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Epidemiology Kept Simple
Chapter 5:
Introduction to Study Design
Chapter 5 Intro to Epi Study DesignIntro to Epi Study Design
5.1 Introduction to Etiologic Research5.2 Ethical Conduct of Studies in
Human Subjects5.3 Selected Elements of Study Design 5.4 Common Types of Epidemiologic
Studies
Main types of epidemiologic studies
Observational Studies
Experimental Studies [Chapter 6]
Aggregate-level unit of observation
Person-level unit of observation
Cross-Sectional [Chapter 5]
Longitudinal
Community trials
Ecological [Chapter 4]
Field trials
Clinical trials
Cohort [Chapter 7]
Case-Control [Chapter 8]
We aim to understand the concepts behind this study design taxonomy
Before considering epi study design further, let us consider epidemiologic hypotheses
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Epi Hypotheses1.1. Studies must address Studies must address
clearly defined research clearly defined research hypotheses (“research hypotheses (“research questions”)questions”)
2.2. Hypotheses must based Hypotheses must based on sound causal on sound causal mechanisms in specific mechanisms in specific terms that can be testedterms that can be tested
3. Hypotheses are refinement as new information becomes available
Hypotheses are like nets; only he who casts will catch. -- Novalis
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Selected elements of an epi Selected elements of an epi research questionresearch question
1. Source population 2. Exposure variable (E)3. Disease variable (D)4. Extraneous
“confounding” variables (C1, C2,…, Ck)
5. Dose-response6. Time-response7. Sample size
Variables“Yaz” example
E → D C1─┘C2─┘ ⁞ ⁞Ck─┘
Example: Does the progestin in Yaz (DRSP) cause more venous thromboembolism (VTE) than 2nd generation progestins?
Research question in general terms: Does exposure E cause disease D after considering the contributions of “potential confounders” C1, C2, …, Ck?
DRSP → VTE Age ────┘Trauma──┘ ⁞ ⁞Surgery──┘
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Ethics: Studying Human Subjects
• The Belmont Report – Respect for
individuals– Beneficence– Justice
• IRB oversight• Data Safety Monitoring
Board (DSMB)• Informed consent• Equipoise
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Equipoise • Equipoise ≡
balanced doubt• Cannot knowingly
expose a participant to harm
• Cannot withhold known benefit to study subjects
• What’s left? (ANS: equipoise)
Is equipoise the over-riding principles of trial ethics?
Scientific EthicsScientific Ethics• Ethics = the set of standardized
rules for conducting yourself: like the tax code people are looking for loopholes and shelters while still staying within the rules
• Scientific ethicsScientific ethics is beyond “regular” ethics; scientific ethics is “a bending over backwards to obtain intellectual honesty” – “I cannot give any scientist of any age
any better advice than this: The intensity of the conviction that a hypothesis is true has no bearing on whether it is true or not.” (Peter Medewar)
Peter Medewar
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Advocacy vs. Scientific Ethics
• The term “advocacy” is used in the general The term “advocacy” is used in the general sense as applied to public health, sense as applied to public health, commercial, political, and other types of commercial, political, and other types of interests interests p planned with the end result in mind.”
• Scientific ethicsScientific ethics: A bending over backwards to prove oneself wrong.
“I cannot give any scientist of any age any better advice than this: The intensity of the conviction that a hypothesis is true has no bearing on whether it is true or not.”
Sir Peter Medewar
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Selected Study Design Elements
• Referent group
• Experimentation
• Unit of observation
• “Longitudinalness”
• Case-control vs. cohort
The Referent Group
• We can only judge the effects of an exposure relative to the baseline determined by a referent or “control” group
• “The question of course is not whether there is an association in the minds of any particular individuals. The question is whether the specific exposure contributed to the causal mechanism of the disease”
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Experimentation
• Question. Does vitamin C (the exposure) prevent colds (the disease outcome)?
• Experimental Study. AssignAssign vitamin C supplementation to some subjects (E+) and gives others a placebo (E-). Compare cold rates in the groups.
• Observational Study. ClassifyClassify people into those who take vitamin C (E+) and those who don’t (E−). Compare cold rates in the groups.
Did the protocol assign the exposure? Did the protocol assign the exposure?
