WTC neuroimaging meeting 06-01-22
All exposures, CTQ, TLEQ data now cleaned. Zoe is confirming a few ppt’s index_j but only n=1 who might potentially change groups depending on outcome. No exposures data for NWTC-091 yet, or more recent ppts (will be in next request from data center). All of the analyses here use the group assignment where 3 exposures = Lower-exposed group
Summary
- TLEQ:
- None of the chi square tests on the TLEQ item-level unweighted (i.e., binarized) variables were statistically significant using Fisher’s exact test with a threshold of p < 0.0007 (.05/(3 groups*23 items)).
- Linear models predicting TLEQ totals from group used a threshold of p < .004 (.05/3*4)
- There was a significant omnibus effect of group ONLY on non-weighted TLEQ total (includes childhood trauma)
- Post-hoc comparisons using same p <.004 threshold indicated that the PTSD group had higher scores vs. the Low-exposed group (p = .0012) (and possibly the Resilient group, p = .0046). Low-exposed and Resilient groups were not significantly different from each other in terms of non-weighted TLEQ total scores.
- CTQ:
- Linear models predicting CTQ scores from group used a threshold of p < .003 (.05/(3*6))
- There was a significant omnibus effect of group on the CTQ total as well as all other CTQ subscales except for
CTQ sexual abuse- Post-hoc comparisons using same p <.003 threshold indicated that the PTSD group had higher scores compared to the other two groups.
- Resilient and Low-exposed groups did not differ from each other.
- Post-hoc comparisons using same p <.003 threshold indicated that the PTSD group had higher scores compared to the other two groups.
- WTC exposures:
- Chi square tests for group differences on the exposure variables
index_a(arrived 9/11-9/13),index_c(worked on or adjacent to pit/pile),index_h(know someone injured) were statistically significant using Fisher’s exact test with a threshold of p < 0.00167 (.05/(3*10)). - Note:
- Group differences are all between the low-exposed and other groups, not PTSD & Resilient groups.
- Chi square tests for group differences on the exposure variables
Groups when 3 exposures = lower-exposed
TLEQ items (non-weighted)
Figure: TLEQ items (non-weighted) by group
Blue = proportion of group endorsing at least one incidence of a given event. Red = Never experienced that event.
Chi square tests of association between group and TLEQ items (non-weighted)
Bonferroni correction will be p < 0.0007 (.05/(3*23))
TLEQ item 1
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
==============================================================
data$group_3low
data$use.tleq_1bin Low-exposed PTSD Resilient Total
--------------------------------------------------------------
0 5 2 12 19
expected 5.0 5.5 8.5
row prop. 0.263 0.105 0.632 0.275
std. res. 0.020 -1.495 1.186
--------------------------------------------------------------
1 13 18 19 50
expected 13.0 14.5 22.5
row prop. 0.260 0.360 0.380 0.725
std. res. -0.012 0.921 -0.731
--------------------------------------------------------------
Total 18 20 31 69
==============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.076 TLEQ item 2
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
==============================================================
data$group_3low
data$use.tleq_2bin Low-exposed PTSD Resilient Total
--------------------------------------------------------------
0 13 8 21 42
expected 11.0 12.2 18.9
row prop. 0.310 0.190 0.500 0.609
std. res. 0.617 -1.196 0.490
--------------------------------------------------------------
1 5 12 10 27
expected 7.0 7.8 12.1
row prop. 0.185 0.444 0.370 0.391
std. res. -0.770 1.492 -0.612
--------------------------------------------------------------
Total 18 20 31 69
==============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.0875 TLEQ item 3
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
==============================================================
data$group_3low
data$use.tleq_3bin Low-exposed PTSD Resilient Total
--------------------------------------------------------------
0 14 8 21 43
expected 11.2 12.5 19.3
row prop. 0.326 0.186 0.488 0.623
std. res. 0.831 -1.264 0.382
--------------------------------------------------------------
1 4 12 10 26
expected 6.8 7.5 11.7
row prop. 0.154 0.462 0.385 0.377
std. res. -1.068 1.626 -0.492
--------------------------------------------------------------
Total 18 20 31 69
==============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.0413 TLEQ item 4
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
==============================================================
data$group_3low
data$use.tleq_4bin Low-exposed PTSD Resilient Total
--------------------------------------------------------------
0 14 15 29 58
expected 15.1 16.8 26.1
row prop. 0.241 0.259 0.500 0.841
std. res. -0.291 -0.442 0.576
--------------------------------------------------------------
1 4 5 2 11
expected 2.9 3.2 4.9
row prop. 0.364 0.455 0.182 0.159
std. res. 0.667 1.015 -1.323
--------------------------------------------------------------
Total 18 20 31 69
==============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.128 TLEQ item 5
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
