Experimental Statistics - week 9

1. Experimental Statistics - week 9 Chapter 17: Models with Random Effects Chapter 18: Repeated Measures

2. Discussion of Comments • upset about HW grade • I will drop one HW • availability of slides • HW - do by hand • in-class examples

4. 2-Factor Mixed Effects Model random fixed Assumptions: Sum-of-Squares obtained as before

5. Expected Mean Squares for 2-Factor ANOVA with Mixed Effects: SAS Expected MS Book’s Expected MS A (fixed) (random) B AB Error

6. Mixed-Effects Model To Test: use F = SAS uses F = use F = Again: Test each of these 3 hypotheses as in random-effects case.

7. 2-Factor Mixed-Effects ANOVA Table (using SAS Expected MS) Source SS df MS F Main Effects A SSA a -1 B SSB b- 1 Interaction AB SSAB (a -1)(b- 1) Error SSE ab(n -1) Total TSS abn -1

8. Estimating Variance Components 2-Factor Mixed-Effects Model (based on SAS Expected MS) Note: A is a fixed effect

9. (F)ull Military Inspect. (R)educed Military Inspect. Product Inspection (C)ommercial Response– fatigue of mechanical part A – type of inspection (a = ) B – inspector (randomly selected)(b = ) 7.50 7.08 6.15 7.42 6.17 5.52 1 5.85 5.65 5.48 5.89 5.30 5.48 5.35 5.02 5.98 7.58 7.68 6.17 6.52 5.86 6.20 2 6.54 5.28 5.44 5.64 5.38 5.75 5.12 4.87 5.68 7.70 7.19 6.21 6.82 6.19 5.66 3 6.42 5.85 5.36 5.39 5.35 5.90 5.35 5.01 6.12 n = Inspector

10. Mixed-Effects Data DATA one; INPUT insp$ level$ fatigue; DATALINES; 1 F 7.50 1 F 7.42 1 F 5.85 1 F 5.89 . . . 2 C 5.68 3 C 6.21 3 C 5.66 3 C 5.36 3 C 5.90 3 C 6.12 ; PROCGLM; CLASS insp level; MODEL fatigue= level insp level*insp; TITLE 'Mixed-Effects Model'; RANDOM insp level*insp/test; RUN; PROCMEANS mean var; CLASS level; VAR fatigue; RUN;

11. SAS Mixed-Effects Output Mixed-Effects Model The GLM Procedure Dependent Variable: fatigue Sum of Source DF Squares Mean Square F Value Pr > F Model 8 2.70711111 0.33838889 0.53 0.8282 Error 36 23.11448000 0.64206889 Corrected Total 44 25.82159111 R-Square Coeff Var Root MSE fatigue Mean 0.104839 13.35141 0.801292 6.001556 Source DF Type III SS Mean Square F Value Pr > F level 2 2.58739111 1.29369556 2.01 0.1481 insp 2 0.02523111 0.01261556 0.02 0.9806 insp*level 4 0.09448889 0.02362222 0.04 0.9973

12. SAS Mixed-Effects Output - Continued Mixed-Effects Model The GLM Procedure Source Type III Expected Mean Square level Var(Error) + 5 Var(insp*level) + Q(level) insp Var(Error) + 5 Var(insp*level) + 15 Var(insp) insp*level Var(Error) + 5 Var(insp*level) Mixed-Effects Model The GLM Procedure Tests of Hypotheses for Mixed Model Analysis of Variance Dependent Variable: fatigue Source DF Type III SS Mean Square F Value Pr > F level 2 2.587391 1.293696 54.77 0.0012 insp 2 0.025231 0.012616 0.53 0.6229 Error 4 0.094489 0.023622 Error: MS(insp*level) Source DF Type III SS Mean Square F Value Pr > F insp*level 4 0.094489 0.023622 0.04 0.9973 Error: MS(Error) 36 23.114480 0.642069

13. Multiple Comparisons for Fixed Effect (Inspection Level) -- Use MSAB in place of MSE where ▪ N denotes the # of observations involved in the computation of a marginal mean ▪ vdenotes the df associated with AB interaction

14. SAS Mixed-Effects Output – Output from PROC Means The MEANS Procedure Analysis Variable : fatigue N level Obs Mean Variance ƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒ C 15 5.8066667 0.0981810 F 15 6.3393333 0.8208638 R 15 5.8586667 0.7405410 ƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒƒ

15. Mixed-Effects Example Results and Conclusions:

16. Repeated Measures Designs Setting: 1. Random sample of “subjects” 2. Each subject is measured at t different time points 3. Interested in the effect of treatment over time

17. Repeated Measures with a Single Factor Time Subject Reading for ith time period jth subject

18. Single Factor Repeated Measures Designs • single factor repeated measures model is similar to the randomized complete block model • - i.e. 2 factors (subject and time) with one observation cell • - since there is only one observation per cell, we cannot estimate an interaction term • typically: • - subject is a random effect • - time is a fixed effect time subject

