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Diagnosis: EBM Approach Michael Brown MD Grand Rapids MERC/ Michigan State University.

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Presentation on theme: "Diagnosis: EBM Approach Michael Brown MD Grand Rapids MERC/ Michigan State University."— Presentation transcript:

1 Diagnosis: EBM Approach Michael Brown MD Grand Rapids MERC/ Michigan State University

2 Scenario 1 day colicky pain with nausea diffuse to RLQ mild tenderness, T 37

3 Step 1: Clinical Question In the patient presenting to the ED with suspected appendicitis, what is the accuracy of helical CT ?

4 Step 2: Search MeSH Browser – appendicitis AND – computerized tomography AND – sensitivity and specificity Clinical Query – diagnosis

5

6

7 Step 3: Critical Appraisal Internal Validity Results (focus today) – even if critical appraisal not your bag External Validity

8 Evidenced-based Medicine stresses methodology de-emphasizes statistics simplify: NNT, LR

9 Likelihood Ratio: How to use How to calculate

10 Examples Appendicitis Pulmonary embolism – JAMA series – current slant

11 Threshold Approach to Clinical Decision Making Treatment threshold – if above, start therapy Test threshold – if below, no further testing Pauker NEJM 1980

12 Diagnostic Testing Treatment threshold for PE? – If above: heparin Test threshold for PE? – If below: discharge home If between? – Further testing

13 Test/Treatment Threshold

14 prior probability post-test prob LR (prevalence) (predictive value)

15 Test/Treatment Threshold

16 Pretest Probability experience in your setting – patient population prevalence of condition in literature – Oxford web site scoring systems

17 Estimate Pretest Probability for PE history risk factors physical exam initial screening tests

18 Estimate Pretest Probability for PE Not exact science – usually a range 40-60% – low, intermediate, high done daily in clinical practice clinical prediction rules – physicians estimate very close Wicki 2001

19 Bayesian Analysis? Thomas Bayes 1702-1761 English clergyman Doctrine of Chances

20 Bayesian Analysis pretest probability – prevalence LR for diagnostic test result post-test probability – predictive value

21 Interpretation convert pretest prob to odds odds x LR = post-test odds convert odds back to prob

22 Interpretation convert pretest prob to odds odds x LR = post-test odds convert odds back to prob

23 Fagan Nomogram

24 Effect on pretest probability: >10 or <0.1large changes 5-10 and 0.1-0.2 moderate approach 1 no effect

25 Advantages of LR: combines sensitivity and specificity interpret test result on individual patient multiple cut-offs sequential testing

26 Shortcut: LR for + test = sensitivity 1 - specificity

27 Calculate: LR= prob (test result) with disease prob (test result) without disease

28 2 x 2 Table

29 CT and Appendicitis Funaki et al

30 CT and Appendicitis probability of + CT with appendicitis 29/30 =.97

31 CT and Appendicitis

32 Likelihood of + CT with appendicitis 29/30 =.97 Likelihood of +CT without appendicitis 4/70 =.057 LR for + CT = 17

33 Effect on pretest probability: >10 or <0.1large changes 5-10 and 0.1-0.2 moderate approach 1 no effect

34 Scenario 1 day colicky pain with nausea diffuse to RLQ mild tenderness, T 37 Pretest probability 30% – range 20 - 40%

35 Helical CT

36

37

38 Effect on pretest probability: >10 or <0.1large changes 5-10 and 0.1-0.2 moderate approach 1 no effect

39 Advantages of LR: combines sensitivity and specificity interpret test result on individual patient multiple cut-offs – don’t have to lump! sequential testing

40 Multiple cut-offs appendicitisNo diseaseTotal CT positive CT equivocalab CT negative Totalxy

41 Calculate: LR= prob equivocal CT with disease prob equivocal CT without disease

42 Multiple cut-offs appendicitisNo diseaseTotal CT positive CT equivocalab CT negative Totalxy

43 Multiple cut-offs: V/Q scan normal low prob intermediate prob high prob LR 0.1 LR 0.4 LR 1 LR 18 JAMA series

44 Sequential Testing post-test probability 1st test new pretest probability for 2nd test assume independence

45 Helical CT : Diagnosis of PE CT + CT - LR 8 LR.2 Rathbun, 2000

46 ELISA D-dimer: Diagnosis of PE > 500 <500 LR 2 LR.1 Brown, Bermingham 2001

47

48 Helical CT

49 D-dimer

50 Test/Treatment Threshold

51 Questions?

52 Scenario 1 day colicky pain with nausea diffuse to RLQ mild tenderness, T 37 Pretest probability 30%

53 Discussion: CT and appy Internal Validity Results External Validity

54 CT and Appendicitis Flaws? – Minor – Major – Fatal

55 CT and Appendicitis (Rao) Rao et al +LR =.98/.02 = 46 -LR =.019/.98=.02

56 CT and Appendicitis (Funaki) Funaki et al

57 CT and Appendicitis Likelihood of + CT with appendicitis 29/30 =.97 Likelihood of +CT without appendicitis 4/70 =.057 LR for + CT = 17

58 Funaki: CT and Appendicitis LR for a positive CT 17 LR for a negative CT 0.03

59 CT and Appendicitis Likelihood of + CT with appendicitis 29/30 =.97 Likelihood of +CT without appendicitis 4/70 =.057 LR for + CT = 17

60 Helical CT

61 Sources of LR: PE: + CT LR = 8 - CT LR =.2 – meta-analysis: Rathbun et al Pharyngitis: neg rapid strep - LR = 0.2 – hosptial data Alcoholism: CAGE >3 LR = 250 – web

62 Combinations (LRxLR) D-dimer <500, CT - LR.02

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