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Critically Evaluating the Evidence: Tools for Appraisal

Critically Evaluating the Evidence: Tools for Appraisal. Elizabeth A. Crabtree, MPH, PhD (c) Director of Evidence-Based Practice, Quality Management Assistant Professor, Library & Informatics Medical University of South Carolina. Steps of EBP:.

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Critically Evaluating the Evidence: Tools for Appraisal

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  1. Critically Evaluating the Evidence: Tools for Appraisal Elizabeth A. Crabtree, MPH, PhD (c) Director of Evidence-Based Practice, Quality Management Assistant Professor, Library & Informatics Medical University of South Carolina

  2. Steps of EBP:

  3. Step 3: Evaluate the EvidenceSystematic, Critical Appraisal It’s peer-reviewed, therefore it must be OK? Adopted from: Heneghan, Carl. Introduction, 16th Oxford Workshop on Evidence-Based Practice, September, 2010.

  4. What is in “the stack”? Gold mine Bonfire

  5. Hierarchy of Evidence

  6. CONSORT • Consolidated Standards of Reporting Trials • Focus - Randomized Control Trials (RCT) • 2-group, parallel • Checklist of 25 items • Title/Abstract • Introduction • Methods • Results • Discussion • Other information The CONSORT Group

  7. STROBE • Strengthening the Reporting of Observational Studies in Epidemiology • Focus – Cross-sectional, Case-control, Cohort and Observational Studies • Checklists of 22 items • Title/Abstract • Introduction • Methods • Results • Discussion • Other Information STROBE Statement

  8. CASP • Critical Appraisal Skills Programme • Focus – Systematic Reviews, RCTs, Qualitative Studies, Diagnostic Test Studies, Cohort Studies, Case-control Studies & Economic Evaluation Studies • 10 - 12 Questions per appraisal tool • Validity • Results • Relevance CASP

  9. Body of Evidence • All studies relevant to a given PICO questions • Recommend grouping studies by PICO question • Assess the quality of relevant studies as a group How is this done???

  10. GRADE Quality Assessment Criteria

  11. What is the GRADE System? Grading of Recommendations Assessment Development and E valuation • Built on previous systems • International group of guideline developers

  12. Advantages of GRADE • Transparent process of moving from evidence to recommendations • Explicit, comprehensive criteria for downgrading and upgrading quality of evidence ratings • Explicit evaluation of the importance of outcomes of alternative management strategies GRADE vs. The Competition

  13. Quality & Recommendations • Quality of evidence-the extent to which one can be confident that an estimate of effect is adequate to support recommendations • Strength of recommendation-the extent to which one can be confident that adherence to the recommendation will do more good than harm

  14. Utilization

  15. Getting Started… • Must have a clearly defined question • Patient(s), intervention, comparison, and outcome of interest (PICO) In adult patients (population), is the use of glucocorticosteroids (intervention) associated with VTE (outcome)?

  16. Chutes & Ladders Evaluation of evidence can lower its quality or raise its quality.

  17. Key Elements-Chutes • Study design limitations • Inconsistency • Indirectness • Imprecision • Reporting bias

  18. Study Design Limitations • Basic study design (randomized trials or observational) • Study Limitations • Insufficient sample size • Lack of blinding • Lack of allocation concealment • Large losses to follow up • Non-adherence to intent to treat analysis • Stopped for early benefit • Selective reporting of measured outcomes

  19. Inconsistency of Results • Detailed study methods and execution • Wide variation of treatment effect across studies • Populations varied (e.g. sicker, older) • Interventions varied (e.g. doses) • Outcomes varied (e.g. diminishing effect over time) • Increased heterogeneity = ↓ quality (I2: <0.25 low; 0.25 – 0.5 moderate; > 0.5 high)

  20. Indirectness of Evidence • The extent to which the people, interventions, and outcome measures are similar to those of interest • Indirect comparisons • Different populations • Different interventions • Different outcomes measured • Comparisons not applicable to question/outcome

  21. Imprecision • Accuracy of data/results • Results include just a few events or observations • Sample size lower than calculated for optimal information (needed for decision-making) • Confidence intervals are sufficiently wide that an estimate is consistent with either important harms or benefits

  22. Bias

  23. Key Elements-Ladders Effect Dose response Plausible confounders

  24. Effect Magnitude of treatment effect • Strong effect • e.g., meta-analysis of observational studies found that bicycle helmets reduce the risk of head injuries RR 0.31 (95% CI, 0.13 to 0.37) • Very Strong effect • e.g., meta-analysis looking at impact of warfarin prophylaxis in cardiac valve replacement • Relative Risk for thromboembolism with warfarin was 0.17 (95% CI, 0.13 to 0.24)

  25. Dose Response Evidence of a dose-response gradient • The more exposure to an intervention the greater the harm • Higher warfarin dose → Higher INR → increased bleeding

  26. Plausible Confounders • All plausible confounders would have reduced the demonstrated effect • OR would suggest a spurious effect when results show no effect

  27. Evidence of Association • Strong evidence of association • significant relative risk of > 2 ( < 0.5) based on consistent evidence from two or more observational studies, with no plausible confounders • Very Strong evidence of association • significant relative risk of > 5 ( < 0.2) based on direct evidence with no major threats to validity

  28. Quality of Supporting Evidence

  29. Outcomes: Critical or Important Guyatt, G. H., Oxman, A. D., Kunz, R., Vist, G. E., Falck-Ytter, Y. & Schünemann, H. J. (2008). What is “quality of evidence” and why is it important to clinicians? BMJ 333, 995-998.

  30. Strength of Recommendations Strong Weak VS.

  31. Strength of Recommendations Strong Weak X VS.

  32. Strong Recommendation • Desirable effects clearly outweigh undesirable effects or vice versa • Certain that benefits do, or do not, outweigh risks & burdens

  33. Weak Recommendation • Desirable effects closely balanced with undesirable effects • Benefits, risks & burdens are finely balanced OR appreciable uncertainty exists about the magnitude of benefits & risks

  34. Moving from Strong to WeakTo treat or not to treat… • Absence of high quality evidence • Imprecise estimates • Uncertainty or variation in individuals’ value of the outcomes • Small net benefits • Uncertain if net benefits are worth the costs

  35. Strong Recommendations

  36. Weak Recommendations

  37. Guideline Evaluation-AGREE II • Appraisal of Guidelines for Research and Evaluation • Focus – evaluation of practice guidelines • Checklist of 23 questions • Six domains • Scope and Purpose • Stakeholder Involvement • Rigor of Development • Clarity and Presentation • Applicability • Editorial Independence

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