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Logistic Regression II

Logistic Regression II. Exposure=1. Exposure=0. Disease = 1. Disease = 0. Simple 2x2 Table (courtesy Hosmer and Lemeshow ). Odds Ratio for simple 2x2 Table. (courtesy Hosmer and Lemeshow ). =>55 yrs. <55 years. CHD Present. CHD Absent.

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Logistic Regression II

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  1. Logistic Regression II

  2. Exposure=1 Exposure=0 Disease = 1 Disease = 0 Simple 2x2 Table (courtesy Hosmer and Lemeshow)

  3. Odds Ratio for simple 2x2 Table (courtesy Hosmer and Lemeshow)

  4. =>55 yrs <55 years CHD Present CHD Absent Example 1: CHD and Age (2x2) (from Hosmer and Lemeshow) 21 22 6 51

  5. =>55 yrs <55 years CHD Present CHD Absent Example 1: CHD and Age (2x2) (from Hosmer and Lemeshow) 21 22 6 51

  6. The Logit Model

  7. The Likelihood

  8. The Log Likelihood

  9. Derivative(s) of the log likelihood

  10. Maximize  =Odds of disease in the unexposed (<55)

  11. Maximize 1

  12. Null value of beta is 0 (no association) • Reduced=reduced model with k parameters; Full=full model with k+p parameters Hypothesis Testing H0: =0 1. The Wald test: 2. The Likelihood Ratio test:

  13. Hypothesis Testing H0: =0 2. What is the Likelihood Ratio test here? • Full model = includes age variable • Reduced model = includes only intercept • Maximum likelihood for reduced model ought to be (.43)43x(.57)57 (57 cases/43 controls)…does MLE yield this?… • 1. What is the Wald Test here?

  14. The Reduced Model

  15. Likelihood value for reduced model = marginal odds of CHD!

  16. Likelihood value of full model

  17. Finally the LR…

  18. CHD status White Black Hispanic Other Present 5 20 15 10 Absent 20 10 10 10 Example 2: >2 exposure levels*(dummy coding) (From Hosmer and Lemeshow)

  19. Note the use of “dummy variables.” “Baseline” category is white here. SAS CODE data race; input chd race_2 race_3 race_4 number; datalines; 0 0 0 0 20 1 0 0 0 5 0 1 0 0 10 1 1 0 0 20 0 0 1 0 10 1 0 1 0 15 0 0 0 1 10 1 0 0 1 10 end;run;proclogistic data=race descending; weight number; model chd = race_2 race_3 race_4;run;

  20. In this case there is more than one unknown beta (regression coefficient)—so this symbol represents a vector of beta coefficients. What’s the likelihood here?

  21. SAS OUTPUT – model fit Intercept Intercept and Criterion Only Covariates AIC 140.629 132.587 SC 140.709 132.905 -2 Log L 138.629 124.587 Testing Global Null Hypothesis: BETA=0 Test Chi-Square DF Pr > ChiSq Likelihood Ratio 14.0420 3 0.0028 Score 13.3333 3 0.0040 Wald 11.7715 3 0.0082

  22. SAS OUTPUT – regression coefficients Analysis of Maximum Likelihood Estimates Standard Wald Parameter DF Estimate Error Chi-Square Pr > ChiSq Intercept 1 -1.3863 0.5000 7.6871 0.0056 race_2 1 2.0794 0.6325 10.8100 0.0010 race_3 1 1.7917 0.6455 7.7048 0.0055 race_4 1 1.3863 0.6708 4.2706 0.0388

  23. SAS output – OR estimates The LOGISTIC Procedure Odds Ratio Estimates Point 95% Wald Effect Estimate Confidence Limits race_2 8.000 2.316 27.633 race_3 6.000 1.693 21.261 race_4 4.000 1.074 14.895 Interpretation: 8x increase in odds of CHD for black vs. white 6x increase in odds of CHD for hispanic vs. white 4x increase in odds of CHD for other vs. white

  24. Example 3: Prostrate Cancer Study (same data as from lab 3) • Question: Does PSA level predict tumor penetration into the prostatic capsule (yes/no)? (this is a bad outcome, meaning tumor has spread). • Is this association confounded by race? • Does race modify this association (interaction)?

  25. What’s the relationship between PSA (continuous variable) and capsule penetration (binary)?

  26. Capsule (yes/no) vs. PSA (mg/ml) psa vs. capsule capsule 1.0 0.9 0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0.0 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 psa

  27. Mean PSA per quintile vs. proportion capsule=yes  S-shaped? proportion with capsule=yes 0.70 0.68 0.66 0.64 0.62 0.60 0.58 0.56 0.54 0.52 0.50 0.48 0.46 0.44 0.42 0.40 0.38 0.36 0.34 0.32 0.30 0.28 0.26 0.24 0.22 0.20 0.18 0 10 20 30 40 50 PSA (mg/ml)

  28. logit plot of psa predicting capsule, by quintiles  linear in the logit?

