Mplus VERSION 6.1 MUTHEN & MUTHEN 10/16/2010 1:10 AM INPUT INSTRUCTIONS Title: Stata2Mplus conversion for all_wide.dta List of variables converted shown below patno : patient age : calculated age (years) count : cases pritreat : prior chemo response 0: sd 1: pd 2: pr 3: u 4: cr tx : treatment arm 1: best supportive care 2: pemetrexed/best supportive care race : race 1: african descent 2: caucasion 3: east/southeast asian 4: hispanic 5: other gender : gender 1: male 2: female stage : stage 1: stage i b 2: stage ia 3: stage ii 4: stage iii 5: stage iv icda : intl class of disease adapted 1: atypical mesothelioma cells (4131) 2: biphasical pleural mesothelioma (3903) 3: epithelial pleural mesothelioma (3692) 4: mixed cell pleural mesothelioma (3693) 5: pleural mesothelioma, nos (3929) 6: sarcomatoid pleural mesothelioma (3691) mets : distant metastasis @study entry 2: m0 3: m1 4: mx lnode : regional lymph nodes @study entry 2: n0 3: n1 4: n2 5: n3 6: nx pmryt : primary tumor @study entry 2: t1a 3: t1b 4: t2 5: t3 6: t4 survcns : overall survival censor flag 0: non-censored 1: censored surv : overall survival opfscns : objective progression-free survival censor flag 0: non-censored 1: censored opfs : objective progression-free survival pfscns : progression-free survival censor flag 0: non-censored 1: censored pfs : progression-free survival ttopdcns : time to objective progressive disease censor flag 0: non-censored 1: censored ttopd : time to objective progressive disease ttpdcns : time to progressive disease censor flag 0: non-censored 1: censored ttpd : time to progressive disease tttfcns : time to treatment failure censor flag 0: non-censored 1: censored tttf : time to treatment failure ttprcns : time to reponse (cr or pr) censor flag 0: non-censored 1: censored ttpr : time to reponse (cr or pr) kps_0 : kps_1 : kps_2 : kps_3 : kps_4 : kps_5 : kps_6 : kps_7 : kps_8 : kps_9 : kps_10 : kps_11 : kps_12 : anrx_0 : 0: anorexia anrx_1 : 1: anorexia anrx_2 : 2: anorexia anrx_3 : 3: anorexia anrx_4 : 4: anorexia anrx_5 : 5: anorexia anrx_6 : 6: anorexia anrx_7 : 7: anorexia anrx_8 : 8: anorexia anrx_9 : 9: anorexia anrx_10 : 10: anorexia anrx_11 : 11: anorexia anrx_12 : 12: anorexia ftg_0 : 0: fatigue ftg_1 : 1: fatigue ftg_2 : 2: fatigue ftg_3 : 3: fatigue ftg_4 : 4: fatigue ftg_5 : 5: fatigue ftg_6 : 6: fatigue ftg_7 : 7: fatigue ftg_8 : 8: fatigue ftg_9 : 9: fatigue ftg_10 : 10: fatigue ftg_11 : 11: fatigue ftg_12 : 12: fatigue cgh_0 : 0: cough cgh_1 : 1: cough cgh_2 : 2: cough cgh_3 : 3: cough cgh_4 : 4: cough cgh_5 : 5: cough cgh_6 : 6: cough cgh_7 : 7: cough cgh_8 : 8: cough cgh_9 : 9: cough cgh_10 : 10: cough cgh_11 : 11: cough cgh_12 : 12: cough dysp_0 : 0: dyspnea dysp_1 : 1: dyspnea dysp_2 : 2: dyspnea