Randomized ExperimentExperiment
Observational Observational cohortcohort
Randomized Experiment vs. Observational Cohort
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Unit of Observation
• Question. Does cigarettes smoking (the exposure) cause lung cancer (the disease outcome)?
• Person-level data. Classify individualsindividuals as smokers or non-smokers. Assess & compare rates of LungCA in exposed and nonexposed groups.
• Aggregate-level data. Classify level of smoking in various regions. regions. Assess & compare rates of LungCA according to regional smoking rates.
Are data available on individuals? Are data available on individuals?
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Longitudinal v X-sectional
• Question. Does exercise (the exposure) prevent diabetes (the disease outcome)?
• Longitudinal measurement. Identify exercisers (E+) & non-exercisers (E−) track individuals experience over track individuals experience over timetime to assess and compare incidence rates of diabetes.
• Cross-sectional measurement. Assess currentcurrent exercise habits to assess and compare prevalences of diabetes.
Can you track individual experience over time? Can you track individual experience over time?
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Case-Control vs. Cohort
• Hypothesis. Does cigarette smoking cause lung cancer?
• Cohort. Identify smokers (E+) and non-smokers (E-) assess and compare lung cancer rates
• Case-control sample. Identify lung cancer cases (D+) and non-cases (D-) assess and compare smoking histories (E+/E-)
Selection of subjects based on exposure Selection of subjects based on exposure (cohort) or disease (case-control) status?(cohort) or disease (case-control) status?
odds of prior exposures
Illustrative Example 5.6: Toxic Shock and Continuous Tampon Use
• 44 cases and 44 friend controls
• 42 (95%) of the 44 cases used tampons continuously throughout menstruation
• 34 (77%) of 44 controls did similarly cases more likely to use tampons
continuously
• Eventually lead to the discovery that Rely brand tampons were too absorbent
(c) B. Gerstman 2007 Chapter 9 21
Major types of epidemiologic studies
Observational Studies
Experimental Studies [Chapter 6]
Aggregate-level unit of observation
Person-level unit of observation
Cross-Sectional [Chapter 5]
Longitudinal
Community trials
Ecological [Chapter 4]
Field trials
Clinical trials
Cohort [Chapter 7]
Case-Control [Chapter 8]
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TaxonomyI. Experimental studies (“trials”) – Ch 6II. Observational studies
A. Individual-level data1. Longitudinal
(a) Cohort studies - Ch 7(b) Case-control studies – Ch 8
2. Cross-sectional – Ch 5B. Aggregate-level data
Ecological – Ch 4
Exercise 5.1 Instructions
• Clearly state the research question
• Identify the study exposure
• Identify the study outcome
• Determine the type of study according to our taxonomy
Exercise 5.1A
Epidemiologists suspect that avian adeno-associated
virus is caused by exposure to poultry. Serum samples
from poultry workers and the general population are
tested to determine the proportion of individuals positive
for avian A–V antibody in each group.
1) experiment or observational 2) individual or aggregate unit of observation3) longitudinal or X-sectional observation4) cohort v case-control sample?
Type of study = x-sectional observational study
Exercise 5.1BThe behavioral pattern identified as Type A behavior is characterized by ahard-driving personality susceptible to anger and time urgency. This type ofbehavior is thought to be associated with increased risk for coronary heartdisease. Type A behavior is ascertained in a group of men in a postcoronarydisease rehabilitation program. Men not falling into the Type A category areclassified as Type B. Type A and Type B men are then followed for 5 years to
assess for the recurrence of acute coronary symptoms..
1) observational 2) individual3) longitudinal4) cohortType of study = observational cohort study
Exerise 5.1G
One hundred incident cases of infectious hepatitis…
1) observational 2) individual- 3) longitudinal 4) case-control sample?
Type of study = case-control!
Exerise 5.1H
Questionnaires are mailed to every tenth person listed…
1) observational 2) individual3) X-sectional observation4)
Type of study = x-sectional survey
Exerise 5.1I
An investigator collects information on the size of manufacturing plants..
1) observational 2) aggregateType of study = ecological study!
Exerise 5.2
You have developed a hypothesis that automobile drivers that talk on their cell phones….
(A) How might you measure the exposure in a cohort study? Heavy talkers, Non-talkers
(B) How might you identify cases in this [cohort] study(C)What additional factors…?(D)What difficulties might be encountered when
measuring (E) How would we design a case-control study to test…