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Choice of study design: randomized and non-randomized approaches

PAHO/PAHEF WORKSHOP EDUCATION FOR CHILDHOOD OBESITY PREVENTION: A LIFE-COURSE APPROACH Aruba, June 2012. Choice of study design: randomized and non-randomized approaches. Iná S. Santos Federal University of Pelotas Brazil. Outline of the presentation. Introduction Types of evidence

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Choice of study design: randomized and non-randomized approaches

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  1. PAHO/PAHEF WORKSHOP EDUCATION FOR CHILDHOOD OBESITY PREVENTION: A LIFE-COURSE APPROACHAruba, June 2012 Choice of study design: randomized and non-randomized approaches Iná S. Santos Federal University of Pelotas Brazil

  2. Outline of the presentation • Introduction • Types of evidence • Internal and external validity • Randomized controlled trials • Non-randomized designs • Victora et al. Evidence-based Public Health: moving beyond randomized trials. Am J Public Health 2004;94(3):400-405 • Habicht JP et al. Evaluation designs for adequacy, plausibility and probability of public health programme performance and impact. Intern J Epidemiology 1999;28:10-18

  3. Part I • Introduction • Types of evidence • Internal and external validity

  4. Types of epidemiological evidence for Public Health

  5. Valididy: internal and external External population Target population Actual population Sample

  6. Validity • Internal validity • Are the study results true for the target population? • Are there errors that affect the study findings? • Systematic error (bias, confounding) • Random error (precision) • External validity • Generalizability • Are the study results applicable to other settings?

  7. Validity • Internal validity • May be judged on the basis of the study methods • External validity • Require a “value judgment”

  8. Part II Randomized controlled trials (RCTs)

  9. Internal validity in probability studies RCTs are the gold standard for internal validity

  10. RCT (from Cochrane Collaboration) • In a RCT participants are assigned by chance to receive either an experimental or control treatment. • When a RCT is done properly, the effect of a treatment can be studied in groups of people who are the same at the outset, and treated in the same way, except for the intervention being studied. • Any differences then seen in the groups at the end of the trial can be attributed to the difference in treatment alone, and not to bias or chance.

  11. Randomised controlled trials • Prioritise internal validity • random allocation reduces selection bias and confounding • blinding reduces information bias • Gained popularity through clinical trials of new drugs • Essential for determining efficacy of new biological agents • Adequate for short causal chains • biological effects of drugs, vaccines, nutritional supplements, etc. drug  pharmacological reaction disease cure or alleviation

  12. Pooling data from RCTs • Systematic review • Comprehensive search for all high-quality scientific studies on a specific subject • E.g. on effects of a drug, vaccine, surgical technique, behavioral intervention, etc • Meta-analysis • Groups data from different studies to determine an average effect • Improves the precision of the available estimates by including a greater number of people • But: data from different studies cannot always be combined

  13. The probability that the observed result is due to the intervention But additional evidence is required to make this result conceptually plausible Biological plausibility Operational plausibility What does a RCT show?

  14. Special issues in RCTs • “Intent-to-treat” analyses • Individuals/groups should remain in the group to which they were originally assigned • Units of analyses • It is incorrect to use group allocation (e.g., health centers, communities, etc) and to analyse the data at individual level • This has implications for sample size calculation and for analysis methods

  15. CONSORT Statement • Allocation • Rationale • Eligibility • Interventions • Objectives • Outcomes • Sample size • Randomization • Sequence generation • Concealment • Implementation • Blinding (masking) • Statistical methods • Participant flow • Recruitment • Baseline data • Numbers analyzed • Outcomes and estimation • Ancillary analyses • Adverse events • Interpretation • Generalizability • Overall evidence

  16. Major steps in Public Health trials • Central-level provision of intervention to local outlets (e.g. health facilities) • Local providers’ compliance with delivery of intervention • Recipient compliance with intervention • Biological effect of intervention Source: Victora, Habicht, Bryce, AJPH 2004

  17. Central team is competent HWs are trainable Equipment is available Utilization is adequate Food is available Lack of food is a cause of malnutrition Example of Public Health Intervention: Nutrition Counselling Trial National programme is implemented Health workers are trained HW knowledge increases HW performance improves Maternal knowledge increases Child diets change Energy intake increases Nutritional status improves Source: Santos, Victora et al. J Nutr 2001