dysp_3 : 3: dyspnea dysp_4 : 4: dyspnea dysp_5 : 5: dyspnea dysp_6 : 6: dyspnea dysp_7 : 7: dyspnea dysp_8 : 8: dyspnea dysp_9 : 9: dyspnea dysp_10 : 10: dyspnea dysp_11 : 11: dyspnea dysp_12 : 12: dyspnea hmpty_0 : 0: hemoptysis hmpty_1 : 1: hemoptysis hmpty_2 : 2: hemoptysis hmpty_3 : 3: hemoptysis hmpty_4 : 4: hemoptysis hmpty_5 : 5: hemoptysis hmpty_6 : 6: hemoptysis hmpty_7 : 7: hemoptysis hmpty_8 : 8: hemoptysis hmpty_9 : 9: hemoptysis hmpty_10 : 10: hemoptysis hmpty_11 : 11: hemoptysis hmpty_12 : 12: hemoptysis pain_0 : 0: pain pain_1 : 1: pain pain_2 : 2: pain pain_3 : 3: pain pain_4 : 4: pain pain_5 : 5: pain pain_6 : 6: pain pain_7 : 7: pain pain_8 : 8: pain pain_9 : 9: pain pain_10 : 10: pain pain_11 : 11: pain pain_12 : 12: pain sx_0 : 0: overall symptoms sx_1 : 1: overall symptoms sx_2 : 2: overall symptoms sx_3 : 3: overall symptoms sx_4 : 4: overall symptoms sx_5 : 5: overall symptoms sx_6 : 6: overall symptoms sx_7 : 7: overall symptoms sx_8 : 8: overall symptoms sx_9 : 9: overall symptoms sx_10 : 10: overall symptoms sx_11 : 11: overall symptoms sx_12 : 12: overall symptoms intfr_0 : 0: interference intfr_1 : 1: interference intfr_2 : 2: interference intfr_3 : 3: interference intfr_4 : 4: interference intfr_5 : 5: interference intfr_6 : 6: interference intfr_7 : 7: interference intfr_8 : 8: interference intfr_9 : 9: interference intfr_10 : 10: interference intfr_11 : 11: interference intfr_12 : 12: interference qol_0 : 0: quality of life qol_1 : 1: quality of life qol_2 : 2: quality of life qol_3 : 3: quality of life qol_4 : 4: quality of life qol_5 : 5: quality of life qol_6 : 6: quality of life qol_7 : 7: quality of life qol_8 : 8: quality of life qol_9 : 9: quality of life qol_10 : 10: quality of life qol_11 : 11: quality of life qol_12 : 12: quality of life Data: File is all_wide.dat ; Variable: Names are patno age count pritreat tx race gender stage icda mets lnode pmryt survcns surv opfscns opfs pfscns pfs ttopdcns ttopd ttpdcns ttpd tttfcns tttf ttprcns ttpr kps_0 kps_1 kps_2 kps_3 kps_4 kps_5 kps_6 kps_7 kps_8 kps_9 kps_10 kps_11 kps_12 anrx_0 anrx_1 anrx_2 anrx_3 anrx_4 anrx_5 anrx_6 anrx_7 anrx_8 anrx_9 anrx_10 anrx_11 anrx_12 ftg_0 ftg_1 ftg_2 ftg_3 ftg_4 ftg_5 ftg_6 ftg_7 ftg_8 ftg_9 ftg_10 ftg_11 ftg_12 cgh_0 cgh_1 cgh_2 cgh_3 cgh_4 cgh_5 cgh_6 cgh_7 cgh_8 cgh_9 cgh_10 cgh_11 cgh_12 dysp_0 dysp_1 dysp_2 dysp_3 dysp_4 dysp_5 dysp_6 dysp_7 dysp_8 dysp_9 dysp_10 dysp_11 dysp_12 hmpty_0 hmpty_1 hmpty_2 hmpty_3 hmpty_4 hmpty_5 hmpty_6 hmpty_7 hmpty_8 hmpty_9 hmpty_10 hmpty_11 hmpty_12 pain_0 pain_1 pain_2 pain_3 pain_4 pain_5 pain_6 pain_7 pain_8 pain_9 pain_10 pain_11 pain_12 sx_0 sx_1 sx_2 sx_3 sx_4 sx_5 sx_6 sx_7 sx_8 sx_9 sx_10 sx_11 sx_12 intfr_0 intfr_1 intfr_2 intfr_3 intfr_4 