2. Contents
ďIntroduction
ďApproaches for studying
disease etiology
ďApproaches to etiology in
human population
ďAssociation and its types
ďTypes of causal pathways
ďTypes of causal
relationships
ďEvidence for a causal
relationship
ďGuidelines for judging
whether an association is
causal
ďConclusion
2
3. Introduction
⢠Epidemiology aims at promotion of health by discovering
the causes of diseases & ways to prevent and control.
⢠Ascertainment of cause-effect relationships is one of the
central and most difficult tasks of all scientific activities.
⢠Epidemiological principles stand on two basic assumptions:
1. Human disease does not occur at random.
3
4. Introduction contd..
2. The disease, its cause as well as preventive factors can
be identified by a thorough investigation of population.
⢠Hence, identification of causal relationship between a
disease and suspected risk factors forms part of
epidemiological research.
4
5. Approaches for studying disease etiology
⢠Expose animals to risk factors such as carcinogens - lab
ďźControl the exposure dose
ďźOther environmental conditions and genetic factors
ďźKeep loss to follow-up to a minimum
⢠Generalizability?
⢠Cell culture or organ culture- in vitro.
5
6. Approaches to etiology in human population
⢠Unplanned or natural
experiments
ďź People exposed to risk for
non-study purposes
ďź E.g. Exposure to atomic
bomb radiation in
Hiroshima and Nagasaki
1945
ďź Occupational cohorts in
specific industries
Clinical observation
Available data
Case control studies
Cohort studies
Randomized trials
6
7. Approaches to etiology in human population contd..
⢠Conceptually, a two step process is followed in carrying
out studies and evaluating evidence
ďź Determining association or correlation between an
exposure or characteristics and the risk of a disease
⢠If association exist â determine whether the observed
association is likely to be a causal one
7
8. Association
⢠An association is said to exist between two variables when a
change in one variable parallels or coincides with a change
in another. This is also called âcovariationâ or âcorrelationâ.
⢠Correlation indicates the degree of association between two
variables
8
11. Association contd..
⢠An association is said to be causal when it can be proved
that a change in the independent variable (exposure)
produces a change in the dependent variable (disease).
⢠A causal relationship - exposure enters into the causation of
disease.
⢠Causation implies association, but association does not imply
causation
11
13. Types of association contd..
⢠Real or spurious associations?
⢠McMahonâs study: observed association of coffee consumption
with risk of pancreatic cancer
Coffee Drinking
Pancreatic Cancer
Causal association
Coffee Drinking
Smoking
Pancreatic Cancer
Non-causal association (due
to confounding
13
14. ⢠Distinction of association due to causal relationship and due
confounding - really important - clinical and public health.
⢠If the relationship is causal - succeed â risk of pancreatic
cancer if we lower coffee drinking.
⢠But if its due to confounding, â risk of pancreatic cancer is
due to smoking. And changing the coffee drinking habit â no
effect.
Types of association contd..
14
16. Types of causal relationships
⢠Necessary and sufficient: Each factor is both necessary
and sufficient for producing the disease.
⢠Without that factor, the disease never develops(
necessary) and in the presence of that factor, the
disease always develops.( sufficient)
⢠E.g. HIV virus and AIDS
FACTOR A DISEASE
16
17. Types of causal relationships contd..
⢠Necessary but not sufficient
⢠Each factor is necessary but not, in itself, sufficient to cause
the disease .Thus, multiple factors are required, often in a
specific temporal sequence.
⢠E.g. Carcinogenesis- a multistage process involving both
initiation and promotion.
17
18. ⢠Sufficient but not necessary: The factor alone can produce
the disease, so can other factors - acting alone
⢠E.g. Either radiation or benzene exposure can each produce
leukemia without the presence of the other.
⢠However, cancer does not develop â everyone- experienced
radiation or benzene exposure. Thus, criterion of sufficient is
rarely met by a single factor.
Types of causal relationships contd..
18
19. ⢠Neither sufficient nor necessary:
⢠A factor by itself, is neither sufficient nor necessary to
produce disease
⢠More complex model, most accurately represents the
causal relationships that operate in most chronic diseases.
Types of causal relationships contd..
19
20. Evidence for a causal relationship
In 1840, Henle proposed postulates for causation - expanded by
Koch in the 1880s.
1. The organism is always found with the disease.
2. The organism is not found with any other disease.
3. The organism, isolated from one who has the disease, and
cultured through several generations, produces the disease (in
experimental animals).
20
21. ⢠Koch added that âEven when an infectious disease cannot
be transmitted to animals, âregularâ and âexclusiveâ
presence of the organism proves a causal relationship.â
⢠Postulates, though not perfect, useful - infectious diseases
⢠Noninfectious diseases increasing importance - 20th century,
⢠Strong evidence for non infectious diseases??