==============================================================
data$group_3low
data$use.tleq_5bin Low-exposed PTSD Resilient Total
--------------------------------------------------------------
0 5 0 5 10
expected 2.6 2.9 4.5
row prop. 0.500 0.000 0.500 0.145
std. res. 1.481 -1.703 0.239
--------------------------------------------------------------
1 13 20 26 59
expected 15.4 17.1 26.5
row prop. 0.220 0.339 0.441 0.855
std. res. -0.610 0.701 -0.099
--------------------------------------------------------------
Total 18 20 31 69
==============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.0319 TLEQ item 6
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
==============================================================
data$group_3low
data$use.tleq_6bin Low-exposed PTSD Resilient Total
--------------------------------------------------------------
0 7 5 9 21
expected 5.5 6.1 9.4
row prop. 0.333 0.238 0.429 0.304
std. res. 0.650 -0.441 -0.142
--------------------------------------------------------------
1 11 15 22 48
expected 12.5 13.9 21.6
row prop. 0.229 0.312 0.458 0.696
std. res. -0.430 0.291 0.094
--------------------------------------------------------------
Total 18 20 31 69
==============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.635 TLEQ item 7
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
==============================================================
data$group_3low
data$use.tleq_7bin Low-exposed PTSD Resilient Total
--------------------------------------------------------------
0 16 15 28 59
expected 15.4 17.1 26.5
row prop. 0.271 0.254 0.475 0.855
std. res. 0.155 -0.508 0.290
--------------------------------------------------------------
1 2 5 3 10
expected 2.6 2.9 4.5
row prop. 0.200 0.500 0.300 0.145
std. res. -0.377 1.234 -0.704
--------------------------------------------------------------
Total 18 20 31 69
==============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.342 TLEQ item 8
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
==============================================================
data$group_3low
data$use.tleq_8bin Low-exposed PTSD Resilient Total
--------------------------------------------------------------
0 13 11 19 43
expected 11.2 12.5 19.3
row prop. 0.302 0.256 0.442 0.623
std. res. 0.532 -0.415 -0.073
--------------------------------------------------------------
1 5 9 12 26
expected 6.8 7.5 11.7
row prop. 0.192 0.346 0.462 0.377
std. res. -0.684 0.533 0.093
--------------------------------------------------------------
Total 18 20 31 69
==============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.564 TLEQ item 9
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
==============================================================
data$group_3low
data$use.tleq_9bin Low-exposed PTSD Resilient Total
--------------------------------------------------------------
0 15 13 24 52
expected 13.6 15.1 23.4
row prop. 0.288 0.250 0.462 0.754
std. res. 0.390 -0.534 0.132
--------------------------------------------------------------
1 3 7 7 17
expected 4.4 4.9 7.6
row prop. 0.176 0.412 0.412 0.246
std. res. -0.681 0.934 -0.231
--------------------------------------------------------------
Total 18 20 31 69
==============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.401 TLEQ item 10
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
===============================================================
data$group_3low
data$use.tleq_10bin Low-exposed PTSD Resilient Total
---------------------------------------------------------------
0 13 7 17 37
expected 9.7 10.7 16.6
row prop. 0.351 0.189 0.459 0.536
std. res. 1.078 -1.137 0.092
---------------------------------------------------------------
1 5 13 14 32
expected 8.3 9.3 14.4
row prop. 0.156 0.406 0.438 0.464
std. res. -1.159 1.223 -0.099
---------------------------------------------------------------
Total 18 20 31 69
===============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.0788 TLEQ item 11
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
===============================================================
data$group_3low
data$use.tleq_11bin Low-exposed PTSD Resilient Total
---------------------------------------------------------------
0 12 10 17 39
expected 10.2 11.3 17.5
row prop. 0.308 0.256 0.436 0.565
std. res. 0.573 -0.388 -0.125
---------------------------------------------------------------
1 6 10 14 30
expected 7.8 8.7 13.5
row prop. 0.200 0.333 0.467 0.435
std. res. -0.653 0.442 0.142
---------------------------------------------------------------
Total 18 20 31 69
===============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.579 TLEQ item 12
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
===============================================================
data$group_3low
data$use.tleq_12bin Low-exposed PTSD Resilient Total
---------------------------------------------------------------
0 17 15 30 62
expected 16.2 18.0 27.9
row prop. 0.274 0.242 0.484 0.899
std. res. 0.205 -0.701 0.406
---------------------------------------------------------------
1 1 5 1 7
expected 1.8 2.0 3.1
row prop. 0.143 0.714 0.143 0.101
std. res. -0.611 2.086 -1.210