intfr_5 intfr_6 intfr_7 intfr_8 intfr_9 intfr_10 intfr_11 intfr_12 qol_0 qol_1 qol_2 qol_3 qol_4 qol_5 qol_6 qol_7 qol_8 qol_9 qol_10 qol_11 qol_12; Missing are all (-9999) ; Usev = anrx_0 ftg_0 cgh_0 dysp_0 pain_0 sx_0 intfr_0 qol_0; Analysis: Type = EFA 1 3; ! use the MLR estimator so that chi-square test of model fit and standard errors ! take into account non-normality in the outcomes estimator = mlr; Plot: type = plot3; *** WARNING Data set contains cases with missing on all variables. These cases were not included in the analysis. Number of cases with missing on all variables: 27 1 WARNING(S) FOUND IN THE INPUT INSTRUCTIONS Stata2Mplus conversion for all_wide.dta List of variables converted shown below patno : patient age : calculated age (years) count : cases pritreat : prior chemo response 0: sd 1: pd 2: pr 3: u 4: cr tx : treatment arm 1: best supportive care 2: pemetrexed/best supportive care race : race 1: african descent 2: caucasion 3: east/southeast asian 4: hispanic 5: other gender : gender 1: male 2: female stage : stage 1: stage i b 2: stage ia 3: stage ii 4: stage iii 5: stage iv icda : intl class of disease adapted 1: atypical mesothelioma cells (4131) 2: biphasical pleural mesothelioma (3903) 3: epithelial pleural mesothelioma (3692) 4: mixed cell pleural mesothelioma (3693) 5: pleural mesothelioma, nos (3929) 6: sarcomatoid pleural mesothelioma (3691) mets : distant metastasis @study entry 2: m0 3: m1 4: mx lnode : regional lymph nodes @study entry 2: n0 3: n1 4: n2 5: n3 6: nx pmryt : primary tumor @study entry 2: t1a 3: t1b 4: t2 5: t3 6: t4 survcns : overall survival censor flag 0: non-censored 1: censored surv : overall survival opfscns : objective progression-free survival censor flag 0: non-censored 1: censored opfs : objective progression-free survival pfscns : progression-free survival censor flag 0: non-censored 1: censored pfs : progression-free survival ttopdcns : time to objective progressive disease censor flag 0: non-censored 1: censored ttopd : time to objective progressive disease ttpdcns : time to progressive disease censor flag 0: non-censored 1: censored ttpd : time to progressive disease tttfcns : time to treatment failure censor flag 0: non-censored 1: censored tttf : time to treatment failure ttprcns : time to reponse (cr or pr) censor flag 0: non-censored 1: censored ttpr : time to reponse (cr or pr) kps_0 : kps_1 : kps_2 : kps_3 : kps_4 : kps_5 : kps_6 : kps_7 : kps_8 : kps_9 : kps_10 : kps_11 : kps_12 : anrx_0 : 0: anorexia anrx_1 : 1: anorexia anrx_2 : 2: anorexia anrx_3 : 3: anorexia anrx_4 : 4: anorexia anrx_5 : 5: anorexia anrx_6 : 6: anorexia anrx_7 : 7: anorexia anrx_8 : 8: anorexia anrx_9 : 9: anorexia anrx_10 : 10: anorexia anrx_11 : 11: anorexia anrx_12 : 12: anorexia ftg_0 : 0: fatigue ftg_1 : 1: fatigue ftg_2 : 2: fatigue ftg_3 : 3: fatigue ftg_4 : 4: fatigue ftg_5 : 5: fatigue ftg_6 : 6: fatigue ftg_7 : 7: fatigue ftg_8 : 8: fatigue ftg_9 : 9: fatigue ftg_10 : 10: fatigue ftg_11 : 11: fatigue ftg_12 : 12: fatigue cgh_0 : 0: cough cgh_1 : 1: cough cgh_2 : 2: cough cgh_3 : 3: cough cgh_4 : 4: cough cgh_5 : 5: cough cgh_6 : 6: cough SUMMARY OF ANALYSIS Number of groups 1 Number of observations 216 Number of dependent variables 8 Number of independent variables 0 Number of continuous latent variables 0 Observed dependent variables Continuous ANRX_0 FTG_0 CGH_0 DYSP_0 PAIN_0 SX_0 INTFR_0 QOL_0 Estimator MLR Rotation GEOMIN Row standardization CORRELATION Type of rotation OBLIQUE Epsilon value Varies Information matrix OBSERVED Maximum number of iterations 1000 Convergence criterion 0.500D-04 Maximum number of steepest descent iterations 20 Maximum number of iterations for H1 2000 Convergence criterion for H1 0.100D-03 Optimization Specifications for the Exploratory Factor Analysis Rotation Algorithm Number of random starts 30 Maximum number of iterations 10000 Derivative convergence criterion 0.100D-04 Input data file(s) all_wide.dat Input data format FREE SUMMARY OF DATA Number of missing data patterns 8 COVARIANCE COVERAGE OF DATA Minimum covariance coverage value 0.100 PROPORTION OF DATA PRESENT Covariance Coverage ANRX_0 FTG_0 CGH_0 DYSP_0 PAIN_0 ________ ________ ________ ________ ________ ANRX_0 0.995 FTG_0 0.991 0.991 CGH_0 0.995 0.991 1.000 DYSP_0 0.991 0.986 0.995 0.995 PAIN_0 0.991 0.986 0.995 0.991 0.995 SX_0 0.986 0.981 0.991 0.986 0.986 INTFR_0 0.991 0.986 0.995 0.991 0.991 QOL_0 0.991 0.986 0.991 0.986 0.986 Covariance Coverage SX_0 INTFR_0 QOL_0 ________ ________ ________ SX_0 0.991 INTFR_0 0.986 0.995 QOL_0 0.981 0.986 0.991 RESULTS FOR EXPLORATORY FACTOR ANALYSIS EIGENVALUES FOR SAMPLE CORRELATION MATRIX 1 2 3 4 5 ________ ________ ________ ________ ________ 1 4.187 0.981 0.695 0.677 0.469 EIGENVALUES FOR SAMPLE CORRELATION MATRIX 6 7 8 ________ ________ ________ 1 0.427 0.309 0.256 EXPLORATORY FACTOR ANALYSIS WITH 1 FACTOR(S): MODEL FIT INFORMATION Number of Free Parameters 24 Loglikelihood H0 Value -7846.840 H0 Scaling Correction Factor 1.083 for MLR H1 Value -7797.428 H1 Scaling Correction Factor 1.249 for MLR Information Criteria Akaike (AIC) 15741.680 Bayesian (BIC) 15822.687 Sample-Size Adjusted BIC 15746.635 (n* = (n + 2) / 24) Chi-Square Test of Model Fit Value 68.216* Degrees of Freedom 20 P-Value 0.0000 Scaling Correction Factor 1.449 for MLR * The chi-square value for MLM, MLMV, MLR, ULSMV, WLSM and WLSMV cannot be used for chi-square difference testing in the regular way. MLM, MLR and WLSM chi-square difference testing is described