19. ANOVA Table for Repeated Measure Design with Single Factor Source SS df MS EMS F Between subjects SSP n - 1 MSP MSP/MSE Time SSA a -1 MSAMSA/MSE Error SSE (n -1)(a-1) MSE Total TSS an -1

20. Data– 5 subjects take tablet -- blood samples taken .5, 1, 2, 3, and 4 hours after ingestion Goal:understand rate at which medicine enters blood Time Subject .5 1 2 3 4 1 50 75 120 60 30 2 40 80 135 70 40 3 55 75 125 85 50 4 70 85 140 90 40 5 60 90 150 95 50

21. Dependent Variable: conc Sum of Source DF Squares Mean Square F Value Pr > F Model 8 26442.00000 3305.25000 66.60 <.0001 Error 16 794.00000 49.62500 Corrected Total 24 27236.00000 R-Square Coeff Var Root MSE conc Mean 0.970847 8.985333 7.044501 78.40000 Source DF Type III SS Mean Square F Value Pr > F subject 4 1576.00000 394.00000 7.94 0.0010 time 4 24866.00000 6216.50000 125.27 <.000

22. The GLM Procedure t Tests (LSD) for conc NOTE: This test controls the Type I comparisonwise error rate, not the experimentwise error rate. Alpha 0.05 Error Degrees of Freedom 16 Error Mean Square 49.625 Critical Value of t 2.11991 Least Significant Difference 9.4449 Means with the same letter are not significantly different. t Grouping Mean N time A 134.000 5 2 B 81.000 5 1 B B 80.000 5 3 C 55.000 5 0.5 D 42.000 5 4

24. Results:

25. Residual Diagnostics – 1-factor Repeated Measures Data

26. Two-Factor Repeated Measure Data (p.1033) Data– 10 subjects (5 take tablet, 5 take capsule) -- blood samples .5, 1, 2, 3, and 4 hours after ingestion Goal:compare blood concentration patterns of the two methods of administration Tablet Capsule Time Subject .5 1 2 3 4 1 50 75 120 60 30 2 40 80 135 70 40 3 55 75 125 85 50 4 70 85 140 90 40 5 60 90 150 95 50 Time Subject .5 1 2 3 4 1 30 55 80 130 65 2 25 50 75 125 60 3 35 65 85 140 85 4 45 70 90 145 80 5 50 75 95 160 90

27. 2-Factor with Repeated Measure -- Model type subject within type type by time interaction time NOTE: type and time are both fixed effects in the current example

28. PROCGLM; CLASS type subject time; MODEL conc=type subject(type) time type*time; TITLE 'Repeated Measures – 2 factors'; OUTPUT out=new r=resid; MEANS type time/LSD; RANDOM subject(type)/test;

29. 2-Factor Repeated Measures – ANOVA Output The GLM Procedure Dependent Variable: conc Sum of Source DF Squares Mean Square F Value Pr > F Model 17 57720.50000 3395.32353 110.87 <.0001 Error 32 980.00000 30.62500 Corrected Total 49 58700.50000 R-Square Coeff Var Root MSE conc Mean 0.983305 6.978545 5.533986 79.30000 Source DF Type III SS Mean Square F Value Pr > F type 1 40.50000 40.50000 1.32 0.2587 subject(type) 8 3920.00000 490.00000 16.00 <.0001 time 4 34288.00000 8572.00000 279.90 <.0001 type*time 4 19472.00000 4868.00000 158.96 <.0001

30. 2-factor Repeated Measures Source Type III Expected Mean Square type Var(Error) + 5 Var(subject(type)) + Q(type,type*time) subject(type) Var(Error) + 5 Var(subject(type)) time Var(Error) + Q(time,type*time) type*time Var(Error) + Q(type*time) The GLM Procedure Tests of Hypotheses for Mixed Model Analysis of Variance Dependent Variable: conc Source DF Type III SS Mean Square F Value Pr > F * type 1 40.500000 40.500000 0.08 0.7810 Error 8 3920.000000 490.000000 Error: MS(subject(type)) * This test assumes one or more other fixed effects are zero. Source DF Type III SS Mean Square F Value Pr > F subject(type) 8 3920.000000 490.000000 16.00 <.0001 * time 4 34288 8572.000000 279.90 <.0001 type*time 4 19472 4868.000000 158.96 <.0001 Error: MS(Error) 32 980.000000 30.625000

31. NOTE: Since time x type interaction is significant, and since these are fixed effects we DO NOT test main effects – we compare cell means (using MSE) Cell Means .5 1 2 3 4 C 37 63 85 140 76 T 55 81 134 80 42

33. Diagnostic Plots for 2-Factor Repeated Measures Data