---------------------------------------------------------------
Total 18 20 31 69
===============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.0391 TLEQ item 13
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
===============================================================
data$group_3low
data$use.tleq_13bin Low-exposed PTSD Resilient Total
---------------------------------------------------------------
0 15 10 24 49
expected 12.8 14.2 22.0
row prop. 0.306 0.204 0.490 0.710
std. res. 0.620 -1.115 0.423
---------------------------------------------------------------
1 3 10 7 20
expected 5.2 5.8 9.0
row prop. 0.150 0.500 0.350 0.290
std. res. -0.971 1.746 -0.662
---------------------------------------------------------------
Total 18 20 31 69
===============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.0505 TLEQ item 14
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
===============================================================
data$group_3low
data$use.tleq_14bin Low-exposed PTSD Resilient Total
---------------------------------------------------------------
0 17 18 27 62
expected 16.2 18.0 27.9
row prop. 0.274 0.290 0.435 0.899
std. res. 0.205 0.007 -0.162
---------------------------------------------------------------
1 1 2 4 7
expected 1.8 2.0 3.1
row prop. 0.143 0.286 0.571 0.101
std. res. -0.611 -0.020 0.482
---------------------------------------------------------------
Total 18 20 31 69
===============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.879 TLEQ item 15
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
===============================================================
data$group_3low
data$use.tleq_15bin Low-exposed PTSD Resilient Total
---------------------------------------------------------------
0 17 17 28 62
expected 16.2 18.0 27.9
row prop. 0.274 0.274 0.452 0.899
std. res. 0.205 -0.229 0.027
---------------------------------------------------------------
1 1 3 3 7
expected 1.8 2.0 3.1
row prop. 0.143 0.429 0.429 0.101
std. res. -0.611 0.682 -0.082
---------------------------------------------------------------
Total 18 20 31 69
===============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.69 TLEQ item 16
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
===============================================================
data$group_3low
data$use.tleq_16bin Low-exposed PTSD Resilient Total
---------------------------------------------------------------
0 17 17 30 64
expected 16.7 18.6 28.8
row prop. 0.266 0.266 0.469 0.928
std. res. 0.074 -0.360 0.232
---------------------------------------------------------------
1 1 3 1 5
expected 1.3 1.4 2.2
row prop. 0.200 0.600 0.200 0.072
std. res. -0.266 1.288 -0.832
---------------------------------------------------------------
Total 18 20 31 69
===============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.371 TLEQ item 17
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
===============================================================
data$group_3low
data$use.tleq_17bin Low-exposed PTSD Resilient Total
---------------------------------------------------------------
0 18 19 28 65
expected 17.0 18.8 29.2
row prop. 0.277 0.292 0.431 0.942
std. res. 0.253 0.037 -0.223
---------------------------------------------------------------
1 0 1 3 4
expected 1.0 1.2 1.8
row prop. 0.000 0.250 0.750 0.058
std. res. -1.022 -0.148 0.897
---------------------------------------------------------------
Total 18 20 31 69
===============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.574 TLEQ item 18
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
===============================================================
data$group_3low
data$use.tleq_18bin Low-exposed PTSD Resilient Total
---------------------------------------------------------------
0 17 18 31 66
expected 17.2 19.1 29.7
row prop. 0.258 0.273 0.470 0.957
std. res. -0.052 -0.258 0.248
---------------------------------------------------------------
1 1 2 0 3
expected 0.8 0.9 1.3
row prop. 0.333 0.667 0.000 0.043
std. res. 0.246 1.212 -1.161
---------------------------------------------------------------
Total 18 20 31 69
===============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.161 TLEQ item 19
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
===============================================================
data$group_3low
data$use.tleq_19bin Low-exposed PTSD Resilient Total
---------------------------------------------------------------
0 17 17 29 63
expected 16.4 18.3 28.3
row prop. 0.270 0.270 0.460 0.913
std. res. 0.139 -0.295 0.131
---------------------------------------------------------------
1 1 3 2 6
expected 1.6 1.7 2.7
row prop. 0.167 0.500 0.333 0.087
std. res. -0.452 0.956 -0.424
---------------------------------------------------------------
Total 18 20 31 69
===============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.55 TLEQ item 20
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
===============================================================
data$group_3low
data$use.tleq_20bin Low-exposed PTSD Resilient Total
---------------------------------------------------------------
0 14 16 29 59
expected 15.4 17.1 26.5
row prop. 0.237 0.271 0.492 0.855
std. res. -0.355 -0.266 0.484