on the Mplus website. MLMV, WLSMV, and ULSMV difference testing is done using the DIFFTEST option. RMSEA (Root Mean Square Error Of Approximation) Estimate 0.106 90 Percent C.I. 0.079 0.134 Probability RMSEA <= .05 0.001 CFI/TLI CFI 0.898 TLI 0.857 Chi-Square Test of Model Fit for the Baseline Model Value 499.798 Degrees of Freedom 28 P-Value 0.0000 SRMR (Standardized Root Mean Square Residual) Value 0.055 MINIMUM ROTATION FUNCTION VALUE 3.68417 GEOMIN ROTATED LOADINGS 1 ________ ANRX_0 0.552 FTG_0 0.768 CGH_0 0.464 DYSP_0 0.687 PAIN_0 0.597 SX_0 0.741 INTFR_0 0.763 QOL_0 0.783 GEOMIN FACTOR CORRELATIONS 1 ________ 1 1.000 ESTIMATED RESIDUAL VARIANCES ANRX_0 FTG_0 CGH_0 DYSP_0 PAIN_0 ________ ________ ________ ________ ________ 1 0.695 0.410 0.785 0.528 0.644 ESTIMATED RESIDUAL VARIANCES SX_0 INTFR_0 QOL_0 ________ ________ ________ 1 0.450 0.417 0.387 S.E. GEOMIN ROTATED LOADINGS 1 ________ ANRX_0 0.055 FTG_0 0.046 CGH_0 0.066 DYSP_0 0.048 PAIN_0 0.053 SX_0 0.039 INTFR_0 0.051 QOL_0 0.048 S.E. GEOMIN FACTOR CORRELATIONS 1 ________ 1 0.000 S.E. ESTIMATED RESIDUAL VARIANCES ANRX_0 FTG_0 CGH_0 DYSP_0 PAIN_0 ________ ________ ________ ________ ________ 1 0.061 0.071 0.061 0.067 0.063 S.E. ESTIMATED RESIDUAL VARIANCES SX_0 INTFR_0 QOL_0 ________ ________ ________ 1 0.058 0.077 0.076 Est./S.E. GEOMIN ROTATED LOADINGS 1 ________ ANRX_0 10.034 FTG_0 16.633 CGH_0 7.019 DYSP_0 14.183 PAIN_0 11.268 SX_0 18.911 INTFR_0 15.085 QOL_0 16.190 Est./S.E. GEOMIN FACTOR CORRELATIONS 1 ________ 1 0.000 Est./S.E. ESTIMATED RESIDUAL VARIANCES ANRX_0 FTG_0 CGH_0 DYSP_0 PAIN_0 ________ ________ ________ ________ ________ 1 11.443 5.780 12.810 7.941 10.189 Est./S.E. ESTIMATED RESIDUAL VARIANCES SX_0 INTFR_0 QOL_0 ________ ________ ________ 1 7.743 5.400 5.107 EXPLORATORY FACTOR ANALYSIS WITH 2 FACTOR(S): MODEL FIT INFORMATION Number of Free Parameters 31 Loglikelihood H0 Value -7816.870 H0 Scaling Correction Factor 1.355 for MLR H1 Value -7797.428 H1 Scaling Correction Factor 1.249 for MLR Information Criteria Akaike (AIC) 15695.739 Bayesian (BIC) 15800.373 Sample-Size Adjusted BIC 15702.139 (n* = (n + 2) / 24) Chi-Square Test of Model Fit Value 38.999* Degrees of Freedom 13 P-Value 0.0002 Scaling Correction Factor 0.997 for MLR * The chi-square value for MLM, MLMV, MLR, ULSMV, WLSM and WLSMV cannot be used for chi-square difference testing in the regular way. MLM, MLR and WLSM chi-square difference testing is described on the Mplus website. MLMV, WLSMV, and ULSMV difference testing is done using the DIFFTEST option. RMSEA (Root Mean Square Error Of Approximation) Estimate 0.096 90 Percent C.I. 0.062 0.132 Probability RMSEA <= .05 0.015 CFI/TLI CFI 0.945 TLI 0.881 Chi-Square Test of Model Fit for the Baseline Model Value 499.798 