  29. logit plot of psa predicting capsule, by QUARTILE  linear in the logit?

  30. logit plot of psa predicting capsule, by decile  linear in the logit?

  31. model: capsule = psa Testing Global Null Hypothesis: BETA=0 Test Chi-Square DF Pr > ChiSq Likelihood Ratio 49.1277 1 <.0001 Score 41.7430 1 <.0001 Wald 29.4230 1 <.0001 Analysis of Maximum Likelihood Estimates Standard Wald Parameter DF Estimate Error Chi-Square Pr > ChiSq Intercept 1 -1.1137 0.1616 47.5168 <.0001 psa 1 0.0502 0.00925 29.4230 <.0001

  32. Model: capsule = psa race • Analysis of Maximum Likelihood Estimates • Standard Wald • Parameter DF Estimate Error Chi-Square Pr > ChiSq • Intercept 1 -0.4992 0.4581 1.1878 0.2758 • psa 1 0.0512 0.00949 29.0371 <.0001 • race 1 -0.5788 0.4187 1.9111 0.1668 No indication of confounding by race since the regression coefficient is not changed in magnitude.

  33. Model: capsule = psa race psa*race • Standard Wald • Parameter DF Estimate Error Chi-Square Pr > ChiSq • Intercept 1 -1.2858 0.6247 4.2360 0.0396 • psa 1 0.0608 0.0280 11.6952 0.0006 • race 1 0.0954 0.5421 0.0310 0.8603 • psa*race 1 -0.0349 0.0193 3.2822 0.0700 Evidence of effect modification by race (p=.07).

  34. STRATIFIED BY RACE: ---------------------------- race=0 ---------------------------- Standard Wald Parameter DF Estimate Error Chi-Square Pr > ChiSq Intercept 1 -1.1904 0.1793 44.0820 <.0001 psa 1 0.0608 0.0117 26.9250 <.0001 ---------------------------- race=1 ---------------------------- Analysis of Maximum Likelihood Estimates Standard Wald Parameter DF Estimate Error Chi-Square Pr > ChiSq Intercept 1 -1.0950 0.5116 4.5812 0.0323 psa 1 0.0259 0.0153 2.8570 0.0910

  35. How to calculate ORs from model with interaction term • Standard Wald • Parameter DF Estimate Error Chi-Square Pr > ChiSq • Intercept 1 -1.2858 0.6247 4.2360 0.0396 • psa 1 0.0608 0.0280 11.6952 0.0006 • race 1 0.0954 0.5421 0.0310 0.8603 • psa*race 1 -0.0349 0.0193 3.2822 0.0700 Increased odds for every 5 mg/ml increase in PSA: If white (race=0): If black (race=1):

  36. How to calculate ORs from model with interaction term • Standard Wald • Parameter DF Estimate Error Chi-Square Pr > ChiSq • Intercept 1 -1.2858 0.6247 4.2360 0.0396 • psa 1 0.0608 0.0280 11.6952 0.0006 • race 1 0.0954 0.5421 0.0310 0.8603 • psa*race 1 -0.0349 0.0193 3.2822 0.0700 Increased odds for every 5 mg/ml increase in PSA: If white (race=0): If black (race=1):

  37. ORs for increasing psa at different levels of race.

  38. ORs for increasing psa at different levels of race.

  39. OR for being black (vs. white), at different levels of psa.

  40. Predictions • The model: • What’s the predicted probability for a white man with psa level of 10 mg/ml?

  41. Predictions • The model: • What’s the predicted probability for a black man with psa level of 10 mg/ml?

  42. Predictions • The model: • What’s the predicted probability for a white man with psa level of 0 mg/ml (reference group)?

  43. Predictions • The model: • What’s the predicted probability for a black man with psa level of 0 mg/ml?

  44. Diagnostics: Residuals • What’s a residual in the context of logistic regression? Residual=observed-predicted For logistic regression: residual= 1 – predicted probability OR residual = 0 – predicted probability

  45. Diagnostics: Residuals • What’s the residual for a white man with psa level of 0 mg/ml who has capsule penetration? • What’s the residual for a white man with psa level of 0 mg/ml who does not have capsule penetration?

  46. In SAS…recall model with psa and gleason… proclogistic data = hrp261.psa; model capsule (event="1") = psa gleason; output out=MyOutdata l=MyLowerCI p=Mypredicted u=MyUpperCI resdev=Myresiduals; run; procgplot data = MyOutdata; plot Myresiduals*predictor; run;

  47. Residual*psa

  48. Estimated prob*gleason

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