---------------------------------------------------------------
1 4 4 2 10
expected 2.6 2.9 4.5
row prop. 0.400 0.400 0.200 0.145
std. res. 0.861 0.647 -1.176
---------------------------------------------------------------
Total 18 20 31 69
===============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.183 TLEQ item 21
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
===============================================================
data$group_3low
data$use.tleq_21bin Low-exposed PTSD Resilient Total
---------------------------------------------------------------
0 11 15 18 44
expected 11.5 12.8 19.8
row prop. 0.250 0.341 0.409 0.638
std. res. -0.141 0.629 -0.398
---------------------------------------------------------------
1 7 5 13 25
expected 6.5 7.2 11.2
row prop. 0.280 0.200 0.520 0.362
std. res. 0.187 -0.834 0.528
---------------------------------------------------------------
Total 18 20 31 69
===============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.476 TLEQ item 22
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
===============================================================
data$group_3low
data$use.tleq_22bin Low-exposed PTSD Resilient Total
---------------------------------------------------------------
0 14 16 20 50
expected 13.0 14.5 22.5
row prop. 0.280 0.320 0.400 0.725
std. res. 0.265 0.396 -0.520
---------------------------------------------------------------
1 4 4 11 19
expected 5.0 5.5 8.5
row prop. 0.211 0.211 0.579 0.275
std. res. -0.430 -0.642 0.843
---------------------------------------------------------------
Total 18 20 31 69
===============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.455 TLEQ item 23
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
===============================================================
data$group_3low
data$use.tleq_23bin Low-exposed PTSD Resilient Total
---------------------------------------------------------------
0 6 3 9 18
expected 4.7 5.2 8.1
row prop. 0.333 0.167 0.500 0.261
std. res. 0.602 -0.971 0.321
---------------------------------------------------------------
1 12 17 22 51
expected 13.3 14.8 22.9
row prop. 0.235 0.333 0.431 0.739
std. res. -0.358 0.577 -0.191
---------------------------------------------------------------
Total 18 20 31 69
===============================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.388 TLEQ totals (weighted and non-weighted)
Figure: TLEQ totals by group
Linear models & post-hoc comparisons
Bonferroni correction will be p < 0.004 (.05/(3*4))
Total (weighted)
Call:
lm(formula = TLEQ_total_W ~ group_3low, data = data)
Residuals:
Min 1Q Median 3Q Max
-13.3000 -5.2903 0.4444 3.7000 23.7097
Coefficients:
Estimate Std. Error t value Pr(>|t|)
(Intercept) 10.556 1.717 6.149 0.0000000511
group_3lowPTSD 6.744 2.366 2.850 0.00582
group_3lowResilient 2.735 2.158 1.267 0.20957
Residual standard error: 7.283 on 66 degrees of freedom
Multiple R-squared: 0.1122, Adjusted R-squared: 0.08525
F-statistic: 4.169 on 2 and 66 DF, p-value: 0.01973Total (non-weighted)*
Call:
lm(formula = TLEQ_total_nonW ~ group_3low, data = data)
Residuals:
Min 1Q Median 3Q Max
-6.2500 -1.9444 0.0556 2.0556 7.7500
Coefficients:
Estimate Std. Error t value Pr(>|t|)
(Intercept) 5.9444 0.7125 8.343 0.00000000000644
group_3lowPTSD 3.3056 0.9821 3.366 0.00128
group_3lowResilient 0.7652 0.8958 0.854 0.39604
Residual standard error: 3.023 on 66 degrees of freedom
Multiple R-squared: 0.1656, Adjusted R-squared: 0.1404
F-statistic: 6.552 on 2 and 66 DF, p-value: 0.002539
$emmeans
group_3low emmean SE df lower.CL upper.CL
Low-exposed 5.94 0.712 66 4.52 7.37
PTSD 9.25 0.676 66 7.90 10.60
Resilient 6.71 0.543 66 5.63 7.79
Confidence level used: 0.95
$contrasts
contrast estimate SE df t.ratio p.value
(Low-exposed) - PTSD -3.306 0.982 66 -3.366 0.0013
(Low-exposed) - Resilient -0.765 0.896 66 -0.854 0.3960
PTSD - Resilient 2.540 0.867 66 2.930 0.0046Total (excluding childhood trauma, weighted)
Call:
lm(formula = TLEQ_total_exclCT_W ~ group_3low, data = data)
Residuals:
Min 1Q Median 3Q Max
-10.200 -5.097 -0.200 4.111 17.903
Coefficients:
Estimate Std. Error t value Pr(>|t|)
(Intercept) 9.889 1.500 6.594 0.00000000848
group_3lowPTSD 4.311 2.067 2.086 0.0409
group_3lowResilient 2.208 1.885 1.171 0.2458
Residual standard error: 6.362 on 66 degrees of freedom
Multiple R-squared: 0.06185, Adjusted R-squared: 0.03342
F-statistic: 2.176 on 2 and 66 DF, p-value: 0.1216Total (excluding childhood trauma, non-weighted)
Call:
lm(formula = TLEQ_total_exclCT_nonW ~ group_3low, data = data)
Residuals:
Min 1Q Median 3Q Max
-5.6111 -1.6111 -0.2258 1.8500 6.8500
Coefficients:
Estimate Std. Error t value Pr(>|t|)
(Intercept) 5.6111 0.6278 8.938 0.000000000000561
group_3lowPTSD 2.5389 0.8654 2.934 0.0046
group_3lowResilient 0.6147 0.7893 0.779 0.4389
Residual standard error: 2.664 on 66 degrees of freedom
Multiple R-squared: 0.13, Adjusted R-squared: 0.1036
F-statistic: 4.93 on 2 and 66 DF, p-value: 0.0101Childhood trauma (CTQ)
Figure: CTQ totals by group
Warning: Removed 1 rows containing non-finite values (stat_boxplot).
Warning: Removed 1 rows containing non-finite values (stat_boxplot).
Warning: Removed 1 rows containing non-finite values (stat_boxplot).