Degrees of Freedom 28 P-Value 0.0000 SRMR (Standardized Root Mean Square Residual) Value 0.031 MINIMUM ROTATION FUNCTION VALUE 0.60718 GEOMIN ROTATED LOADINGS 1 2 ________ ________ ANRX_0 0.149 0.430 FTG_0 0.666 0.191 CGH_0 0.797 -0.245 DYSP_0 0.785 0.016 PAIN_0 0.207 0.414 SX_0 0.171 0.600 INTFR_0 0.000 0.816 QOL_0 -0.004 0.844 GEOMIN FACTOR CORRELATIONS 1 2 ________ ________ 1 1.000 2 0.715 1.000 ESTIMATED RESIDUAL VARIANCES ANRX_0 FTG_0 CGH_0 DYSP_0 PAIN_0 ________ ________ ________ ________ ________ 1 0.701 0.337 0.584 0.366 0.663 ESTIMATED RESIDUAL VARIANCES SX_0 INTFR_0 QOL_0 ________ ________ ________ 1 0.464 0.334 0.294 S.E. GEOMIN ROTATED LOADINGS 1 2 ________ ________ ANRX_0 0.269 0.245 FTG_0 0.313 0.341 CGH_0 0.158 0.215 DYSP_0 0.087 0.054 PAIN_0 0.303 0.288 SX_0 0.329 0.312 INTFR_0 0.064 0.090 QOL_0 0.086 0.071 S.E. GEOMIN FACTOR CORRELATIONS 1 2 ________ ________ 1 0.000 2 0.081 0.000 S.E. ESTIMATED RESIDUAL VARIANCES ANRX_0 FTG_0 CGH_0 DYSP_0 PAIN_0 ________ ________ ________ ________ ________ 1 0.060 0.081 0.093 0.141 0.062 S.E. ESTIMATED RESIDUAL VARIANCES SX_0 INTFR_0 QOL_0 ________ ________ ________ 1 0.074 0.093 0.082 Est./S.E. GEOMIN ROTATED LOADINGS 1 2 ________ ________ ANRX_0 0.553 1.753 FTG_0 2.128 0.559 CGH_0 5.053 -1.138 DYSP_0 9.071 0.291 PAIN_0 0.683 1.436 SX_0 0.520 1.920 INTFR_0 0.006 9.096 QOL_0 -0.051 11.818 Est./S.E. GEOMIN FACTOR CORRELATIONS 1 2 ________ ________ 1 0.000 2 8.784 0.000 Est./S.E. ESTIMATED RESIDUAL VARIANCES ANRX_0 FTG_0 CGH_0 DYSP_0 PAIN_0 ________ ________ ________ ________ ________ 1 11.719 4.150 6.290 2.596 10.618 Est./S.E. ESTIMATED RESIDUAL VARIANCES SX_0 INTFR_0 QOL_0 ________ ________ ________ 1 6.291 3.608 3.588 FACTOR STRUCTURE 1 2 ________ ________ ANRX_0 0.456 0.537 FTG_0 0.803 0.668 CGH_0 0.622 0.325 DYSP_0 0.796 0.577 PAIN_0 0.503 0.562 SX_0 0.600 0.722 INTFR_0 0.584 0.816 QOL_0 0.599 0.840 EXPLORATORY FACTOR ANALYSIS WITH 3 FACTOR(S): MODEL FIT INFORMATION Number of Free Parameters 37 Loglikelihood H0 Value -7802.289 H0 Scaling Correction Factor 1.238 for MLR H1 Value -7797.428 H1 Scaling Correction Factor 1.249 for MLR Information Criteria Akaike (AIC) 15678.577 Bayesian (BIC) 15803.463 Sample-Size Adjusted BIC 15686.216 (n* = (n + 2) / 24) Chi-Square Test of Model Fit Value 7.446* Degrees of Freedom 7 P-Value 0.3840 Scaling Correction Factor 1.306 for MLR * The chi-square value for MLM, MLMV, MLR, ULSMV, WLSM and WLSMV cannot be used for chi-square difference testing in the regular way. MLM, MLR and WLSM chi-square difference testing is described on the Mplus website. MLMV, WLSMV, and ULSMV difference testing is done using the DIFFTEST option. RMSEA (Root Mean Square Error Of Approximation) Estimate 0.017 90 Percent C.I. 0.000 0.087 