  18. Example of Public Health Intervention: Nutrition Counselling Trial National programme is implemented Health workers are trained HW knowledge increases 0.807=0.21 HW performance improves Maternal knowledge increases Child diets change Energy intake increases Nutritional status improves Source: Santos, Victora et al. J Nutr 2001

  19. The dose of the intervention may be smaller behavioural effect modification provider behaviour recipient behaviour The dose-response relationship may be different biological effect modification Are RCT findings generalizable to routine programmes? The longer the causal chain, the more likely is effect modification Source: Victora, Habicht, Bryce, AJPH 2004

  20. Curvilinear associations Trials often done here Results often applied here Source: Victora, Habicht, Bryce, AJPH 2004

  21. Why do RCTs have a limited role in large-scale effectiveness evaluations • Often impossible to randomize • unethical, politically unacceptable, rapid scaling up • Evaluation team affects service delivery • service delivery is at least “best-practice” • Effect modification is the rule • are meta-analyses of complex programmes meaningful? • need for local data • Need for supplementary approaches for evaluations in Public Health

  22. Part III Non-randomized designs (Quasi-experiments)

  23. Types of inference in impact evaluations • Adequacy (descriptive studies) • the expected changes are taking place • Plausibility (observational studies) • observed changes seem to be due to the programme • Probability (RCTs) • randomised trial shows that the programme has a statistically significant impact Source: Habicht, Victora, Vaughan, IJE 1999

  24. Ensuring internal validity in probability and plausibility studies

  25. Adequacy evaluations • Questions: • Were the initial goals achieved? • E.g.: reduce underfive mortality by 20% • Were the observed trends in impact indicators • in the expected direction? • of adequate magnitude?

  26. Plausibility evaluations • Question: • Is the observed impact likely due to the intervention? • Require ruling out influence of external factors: • need for comparison group • adjustment for confounders • Also known as quasi-experiments

  27. Adequacy/plausibility designs (1) • Design: cross-sectional • Measurement points: once • Outcome: difference or ratio • Control group: • Individuals who did not receive the intervention • Groups/areas without the intervention • Dose-response analyses, if possible

  28. ORT and diarrhea deaths in Brazil Each dot = 1 state Spearman r=-0,61 (p=0,04)

  29. Adequacy/plausibility designs (2) • Design: longitudinal (before-and-after) • Measurement points: twice or more • Outcome: change • Control group: • The same or similar individuals, before the intervention • The same groups/areas, before the intervention • Time-trend analyses, if possible

  30. Hib vaccine in Uruguay In Uruguay, reported Hib cases declined by over 95 percent after the introduction of routine infant Hib immunisation in 1994. Source: PAHO, 2004

  31. Adequacy/plausibility designs (3) • Design: longitudinal-control • Measurement points: twice or more • Outcome: relative change • Control group: • The same or similar individuals, before the intervention • The same groups/areas, before the intervention • Time-trend analyses, if possible

  32. Adequacy/plausibility designs (4) • Design: case-control • Measurement points: once • Comparison: exposure to intervention • Groups: • Cases: individuals with the disease of interest • Controls: sample of the population from which cases originated

  33. Stunting in Tanzania Stunting prevalence among children aged 24-59 months p (mean haz) = 0.05 Source: Schellenberg J et al

  34. Transparent Reporting for Evaluations with Nonrandomised Designs (TREND) • Similar to CONSORT guidelines • Include • conceptual frameworks used • intervention and comparison conditions • research design • methods of adjusting for possible biases • AJPH, March 2004 Source: Des Jarlais, Lyles, Crepaz and the TREND Group, AJPH 2004

  35. Conclusions (1) • RCTs are essential for • clinical studies • community studies for establishing the efficacy of relatively simple interventions • RCTs require additional evidence from non-randomised studies for increasing their external validity

  36. Conclusions (2) • Given the complexity of many Public Health interventions, adequacy and plausibility studies are essential in different populations • even for interventions proven by RCTs • Adequacy evaluations should become part of the routine of decision-makers • and plausibility evaluations too, when possible

  37. THANK YOU

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