Linear models & post-hoc comparisons
Bonferroni correction will be p < 0.003 (.05/(3*6))
CTQ overall total*
Call:
lm(formula = CTQ_total ~ group_3low, data = data)
Residuals:
Min 1Q Median 3Q Max
-16.737 -3.499 -1.419 1.581 55.263
Coefficients:
Estimate Std. Error t value Pr(>|t|)
(Intercept) 40.5000 2.2191 18.250 < 0.0000000000000002
group_3lowPTSD 12.2368 3.0968 3.951 0.000194
group_3lowResilient 0.9194 2.7900 0.330 0.742822
Residual standard error: 9.415 on 65 degrees of freedom
(1 observation deleted due to missingness)
Multiple R-squared: 0.245, Adjusted R-squared: 0.2217
F-statistic: 10.55 on 2 and 65 DF, p-value: 0.0001081
$emmeans
group_3low emmean SE df lower.CL upper.CL
Low-exposed 40.5 2.22 65 36.1 44.9
PTSD 52.7 2.16 65 48.4 57.1
Resilient 41.4 1.69 65 38.0 44.8
Confidence level used: 0.95
$contrasts
contrast estimate SE df t.ratio p.value
(Low-exposed) - PTSD -12.237 3.10 65 -3.951 0.0002
(Low-exposed) - Resilient -0.919 2.79 65 -0.330 0.7428
PTSD - Resilient 11.317 2.74 65 4.126 0.0001CTQ emotional abuse*
Call:
lm(formula = CTQ_emoAbuse ~ group_3low, data = data)
Residuals:
Min 1Q Median 3Q Max
-4.4737 -0.8333 -0.7742 0.2258 15.5263
Coefficients:
Estimate Std. Error t value Pr(>|t|)
(Intercept) 5.83333 0.72245 8.074 0.0000000000215
group_3lowPTSD 3.64035 1.00816 3.611 0.000594
group_3lowResilient -0.05914 0.90829 -0.065 0.948285
Residual standard error: 3.065 on 65 degrees of freedom
(1 observation deleted due to missingness)
Multiple R-squared: 0.2327, Adjusted R-squared: 0.2091
F-statistic: 9.858 on 2 and 65 DF, p-value: 0.0001823
$emmeans
group_3low emmean SE df lower.CL upper.CL
Low-exposed 5.83 0.722 65 4.39 7.28
PTSD 9.47 0.703 65 8.07 10.88
Resilient 5.77 0.551 65 4.67 6.87
Confidence level used: 0.95
$contrasts
contrast estimate SE df t.ratio p.value
(Low-exposed) - PTSD -3.6404 1.008 65 -3.611 0.0006
(Low-exposed) - Resilient 0.0591 0.908 65 0.065 0.9483
PTSD - Resilient 3.6995 0.893 65 4.143 0.0001CTQ emotional neglect*
Call:
lm(formula = CTQ_emoNeglect ~ group_3low, data = data)
Residuals:
Min 1Q Median 3Q Max
-6.00 -2.29 -0.75 1.50 14.00
Coefficients:
Estimate Std. Error t value Pr(>|t|)
(Intercept) 6.5000 0.8478 7.667 0.000000000114
group_3lowPTSD 4.5000 1.1830 3.804 0.000317
group_3lowResilient 0.7903 1.0658 0.742 0.461061
Residual standard error: 3.597 on 65 degrees of freedom
(1 observation deleted due to missingness)
Multiple R-squared: 0.212, Adjusted R-squared: 0.1877
F-statistic: 8.741 on 2 and 65 DF, p-value: 0.0004344
contrast estimate SE df t.ratio p.value
(Low-exposed) - PTSD -4.50 1.18 65 -3.804 0.0003
(Low-exposed) - Resilient -0.79 1.07 65 -0.742 0.4611
PTSD - Resilient 3.71 1.05 65 3.540 0.0007CTQ physical abuse*
Call:
lm(formula = CTQ_physAbuse ~ group_3low, data = data)
Residuals:
Min 1Q Median 3Q Max
-2.8000 -0.7778 -0.6129 0.3871 5.2000
Coefficients:
Estimate Std. Error t value Pr(>|t|)
(Intercept) 5.7778 0.3573 16.171 < 0.0000000000000002
group_3lowPTSD 2.0222 0.4925 4.106 0.000113
group_3lowResilient -0.1649 0.4492 -0.367 0.714771
Residual standard error: 1.516 on 66 degrees of freedom
Multiple R-squared: 0.2985, Adjusted R-squared: 0.2772
F-statistic: 14.04 on 2 and 66 DF, p-value: 0.000008296
$emmeans
group_3low emmean SE df lower.CL upper.CL
Low-exposed 5.78 0.357 66 5.06 6.49
PTSD 7.80 0.339 66 7.12 8.48
Resilient 5.61 0.272 66 5.07 6.16
Confidence level used: 0.95
$contrasts
contrast estimate SE df t.ratio p.value
(Low-exposed) - PTSD -2.022 0.493 66 -4.106 0.0001
(Low-exposed) - Resilient 0.165 0.449 66 0.367 0.7148
PTSD - Resilient 2.187 0.435 66 5.030 <.0001CTQ physical neglect*
Call:
lm(formula = CTQ_physNeglect ~ group_3low, data = data)
Residuals:
Min 1Q Median 3Q Max
-3.6000 -0.6111 -0.4839 0.4000 15.4000
Coefficients:
Estimate Std. Error t value Pr(>|t|)
(Intercept) 5.6111 0.6036 9.296 0.00000000000013 ***
group_3lowPTSD 2.9889 0.8320 3.592 0.000625 ***
group_3lowResilient -0.1272 0.7589 -0.168 0.867354
---
Signif. codes: 0 ‘***’ 0.001 ‘**’ 0.01 ‘*’ 0.05 ‘.’ 0.1 ‘ ’ 1
Residual standard error: 2.561 on 66 degrees of freedom
Multiple R-squared: 0.2364, Adjusted R-squared: 0.2133
F-statistic: 10.22 on 2 and 66 DF, p-value: 0.0001363
contrast estimate SE df t.ratio p.value
(Low-exposed) - PTSD -2.989 0.832 66 -3.592 0.0006
(Low-exposed) - Resilient 0.127 0.759 66 0.168 0.8674
PTSD - Resilient 3.116 0.734 66 4.243 0.0001CTQ sexual abuse
Call:
lm(formula = CTQ_sexAbuse ~ group_3low, data = data)
Residuals:
Min 1Q Median 3Q Max
-2.9500 -0.9355 -0.9355 -0.1667 18.0645
Coefficients:
Estimate Std. Error t value Pr(>|t|)
(Intercept) 5.1667 0.9827 5.257 0.00000169
group_3lowPTSD 2.7833 1.3546 2.055 0.0439
group_3lowResilient 0.7688 1.2355 0.622 0.5359
Residual standard error: 4.169 on 66 degrees of freedom
Multiple R-squared: 0.06645, Adjusted R-squared: 0.03816
F-statistic: 2.349 on 2 and 66 DF, p-value: 0.1034WTC Exposures
Figure: Exposures by group
Blue = proportion of group endorsing a given exposure (as defined by the data center). Red = Never experienced that exposure. n=1 has missing data across all vars - haven’t received from data center yet (NWTC-091, PTSD group).