21
22. Guidelines for Judging Whether an Association
Is Causal- Bradford Hill (1964)
1. Temporal relationship
2. Strength of the association
3. Dose-response relationship
4. Replication of the findings
5. Biologic plausibility
6. Consideration of alternate explanations
7. Cessation of exposure
8. Consistency with other knowledge
9. Specificity of the association
22
23. Guidelines contd..
Temporal association
⢠Causal attribute must precede the disease
⢠E.g. Drinking contaminated water and occurrence of diarrhea
⢠Length of interval between exposure and disease â important
⢠E.g. Asbestos exposure takes 20 years to cause disease
23
24. Strength Of The Association
⢠Relationship between cause and disease - strong or weak.
⢠With â level of exposure to the risk factor an increase in
incidence of the disease is found.
⢠Strong associations - likely to be causal.
⢠Weaker associations - undetected bias, confounding
⢠But weaker association does not rule out causation.
Guidelines contd..
24
25. ⢠Strength of association can be estimated by relative risk,
odds ratio.
Relative Risk =
Incidence among Exposed
Incidence among Non Exposed
RR = 1 No association
RR > 1 Positive association
(possibly causal)
RR < 1 Negative association
(possibly protective)
ďź It is direct measure of the strength of association.
Guidelines contd..
25
27. ⢠Which cases odds ratio is an estimate of relative risk?
ďź The disease of interest should be a rare disease.
ďź The âcontrolsâ should be ârepresentativeâ of the same
total population that gave rise to the âcasesâ.
Guidelines contd..
27
28. ⢠As the dose of exposure â, the risk of disease also â
⢠If a dose-response relationship is present - strong evidence
for a causal relationship.
⢠However, absence of a dose-response relationship does not
necessarily rule out a causal relationship.
⢠Some cases in which a threshold may exist, no disease may
develop - a threshold; above this level â disease.
Dose-Response Relationship
Guidelines contd..
28
29. Replication of the findings
⢠If relationship is causal- it should be consistent in
different studies and in different populations, subgroups
as well, unless clear reason to expect different results.
Guidelines contd..
29
30. Biologic Plausibility Of The Association
⢠It refers to coherence with current body of basic knowledge.
⢠Sometimes the lack of plausibility may simply be due to the
lack of sufficient knowledge about the pathogenesis of a
disease.
30
Guidelines contd..
31. Consideration of Alternate Explanations
⢠Interprets an observed association - relationship is causal or is
the result of confounding.
⢠The extent to which the investigators have taken other
possible explanations into account and ruled out such
explanations are important considerations.
Guidelines contd..
31
32. Cessation of Exposure
⢠If a factor is a cause of a disease, we would expect the risk of
the disease to decline when exposure to the factor is reduced
or eliminated. Provide supporting evidence.
Guidelines contd..
32
33. Cessation of Exposure contd..
⢠In few cases, pathogenic process - irreversibly initiated and
disease occurrence determined by time the exposure is
removed. E.g. Emphysema not reversed by cessation of
smoking- progression is reduced.
33
34. Consistency with other knowledge
⢠If relationship is causal- findings should be consistent with
other data.
Guidelines contd..
34
35. Specificity of the association
⢠Certain exposure is associated with only one disease
⢠The weakest point of the guideline
⢠Provides additional support for a causal inference.
⢠Absence of specificity in no way negates a causal
relationship
Guidelines contd..
35
36. Deriving causal inferences: Example
⢠Till 1980âs major cause of peptic ulcer â life style related
disease and smoking.
⢠1984 â Marshall and Warren â observed small curved bacteria
in lower stomach of patients with gastritis and peptic ulcers.
⢠Bacteria- cultivated from several biopsies. Organism present in
almost all patients with gastric inflammation and peptic ulcer.
36
37. Assessment of the Evidence Suggesting Helicobacter
pylori as a Causative Agent of Duodenal Ulcers
1. Temporal relationship.
⢠About 11% of chronic gastritis patients â duodenal ulcers
over a 10-year period.
2. Strength of the relationship.
⢠H.pylori found - 90% of patients with duodenal ulcer.
3. Dose-response relationship.
⢠Density of H. pylori per mm² of gastric mucosa - higher in
duodenal ulcer patients.
37
38. Assessment of the Evidence contd..
4. Replication of the findings
⢠Many of the observations â H. pylori - replicated
repeatedly.
5. Consideration of alternate explanations.
⢠Smoking â risk of duodenal ulcer â H. pylori infected
patients but not a risk factor â H.pylori eradicated patients
38
39. 6. Biologic plausibility.
⢠Earlier - difficult to envision bacterium infecting the
stomach antrum causing ulcers in the duodenum, now
recognized â H. pylori - binding sites on antral cells.
⢠Induces mediators of inflammation.
⢠Infected mucosa â weakened, susceptible to damaging
effects of acid.
Assessment of the Evidence contd..
39
40. 7. Cessation of exposure.
⢠Eradication - heals duodenal ulcers at the same rate as
histamine receptor antagonists.
⢠Long-term ulcer recurrence rates - zero after H.pylori was
eradicated using triple-antimicrobial therapy,.
Assessment of the Evidence contd..
40
41. 8. Specificity of the association.
⢠Prevalence of H.pylori in duodenal ulcers patients - 90%
to 100%.
