Rviewed participants were significantly more often female (56 vs. 41 , X2 = 11.475, df = 1, p

Rviewed participants were significantly more often female (56 vs. 41 , X2 = 11.475, df = 1, p,.001), had experienced fewer traumatic war events (6.5 SD = 3.4 vs. 7.6 SD = 3.8, F = 14.210, df = 1.902, p,.001), had less often participated in war activities (22 vs. 39 , X2 = 12.253, df = 1, p,.001), and had experienced the most traumatic war event a shorter time before the study (9.1 SD = 3.2 vs. 10.0 SD = 3.1, F = 17.854, df = 902, p,.001). No significant differences in SIS3 manufacturer Baseline PTSD symptoms and SQOL levels were found. The main socio-demographic and clinical characteristics of the total sample and of the Balkan residents’ and refugees’ groups are summarized in Table 2. At the one year follow-up, the levels of SQOL were significantly improved in both samples and the scores of the IES-R subscales were significantly reduced (p,.001 for all paired t-tests). Linear regression models for association of changes in PTSD symptom clusters and SQOL in Balkan residents and refugees are reported in Table 3 and Table 4, respectively. In the univariable models, reduction in all symptom clusters levels was associated with improvements in SQOL. Besides symptoms, only gender and number of years since the end of the exposure to traumatic events had a significant association with SQOL at follow up. These variables were entered in the multivariable model, adjusted for baseline scores of all symptom clusters and SQOL. In the multivariable models, only changes in hyperarousal symptoms were correlated with SQOL changes. The results were consistent in both samples. The values of tests for multicollinearity for these multivariable models were in the acceptable range (all values of tolerance were above 0.1 and all values of VIF were less than 5). The four variables used in the cross-lagged panel analysis 11967625 (hyperarousal symptoms and SQOL both at baseline and at follow up) had a good internal consistency. Cronbach’s alpha values wereSymptoms and Subjective Quality of Life in PTSDTable 2. Patients’ characteristics.Total sample (n = 745) Age, mean (sd) Gender, female, n( ) Education in years, mean (sd) Married/partnership, n( ) Living alone, n( ) Unemployed, n( ) MANSA total score Baseline, mean (sd) Follow-up, mean (sd) IES-R intrusion subscale Baseline, mean (sd) Follow-up, mean (sd) IES-R hyperarousal subscale Baseline, mean (sd) Follow-up, mean (sd) IES-R avoidance subscale Baseline, mean (sd) Follow-up, mean (sd) doi:10.1371/journal.pone.0060991.t002 2.3 (0.9) 1.9 (1.0) 2.5 (1.0) 2.0 (1.1) 2.6 (0.9) 2.1 (1.1) 4.1 (1.0) 4.3 (0.9) 45.4 (10.8) 420 (56.4) 10.4 (3.7) 529 (71.0) 70 (9.4) 417 (56.0)Balkan residents (n = 530) 45.6 (11.1) 296 (55.8) 10.2 (3.6) 364 (68.7) 48 (9.1) 273 (51.5)Refugees (n = 215) 44.8 (10.2) 124 (57.7) 10.8 (4.0) 165 (76.7) 22 (10.2) 144 (67.0)4.1 (1.0) 4.2 (1.0)4.2 (1.0) 4.4 (0.8)2.5 (0.9) 2.0 (1.0)2.8 (0.9) 2.3 (1.2)2.5 (1.0) 2.0 (1.1)2.7 (1.0) 2.2 (1.3)2.2 (0.8) 1.8 (1.0)2.4 (0.9) 2.0 (1.0)0.861 for IES-R hyperarousal subscale at baseline, 0.910 for IESR hyperarousal subscale at follow-up, 0.810 for SQOL at baseline and 0.857 for SQOL at follow-up. These variables were, therefore, used in the model as measured variables without a need for creating latent variables. Figure 1 shows the results of the two-wave cross lagged panel analysis. SQOL and IES-R hyperarousal subscales scores had a significant inverse correlation at baseline (Pearson test’s value: 2.286, p,.01) and at Teriparatide manufacturer