Chi square tests of association between group and n exposures
Bonferroni correction will be p < 0.00167 (.05/(3*10))
index a*
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
========================================================
data$group_3low
data$index_a Low-exposed PTSD Resilient Total
--------------------------------------------------------
0 11 1 0 12
expected 3.2 3.4 5.5
row prop. 0.917 0.083 0.000 0.176
std. res. 4.390 -1.285 -2.339
--------------------------------------------------------
1 7 18 31 56
expected 14.8 15.6 25.5
row prop. 0.125 0.321 0.554 0.824
std. res. -2.032 0.595 1.083
--------------------------------------------------------
Total 18 19 31 68
========================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.0000000925 - Association between
groupandindex_a(arrived early) frequency IS statistically significant - lower-exposed more 0, fewer 1 than expected
- resilient fewer 0 than expected
post-hoc tests
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Col Total |
|-------------------------|
==========================================
tmp$group_3low
tmp$index_a Low-exposed PTSD Total
------------------------------------------
0 11 1 12
expected 5.8 6.2
col prop. 0.611 0.053
------------------------------------------
1 7 18 25
expected 12.2 12.8
col prop. 0.389 0.947
------------------------------------------
Total 18 19 37
0.486 0.514
==========================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Sample estimate odds ratio: 25.47717
Alternative hypothesis: true odds ratio is not equal to 1
p = 0.000364
95% confidence interval: 2.82804 1272.192
Alternative hypothesis: true odds ratio is less than 1
p = 1
95%s confidence interval: % 0 633.5067
Alternative hypothesis: true odds ratio is greater than 1
p = 0.000336
95%s confidence interval: % 3.585891 Inf
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Col Total |
|-------------------------|
========================================
tmp$group_3low
tmp$index_a PTSD Resilient Total
----------------------------------------
0 1 0 1
expected 0.4 0.6
col prop. 0.053 0.000
----------------------------------------
1 18 31 49
expected 18.6 30.4
col prop. 0.947 1.000
----------------------------------------
Total 19 31 50
0.38 0.62
========================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Sample estimate odds ratio: Inf
Alternative hypothesis: true odds ratio is not equal to 1
p = 0.38
95% confidence interval: 0.04183514 Inf
Alternative hypothesis: true odds ratio is less than 1
p = 1
95%s confidence interval: % 0 Inf
Alternative hypothesis: true odds ratio is greater than 1
p = 0.38
95%s confidence interval: % 0.08586954 Inf
Cell Contents
|-------------------------|
| N |
| Expected N |
|-------------------------|
==============================================
tmp$group_3low
tmp$index_a Low-exposed Resilient Total
----------------------------------------------
0 11 0 11
expected 4 7
----------------------------------------------
1 7 31 38
expected 14 24
----------------------------------------------
Total 18 31 49
==============================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Sample estimate odds ratio: Inf
Alternative hypothesis: true odds ratio is not equal to 1
p = 0.00000109
95% confidence interval: 8.077681 Inf
Alternative hypothesis: true odds ratio is less than 1
p = 1
95%s confidence interval: % 0 Inf
Alternative hypothesis: true odds ratio is greater than 1
p = 0.00000109
95%s confidence interval: % 10.5827 Inf index b
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
========================================================
data$group_3low
data$index_b Low-exposed PTSD Resilient Total
--------------------------------------------------------
0 18 12 20 50
expected 13.2 14.0 22.8
row prop. 0.360 0.240 0.400 0.735
std. res. 1.310 -0.527 -0.585
--------------------------------------------------------
1 0 7 11 18
expected 4.8 5.0 8.2
row prop. 0.000 0.389 0.611 0.265
std. res. -2.183 0.879 0.975
--------------------------------------------------------
Total 18 19 31 68
========================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.0047 Comparisons do not survive Bonferroni correction for 3*10 comparisons (.00167)
index c*
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
========================================================
data$group_3low
data$index_c Low-exposed PTSD Resilient Total
--------------------------------------------------------
0 10 3 1 14
expected 3.7 3.9 6.4
row prop. 0.714 0.214 0.071 0.206
std. res. 3.270 -0.461 -2.131
--------------------------------------------------------
1 8 16 30 54
expected 14.3 15.1 24.6
row prop. 0.148 0.296 0.556 0.794
std. res. -1.665 0.235 1.085
--------------------------------------------------------
Total 18 19 31 68
========================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.0000542 - Association between
groupandindex_c(worked on or adjacent to pit/pile) frequency IS statistically significant - lower-exposed more 0 than expected
- resilient fewer 0 than expected
post-hoc tests
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Col Total |
|-------------------------|
==========================================
tmp$group_3low
tmp$index_c Low-exposed PTSD Total
------------------------------------------
0 10 3 13
expected 6.3 6.7
col prop. 0.556 0.158
------------------------------------------
1 8 16 24
expected 11.7 12.3
col prop. 0.444 0.842
------------------------------------------
Total 18 19 37
0.486 0.514
==========================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Sample estimate odds ratio: 6.298169