9. Consistency with other knowledge.
⢠High prevalence of ulcer disease in latter part of 19th
century, consistent with high prevalence of H pylori due to
poor living conditions at the same period.
Assessment of the Evidence contd..
41
42. Conclusion
⢠Apart from outbreak investigations, no single study is capable
of establishing a causal relation.
⢠Results from epidemiological studies are often used as inputs.
⢠It is thus important for public health and policy makers to
understand the fundamentals of causal inference.
⢠Those decisions should be based on a careful consideration of
the entire relevant scientific literature
46
43. References
⢠Gordis L. Textbook of Epidemiology, 3rd Edition, Elsevier
⢠WHO research methodology. Second edition.
⢠Park K, Textbook of Preventive and Social medicine, 23rd
edition,
⢠R. Beaglehole & Bonita, Basic Epidemiology, 4th edition
⢠AFMC WHO â Text book of Public Health and Community
Medicine â Rajvir Balwar â 1st edition
47
44. ⢠Raj Bhopal : Cause and effect: the epidemiological approach
⢠Boffetta P. Causation in the Presence of Weak Associations.
Crit Rev Food Sci Nutr. 2010 Dec; 50(s1)
⢠Parascandola M, Weed DL. Causation in epidemiology. J
Epidemiol Community Health 2001;55:905â12.
48
In view of these limitations, if one wants to draw conclusions as to whether a substance causes disease in human beings, we need to make observations in human population.
Each of these exposed groups can be compared to a non exposed group to determine whetehr there is an increased risk of certain adverse effect in exposed persons. Surgeon alton oschner was the first to suggest a possible causal relationship. He observed that virtually every pt on whom he operated for lung cancer, gave history of smoking. If this had been explored further, smoking may be associated with lung cancer- case control study would have been performed to compare the smoking histories of lung cancer patients and non lung cancer patients. If the exposure is a suspect, then a cohort study should be performed comparing smokers and non-smokers and comparing the rate of lung cancer in each group.. RCT is only for potentially benifical interventions.
More appropriately
Cigarette smoking was known to be associated with pancreatic cancer and coffee drinking and cigarette smoking are closely associated. So is the observed association likely to be causal or due to the fact that coffee and smoking are associated and smoking is a known risk factor for pancreas?
In direct, factor directly causes disease without intermediary steps. E.g haemoglobin s trait causing sickle cell disease
And in indirect causation, a factor causes a disease but through intermediary steps. Its basically multifactorial. For. Eg increased snacking in between meals, poor oral hygiene, bacterial colonizatio leading to dental caries
A promoter must act after an initiator has acted. Action of an initiator or a promoter alone will not produce a cancer
, so although both factors are not needed, other cofactors probably are.
Lifestyle related diseases like hypertension, and heart diseases etc.
In such diseases there was no organism that could be cultured or grown in animals. Attention was on possible relationship between smoking and lung cancer. U.S. surgeon generl appointed a committee to review the evidence. Later sir Austin Bradford hill gave a list of guidelines for judging whether an observed association is causal. It first appeared in the report on smoking and health.
Chronic cases, because of insidious onset and ignorance of precise induction period, it become hard to establish a temporal sequence as which comes first -the suspected agent or disease.
Temporal sequence is the relationship with time.
Greggâs observations on rubella and congenital cataract preceded any knowledge of teratogenic viruses.. Still consistemcy is required for interpreting the meaning of observed association.
Data regarding lung cancer rates in men and women and cigarette sale in men and women.
Parallel trends between cigratte consumption and lung cancer in men and in women. These data are consistent with what we would expect a causal relationship between smoking and lung cancer.
Until the 1980s, the major causes of peptic ulcer disease were considered to be stress and lifestyle factors, including smoking
In 1984, Australian physicians Drs. Barry J. Marshall and J. Robin Warren reported that they had observed small curved bacteria colonizing the lower part of the stomach in patients with gastritis and peptic ulcers
After several attempts, Marshall succeeded in cultivating a hitherto unknown bacterial species (later named Helicobacter pylori) from several of these biopsies
Together they found that the organism was present in almost all patients with gastric inflammation or peptic ulcer
Many of these patients had biopsies performed which showed evidence of inflammation present in the gastric mucosa close to where the bacteria were seen
Based on these results, they proposed that Helicobacter pylori is involved in the etiology of these diseases. It was subsequently shown that the ulcer was often not cured until Helicobacter pylori had been eliminated.
Helicobacter pylori is clearly linked to chronic gastritis.
Originally it was difficult to envision a bacterium that infects the stomach antrum causing ulcers in the duodenum, but is now recognized that Helicobacter pylori has binding sites on antral cells and can follow these cells into the duodenum. Â Â
The prevalence of ulcer disease is believed to have peaked in the latter part of the 19th century, and the prevalence of Helicobacter pylori may have been much higher at that time because of poor living conditions.
High prevalence of ulcer disease in latter part of 19th century, consistent with high prevalence of H pylori due to poor living conditions at the same period.
An intervention can be considered
A biologically plausible mechanism should be able to