED ON STATISTICAL GROUNDS.
    THEY CAN ONLY BE SEPARATED FROM EACH OTHER BASED
    ON AN UNDERSTANDING OF THE TOTAL DISEASE PROCESS.
  •  To make this distinction clear, lets see how we
    set about to CONTROL FOR confounding in
    epidemiological research.

8
APPROPRIATE CONTROL FOR CONFOUNDING
  • HYPOTHESIS There is an association between an
    exposure (coffee drinking) and a disease
    (myocardial infarction), but we wonder whether
    cigarette smoking could be a confounder of this
    relationship.

9
  • STEP 1. IS THERE AN ASSOCIATION?
  • Heavy coffee drinking is statistically associated
    with higher rates of myocardial infarction. Is
    coffee then a cause of myocardial infarction?
  •  
  • STEP 2. IDENTIFY POTENTIAL CONFOUNDERS
  • Could cigarette smoking be a confounder?
  •  
  • STEP 3. IS THE POTENTIAL CONFOUNDER ASSOCIATED
    WITH THE EXPOSURE?
  • Heavy coffee drinking is associated with higher
    rates of smoking. Smoking fulfills one criterion
    for potential confounding.

10
  • STEP 4. IS THE POTENTIAL CONFOUNDER ASSOCIATED
    WITH THE DISEASE OF INTEREST?
  • Smoking is associated with higher rates of
    myocardial infarction. Smoking fulfills the
    second criterion for potential confounding.
  •  
  • STEP 5. WHAT HAPPENS WHEN WE CONTROL FOR
    CIGARETTE SMOKING?
  • Adjustment for cigarette smoking eliminates the
    association of heavy coffee drinking and
    myocardial infarction. The association is
    explained by the fact that more coffee drinkers
    are also smokers

11
CONCLUSION COFFEE DRINKING IS NOT A CAUSE OF
MYOCARDIAL INFARCTION
12
INAPPROPRIATE CONTROL FOR CONFOUNDING
  • HYPOTHESIS There is an association between an
    exposure (obesity) and a disease (myocardial
    infarction), but we wonder whether cholesterol
    level could be a confounder of this relationship.

13
  • STEP 1. IS THERE AN ASSOCIATION?  
  • Obesity is statistically associated with higher
    rates of myocardial infarction. Is obesity then a
    cause of myocardial infarction?
  •  
  • STEP 2. IDENTIFY POTENTIAL CONFOUNDERS
  • Could cholesterol level be a confounder?
  •  
  • STEP 3. IS THE POTENTIAL CONFOUNDER ASSOCIATED
    WITH THE EXPOSURE?
  • Obesity and cholesterol level are associated.

14
  • STEP 4. IS THE POTENTIAL CONFOUNDER ASSOCIATED
    WITH THE DISEASE OF INTEREST?
  • Cholesterol level is associated with higher rates
    of myocardial infarction.
  • STEP 5. WHAT HAPPENS WHEN WE CONTROL FOR
    CHOLESTEROL LEVEL?
  • Adjustment for cholesterol eliminates the
    association of obesity and myocardial infarction.

15
CONCLUSION WE SHOULD NOT CONCLUDE THAT OBESITY
IS NOT A REAL CAUSE OF MYOCARDIAL INFARCTION,
BECAUSE CHOLESTEROL LEVEL MAY BE PART OF THE
PATHWAY FROM OBESITY TO MYOCARDIAL INFARCTION.
CONTROLLING FOR A PART OF THE CAUSAL PATHWAY IS
OVER-CONTROL.
16
SUMMARY OF HOW A THIRD VARIABLE CAN RELATE TO TWO
OTHER VARIABLES(EXPOSURE AND DISEASE)
  • A. IT CAN BE A CONFOUNDING VARIABLE
  •  
  • CONFOUNDER
  •  
  • EXPOSURE DISEASE

17
  • B. IT CAN BE A MEDIATING VARIABLE (SYNONYM
    INTERVENING VARIABLE)
  •  
  •  
  • EXPOSURE MEDIATOR DISEASE
  •  
  •  
  • AN EXPOSURE THAT PRECEDES A MEDIATOR IN A CAUSAL
    CHAIN IS CALLED AN ANTECEDENT VARIABLE.