Alternative hypothesis: true odds ratio is not equal to 1
p = 0.017
95% confidence interval: 1.184133 45.90918
Alternative hypothesis: true odds ratio is less than 1
p = 0.998
95%s confidence interval: % 0 33.83905
Alternative hypothesis: true odds ratio is greater than 1
p = 0.0135
95%s confidence interval: % 1.465824 Inf
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Col Total |
|-------------------------|
========================================
tmp$group_3low
tmp$index_c PTSD Resilient Total
----------------------------------------
0 3 1 4
expected 1.5 2.5
col prop. 0.158 0.032
----------------------------------------
1 16 30 46
expected 17.5 28.5
col prop. 0.842 0.968
----------------------------------------
Total 19 31 50
0.38 0.62
========================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Sample estimate odds ratio: 5.427659
Alternative hypothesis: true odds ratio is not equal to 1
p = 0.147
95% confidence interval: 0.3988767 304.3108
Alternative hypothesis: true odds ratio is less than 1
p = 0.983
95%s confidence interval: % 0 150.1039
Alternative hypothesis: true odds ratio is greater than 1
p = 0.147
95%s confidence interval: % 0.5520107 Inf
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Col Total |
|-------------------------|
==============================================
tmp$group_3low
tmp$index_c Low-exposed Resilient Total
----------------------------------------------
0 10 1 11
expected 4 7
col prop. 0.556 0.032
----------------------------------------------
1 8 30 38
expected 14 24
col prop. 0.444 0.968
----------------------------------------------
Total 18 31 49
0.367 0.633
==============================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Sample estimate odds ratio: 34.09547
Alternative hypothesis: true odds ratio is not equal to 1
p = 0.0000476
95% confidence interval: 3.926723 1661.183
Alternative hypothesis: true odds ratio is less than 1
p = 1
95%s confidence interval: % 0 829.8727
Alternative hypothesis: true odds ratio is greater than 1
p = 0.0000476
95%s confidence interval: % 4.956031 Inf index d
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
========================================================
data$group_3low
data$index_d Low-exposed PTSD Resilient Total
--------------------------------------------------------
0 12 9 7 28
expected 7.4 7.8 12.8
row prop. 0.429 0.321 0.250 0.412
std. res. 1.685 0.421 -1.614
--------------------------------------------------------
1 6 10 24 40
expected 10.6 11.2 18.2
row prop. 0.150 0.250 0.600 0.588
std. res. -1.410 -0.352 1.350
--------------------------------------------------------
Total 18 19 31 68
========================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.00871 Comparisons do not survive Bonferroni correction for 3*10 comparisons (.00167)
index e
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
========================================================
data$group_3low
data$index_e Low-exposed PTSD Resilient Total
--------------------------------------------------------
0 14 10 9 33
expected 8.7 9.2 15.0
row prop. 0.424 0.303 0.273 0.485
std. res. 1.781 0.257 -1.558
--------------------------------------------------------
1 4 9 22 35
expected 9.3 9.8 16.0
row prop. 0.114 0.257 0.629 0.515
std. res. -1.730 -0.249 1.513
--------------------------------------------------------
Total 18 19 31 68
========================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.00382 Comparisons do not survive Bonferroni correction for 3*10 comparisons (.00167)
index f
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
========================================================
data$group_3low
data$index_f Low-exposed PTSD Resilient Total
--------------------------------------------------------
0 18 16 24 58
expected 15.4 16.2 26.4
row prop. 0.310 0.276 0.414 0.853
std. res. 0.676 -0.051 -0.475
--------------------------------------------------------
1 0 3 7 10
expected 2.6 2.8 4.6
row prop. 0.000 0.300 0.700 0.147
std. res. -1.627 0.123 1.143
--------------------------------------------------------
Total 18 19 31 68
========================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.0952 Comparisons do not survive Bonferroni correction for 3*10 comparisons (.00167)
index g
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
========================================================
data$group_3low
data$index_g Low-exposed PTSD Resilient Total
--------------------------------------------------------
0 8 8 8 24
expected 6.4 6.7 10.9
row prop. 0.333 0.333 0.333 0.353
std. res. 0.653 0.500 -0.889
--------------------------------------------------------
1 10 11 23 44
expected 11.6 12.3 20.1
row prop. 0.227 0.250 0.523 0.647
std. res. -0.483 -0.369 0.657
--------------------------------------------------------
Total 18 19 31 68
========================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.34 Comparisons do not survive Bonferroni correction for 3*10 comparisons (.00167)
index h*
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
========================================================
data$group_3low
data$index_h Low-exposed PTSD Resilient Total
--------------------------------------------------------
0 16 4 11 31
expected 8.2 8.7 14.1
row prop. 0.516 0.129 0.355 0.456
std. res. 2.721 -1.584 -0.833
--------------------------------------------------------
1 2 15 20 37
expected 9.8 10.3 16.9
row prop. 0.054 0.405 0.541 0.544
std. res. -2.490 1.450 0.763
--------------------------------------------------------