follow-up (Pearson test’s value: 2.430, p,.01), hence the variables.Rviewed participants were significantly more often female (56 vs. 41 , X2 = 11.475, df = 1, p,.001), had experienced fewer traumatic war events (6.5 SD = 3.4 vs. 7.6 SD = 3.8, F = 14.210, df = 1.902, p,.001), had less often participated in war activities (22 vs. 39 , X2 = 12.253, df = 1, p,.001), and had experienced the most traumatic war event a shorter time before the study (9.1 SD = 3.2 vs. 10.0 SD = 3.1, F = 17.854, df = 902, p,.001). No significant differences in baseline PTSD symptoms and SQOL levels were found. The main socio-demographic and clinical characteristics of the total sample and of the Balkan residents’ and refugees’ groups are summarized in Table 2. At the one year follow-up, the levels of SQOL were significantly improved in both samples and the scores of the IES-R subscales were significantly reduced (p,.001 for all paired t-tests). Linear regression models for association of changes in PTSD symptom clusters and SQOL in Balkan residents and refugees are reported in Table 3 and Table 4, respectively. In the univariable models, reduction in all symptom clusters levels was associated with improvements in SQOL. Besides symptoms, only gender and number of years since the end of the exposure to traumatic events had a significant association with SQOL at follow up. These variables were entered in the multivariable model, adjusted for baseline scores of all symptom clusters and SQOL. In the multivariable models, only changes in hyperarousal symptoms were correlated with SQOL changes. The results were consistent in both samples. The values of tests for multicollinearity for these multivariable models were in the acceptable range (all values of tolerance were above 0.1 and all values of VIF were less than 5). The four variables used in the cross-lagged panel analysis 11967625 (hyperarousal symptoms and SQOL both at baseline and at follow up) had a good internal consistency. Cronbach’s alpha values wereSymptoms and Subjective Quality of Life in PTSDTable 2. Patients’ characteristics.Total sample (n = 745) Age, mean (sd) Gender, female, n( ) Education in years, mean (sd) Married/partnership, n( ) Living alone, n( ) Unemployed, n( ) MANSA total score Baseline, mean (sd) Follow-up, mean (sd) IES-R intrusion subscale Baseline, mean (sd) Follow-up, mean (sd) IES-R hyperarousal subscale Baseline, mean (sd) Follow-up, mean (sd) IES-R avoidance subscale Baseline, mean (sd) Follow-up, mean (sd) doi:10.1371/journal.pone.0060991.t002 2.3 (0.9) 1.9 (1.0) 2.5 (1.0) 2.0 (1.1) 2.6 (0.9) 2.1 (1.1) 4.1 (1.0) 4.3 (0.9) 45.4 (10.8) 420 (56.4) 10.4 (3.7) 529 (71.0) 70 (9.4) 417 (56.0)Balkan residents (n = 530) 45.6 (11.1) 296 (55.8) 10.2 (3.6) 364 (68.7) 48 (9.1) 273 (51.5)Refugees (n = 215) 44.8 (10.2) 124 (57.7) 10.8 (4.0) 165 (76.7) 22 (10.2) 144 (67.0)4.1 (1.0) 4.2 (1.0)4.2 (1.0) 4.4 (0.8)2.5 (0.9) 2.0 (1.0)2.8 (0.9) 2.3 (1.2)2.5 (1.0) 2.0 (1.1)2.7 (1.0) 2.2 (1.3)2.2 (0.8) 1.8 (1.0)2.4 (0.9) 2.0 (1.0)0.861 for IES-R hyperarousal subscale at baseline, 0.910 for IESR hyperarousal subscale at follow-up, 0.810 for SQOL at baseline and 0.857 for SQOL at follow-up. These variables were, therefore, used in the model as measured variables without a need for creating latent variables. Figure 1 shows the results of the two-wave cross lagged panel analysis. SQOL and IES-R hyperarousal subscales scores had a significant inverse correlation at baseline (Pearson test’s value: 2.286, p,.01) and at follow-up (Pearson test’s value: 2.430, p,.01), hence the variables.