science, epidemiology and progress - university of auckland · 2012-03-14 · science, epidemiology...
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Science, epidemiology and progress
Simon Thornley
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Objectives
• Also to pick up on a couple of important epidemiological concepts we have missed so far.
• To understand the philosophy of science and how it relates to epidemiological study design.
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Epidemiological tidy up...
• Risk difference
– Chapter 6: Pocket Guide to Epidemiology, Kleinbaum
– “Excess risk of exposure on risk of outcome”
• Population attributable risk • Chapter 6: Pocket Guide to Epidemiology, Kleinbaum
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Risk difference
• Cohort study of smokers after MI – 5 year CI of death – exposure (Quit or continue to smoke)
Exposure
Outcome Smoke Quit Total
Death 27 14 41
Survival 48 67 115
Total 75 81 156
Risk (Smokers) 0.36
Risk (Quit) 0.17
Overall risk 0.26
RR 2.08
RD 0.19
NNT 5
PPAR 34
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Risk difference
1
0
Risk of outcome
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PPAR
• What is effect of exposure on disease in population?
• Rare exposure with high RR may be more hazardous than common exposure with low RR
• PPAR= Overall risk – risk among unexposed
---------------------------------------------
Overall risk
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PPAR
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Population attributable risk
0
10
20
30
40
50
60
0.00 0.20 0.40 0.60 0.80 1.00
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Prevalence of exposure
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Causation
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Positivism and Epidemiology
• Roots in Western philosophy
• Idea to “enlighten the masses”
• Human reason as a vehicle to combat ignorance, superstition, and tyranny.
• Assumptions – Determinism (predict outcomes from scientific laws)
– Objectivity (Researcher separate from participants)
– Quantification (Information derived from measurement)
– Reliability (extrapolation of findings to other populations)
– Generalisability (“laws” that apply to different settings)
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Causation in epidemiology
• “If the subject of epidemiologic inquiry is ... the occurrence of disease and other health outcomes ... [therefore] the ultimate goal of most epidemiologic research is the elaboration of causes that can explain patterns of disease occurrence”.
– Rothman and Greenland.
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Scientific Reasoning
• “Science is built of facts the way a house is built of bricks; but an accumulation of facts is no more science than a pile of bricks is a house”
– Henri Poincaré
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Scientific Inference
• No agreement about rules
• Inference based on logic
– Hypotheses can not be proved, only disproved
– Popper: method of conjecture and refutation
– Hauck: relation of theory and data a crossword puzzle.
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Fundamental problem of causal inference
Exposed?
Outcomes
Yes (No)
Observable Counterfactual
No (Yes)
Counterfactual
Observable
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Induction vs Deduction
Induction
• Observations of nature, do they fall into a pattern?
• Assumes that what has happened in the past will continue to happen
• Switch controls light but does rooster control sun? (co-occurrence)
• Eg. vit D levels low over winter & CVD death higher? Causal relationship.
Deduction
• Prediction made and tested experimentally
• Limited set of observations
• Mathematical
• Needs hypotheses from induction
• E.g. RCT of effect of vitamin D on CVD events.
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Bradford-Hill Criteria
• Strength
• Consistency
• Specificity
• Temporality
• Biologic gradient
• Experimental evidence
• Analogy
• Plausibility
• Coherence
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Study types
Descriptive
• Describe what disease occurs (e.g. New Zealand Health survey)
Analytic
• Observational – Case control or cohort
– Explain why disease occurs (e.g. British doctors study).
• Randomised controlled Trial – E.g. Effect of HRT on CVD.
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Toxic shock
Chemical vs Toxin How would you test?
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Refutation
• Observations support a hypothesis but do not prove it.
• A single contrary observation can do away with thousands of “supporting” observations
• Form a new hypothesis in light of refuted old hypothesis
• “Refutation and conjecture” • All knowledge is tentative • Predictions tested based on creative competing
hypotheses
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Generalisation
• Not a statistical method, but a scientific method
• Does not involve inference from a sample to its source population, but abstraction into a scientific hypothesis
• Studies are stronger if subjects are more homogeneous, rather than “representative”
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Can positive hypotheses be proven?
• Most studies start with Positive hypotheses – e.g. Smoking causes lung cancer
• Impossible to prove absence; only unlikely beyond a given strength
• Statistical analyses – ‘Null’ hypothesis refuted (unlikely smoking does
not cause lung cancer)
• Positive hypotheses only supported, not refuted (Absence refuted).
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Consensus?
• “pure” refutationist research difficult
• Findings evaluated in light of other studies and broader opinion.
• Evidenced-based practice
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Summary of Scientific process
Idea Generate
hypothesis (Inductive)
Experiment Test hypothesis
(Refutation)
Interpret Inferences from
experiment (Inductive)
New Idea Refine hypothesis
(Refutation)
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Summary
• Principles – Induction (observed co-occurrence → cause and effect) – Refutation (hypothesis; then predictions made and
experimentally tested)
• Epi limitations – Few ‘clean’ experiments – Observations – limited experimentation – Inductivism assesses causation
• Solutions – Causal criteria (BH) – Consensus