18
  • Example
  •  
  • African-American babies are smaller than white
    babies. Smaller babies have higher mortality.
    Controlling for birth weight reduces or
    eliminates the differences between the ethnic
    groups in infant mortality. Does this mean that
    Ethnicity is not important in infant mortality?
    No, because birth weight is part of the causal
    pathway from ethnicity to infant mortality. It is
    a mediator.

19
  • C. IT CAN BE A MODERATOR VARIABLE (SYNONYMS
    INTERACTING OR EFFECT-MODIFYING VARIABLE)
  •  
  • MODERATOR
  •  
  • EXPOSURE DISEASE
  •  
  •  A moderator variable is one that moderates or
    modifies the way in which the exposure and the
    disease are related. When an exposure has
    different effects on disease at different values
    of a variable, that variable is called a
    modifier.

20
  • Examples
  •  
  • Aspirin protects against heart attacks, but
    only in men and not in women. We say then that
    gender moderates the relationship between aspirin
    and heart attacks, because the effect is
    different in the different sexes. We can also
    say that there is an interaction between sex and
    aspirin in the effect of aspirin on heart
    disease. 
  • In individuals with high cholesterol levels,
    smoking produces a higher relative risk of heart
    disease than it does in individuals with low
    cholesterol levels. Smoking interacts with
    cholesterol in its effects on heart disease.

21
AN EXAMPLE OF INTERACTION OR EFFECT MODIFICATION
  • A study finds that there is no relationship,
    in infants lt 2,000g at birth, between multiple
    birth status (i.e. being a singleton or a twin)
    and the risk of mortality (Paneth et al, American
    J of Epidemiology, 1982116364-375).

22
  • ODDS RATIO FOR MORTALITY IN SINGLETONS (COMPARED
    TO TWINS)
  •  
  • UNADJUSTED 1.06
  • ADJUSTED FOR BIRTHWEIGHT 1.02
  •  
  • However, this odds ratio conceals interesting
    information. It turns out that there is indeed a
    relationship between plurality and mortality, in
    the following way

23
  • BIRTHWEIGHT ODDS FOR MORTALITY
  • IN SINGLETONS
  • 501-750G 0.58
  • 751-1000G 0.65
  • 1001-1250G 0.91
  • 1251-1500G 1.09
  • 1501-1750G 2.45
  • 1751-2000G 1.94

24
  • Clearly, under 1250g mortality is lower in
    singletons, above 1250g it is higher in
    singletons. These effects in opposite directions
    canceled each other out. This reversal of RRs
    is unusual - usually interaction accentuates a
    relative risk that is present at all values.
  • The test for interaction is that the ODDS RATIO
    (or other measure of association) changes
    substantially according to different values of a
    third variable.

25
HOW RANDOM MISCLASSIFICATION CAN SOMETIMES
PRODUCE A TYPE 1 ERROR
  • 1. RANDOM MISCLASSIFICATION OF A CONFOUNDER
  •  
  • If a confounding variable is randomly
    misclassified, and then the exposure-disease
    relationship is stratified (or controlled) for
    this confounder, a spurious association can be
    produced. This usually requires that the
    confounding variable be very strongly related to
    the exposure.

26
  • Example Cigarette smoking and coffee drinking
    are associated. Since more coffee drinkers are
    smokers, more coffee drinkers recorded as
    non-smokers are really smokers than are
    non-coffee drinkers recorded as non-smokers. As
    a result, coffee drinkers can be found in some
    studies to have higher rates of lung cancer, even
    after smoking is controlled.

27
  • 2. RANDOM MISCLASSIFICATION ALONG AN EXPOSURE
    GRADIENT 
  • If an exposure has a strong association with
    disease only above a certain threshold, random
    misclassification of that exposure is likely to
    produce a dose-response relationship. (Although
    this phenomenon surely occurs, I have never seen
    a clear demonstration of it in epidemiology.) 
  • If cigarette smoking only produced lung cancer in
    two-pack a day smokers, the data would likely
    show some effect in one-pack a day smokers,
    because more of the two-pack a day smokers are
    likely to be misclassified as one-pack a day
    smokers than as non-smokers.

28
CHECKLIST FOR BIAS AND CONFOUNDING
  • Choice and framing of study question
  • Choice of study population source
  • Participation of study population
  • Baseline assessments of participants
  • Subsequent assessments of data from or about
    participants
  • Exposure data
  • Outcome data
  • Analysis of data
  • Publication of data
  • Adapted from Bhopal, 2002, p. 73
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