Probability RMSEA <= .05 0.700 CFI/TLI CFI 0.999 TLI 0.996 Chi-Square Test of Model Fit for the Baseline Model Value 499.798 Degrees of Freedom 28 P-Value 0.0000 SRMR (Standardized Root Mean Square Residual) Value 0.017 MINIMUM ROTATION FUNCTION VALUE 0.20069 GEOMIN ROTATED LOADINGS 1 2 3 ________ ________ ________ ANRX_0 0.639 0.005 -0.085 FTG_0 0.544 0.376 0.008 CGH_0 0.183 0.475 -0.027 DYSP_0 -0.001 0.834 0.216 PAIN_0 0.684 -0.013 -0.048 SX_0 0.742 -0.034 0.079 INTFR_0 0.006 -0.011 1.105 QOL_0 0.509 0.068 0.294 GEOMIN FACTOR CORRELATIONS 1 2 3 ________ ________ ________ 1 1.000 2 0.512 1.000 3 0.640 0.307 1.000 ESTIMATED RESIDUAL VARIANCES ANRX_0 FTG_0 CGH_0 DYSP_0 PAIN_0 ________ ________ ________ ________ ________ 1 0.652 0.347 0.666 0.148 0.581 ESTIMATED RESIDUAL VARIANCES SX_0 INTFR_0 QOL_0 ________ ________ ________ 1 0.394 -0.222 0.411 S.E. GEOMIN ROTATED LOADINGS 1 2 3 ________ ________ ________ ANRX_0 0.196 0.065 0.290 FTG_0 0.256 0.166 0.036 CGH_0 0.301 0.192 0.157 DYSP_0 0.006 0.304 0.693 PAIN_0 0.255 0.080 0.350 SX_0 0.314 0.118 0.393 INTFR_0 0.011 0.055 0.566 QOL_0 0.299 0.155 0.412 S.E. GEOMIN FACTOR CORRELATIONS 1 2 3 ________ ________ ________ 1 0.000 2 0.410 0.000 3 0.485 0.527 0.000 S.E. ESTIMATED RESIDUAL VARIANCES ANRX_0 FTG_0 CGH_0 DYSP_0 PAIN_0 ________ ________ ________ ________ ________ 1 0.076 0.062 0.084 0.205 0.078 S.E. ESTIMATED RESIDUAL VARIANCES SX_0 INTFR_0 QOL_0 ________ ________ ________ 1 0.069 1.261 0.112 Est./S.E. GEOMIN ROTATED LOADINGS 1 2 3 ________ ________ ________ ANRX_0 3.257 0.073 -0.294 FTG_0 2.128 2.257 0.211 CGH_0 0.607 2.477 -0.174 DYSP_0 -0.093 2.747 0.311 PAIN_0 2.684 -0.168 -0.138 SX_0 2.362 -0.284 0.200 INTFR_0 0.520 -0.193 1.951 QOL_0 1.704 0.438 0.714 Est./S.E. GEOMIN FACTOR CORRELATIONS 1 2 3 ________ ________ ________ 1 0.000 2 1.251 0.000 3 1.320 0.583 0.000 Est./S.E. ESTIMATED RESIDUAL VARIANCES ANRX_0 FTG_0 CGH_0 DYSP_0 PAIN_0 ________ ________ ________ ________ ________ 1 8.539 5.635 7.944 0.722 7.459 Est./S.E. ESTIMATED RESIDUAL VARIANCES SX_0 INTFR_0 QOL_0 ________ ________ ________ 1 5.690 -0.176 3.666 FACTOR STRUCTURE 1 2 3 ________ ________ ________ ANRX_0 0.587 0.306 0.325 FTG_0 0.741 0.656 0.471 CGH_0 0.409 0.560 0.236 DYSP_0 0.565 0.900 0.472 PAIN_0 0.646 0.322 0.385 SX_0 0.775 0.371 0.543 INTFR_0 0.707 0.332 1.105 QOL_0 0.732 0.419 0.641 PLOT INFORMATION The following plots are available: Histograms (sample values) Scatterplots (sample values) Eigenvalues for exploratory factor analysis Beginning Time: 01:10:03 Ending Time: 01:10:03 Elapsed Time: 00:00:00 MUTHEN & MUTHEN 3463 Stoner Ave. Los Angeles, CA 90066 Tel: (310) 391-9971 Fax: (310) 391-8971 Web: www.StatModel.com Support: Support@StatModel.com Copyright (c) 1998-2010 Muthen & Muthen