Total 18 19 31 68
========================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.0000378 - Association between
groupandindex_h(know someone injured) frequency IS statistically significant - lower-exposed more 0, fewer 1 than expected
post-hoc tests
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Col Total |
|-------------------------|
==========================================
tmp$group_3low
tmp$index_h Low-exposed PTSD Total
------------------------------------------
0 16 4 20
expected 9.7 10.3
col prop. 0.889 0.211
------------------------------------------
1 2 15 17
expected 8.3 8.7
col prop. 0.111 0.789
------------------------------------------
Total 18 19 37
0.486 0.514
==========================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Sample estimate odds ratio: 26.16804
Alternative hypothesis: true odds ratio is not equal to 1
p = 0.0000473
95% confidence interval: 3.903238 327.8712
Alternative hypothesis: true odds ratio is less than 1
p = 1
95%s confidence interval: % 0 219.2406
Alternative hypothesis: true odds ratio is greater than 1
p = 0.0000384
95%s confidence interval: % 4.890063 Inf
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Col Total |
|-------------------------|
========================================
tmp$group_3low
tmp$index_h PTSD Resilient Total
----------------------------------------
0 4 11 15
expected 5.7 9.3
col prop. 0.211 0.355
----------------------------------------
1 15 20 35
expected 13.3 21.7
col prop. 0.789 0.645
----------------------------------------
Total 19 31 50
0.38 0.62
========================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Sample estimate odds ratio: 0.4917071
Alternative hypothesis: true odds ratio is not equal to 1
p = 0.351
95% confidence interval: 0.09498967 2.099397
Alternative hypothesis: true odds ratio is less than 1
p = 0.225
95%s confidence interval: % 0 1.730445
Alternative hypothesis: true odds ratio is greater than 1
p = 0.921
95%s confidence interval: % 0.1221198 Inf
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Col Total |
|-------------------------|
==============================================
tmp$group_3low
tmp$index_h Low-exposed Resilient Total
----------------------------------------------
0 16 11 27
expected 9.9 17.1
col prop. 0.889 0.355
----------------------------------------------
1 2 20 22
expected 8.1 13.9
col prop. 0.111 0.645
----------------------------------------------
Total 18 31 49
0.367 0.633
==============================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Sample estimate odds ratio: 13.70336
Alternative hypothesis: true odds ratio is not equal to 1
p = 0.000323
95% confidence interval: 2.515685 144.9476
Alternative hypothesis: true odds ratio is less than 1
p = 1
95%s confidence interval: % 0 97.65347
Alternative hypothesis: true odds ratio is greater than 1
p = 0.000277
95%s confidence interval: % 3.079935 Inf index i
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
========================================================
data$group_3low
data$index_i Low-exposed PTSD Resilient Total
--------------------------------------------------------
0 18 12 26 56
expected 14.8 15.6 25.5
row prop. 0.321 0.214 0.464 0.824
std. res. 0.825 -0.922 0.093
--------------------------------------------------------
1 0 7 5 12
expected 3.2 3.4 5.5
row prop. 0.000 0.583 0.417 0.176
std. res. -1.782 1.992 -0.201
--------------------------------------------------------
Total 18 19 31 68
========================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.0116 Comparisons do not survive Bonferroni correction for 3*10 comparisons (.00167)
index j
Cell Contents
|-------------------------|
| N |
| Expected N |
| N / Row Total |
| Std Residual |
|-------------------------|
========================================================
data$group_3low
data$index_j Low-exposed PTSD Resilient Total
--------------------------------------------------------
0 18 10 29 57
expected 15.1 15.9 26.0
row prop. 0.316 0.175 0.509 0.838
std. res. 0.750 -1.485 0.591
--------------------------------------------------------
1 0 9 2 11
expected 2.9 3.1 5.0
row prop. 0.000 0.818 0.182 0.162
std. res. -1.706 3.380 -1.346
--------------------------------------------------------
Total 18 19 31 68
========================================================
Fisher's Exact Test for Count Data
------------------------------------------------------------
Alternative hypothesis: two.sided
p = 0.000108 Comparisons do not survive Bonferroni correction for 3*10 comparisons (.00167)
---
title: "WTC neuroimaging meeting 06-01-22"
output:
  html_notebook:
    theme: cerulean
    toc: yes
    toc_float: true
    collapsed: false
    toc_depth: 3
---

_All exposures, CTQ, TLEQ data now cleaned. Zoe is confirming a few ppt's `index_j` but only n=1 who might potentially change groups depending on outcome. No exposures data for NWTC-091 yet, or more recent ppts (will be in next request from data center). All of the analyses here use the group assignment where 3 exposures = Lower-exposed group_

## Summary

* **TLEQ**:
  * None of the chi square tests on the <u>TLEQ item-level</u> unweighted (i.e., binarized) variables were statistically significant using Fisher's exact test with a threshold of p < 0.0007 (.05/(3 groups*23 items)).
  * Linear models predicting TLEQ totals from group used a threshold of p < .004 (.05/3*4)
  * There was a significant omnibus effect of group ONLY on <u>non-weighted TLEQ total (includes childhood trauma)</u>
    * Post-hoc comparisons using same p <.004 threshold indicated that the PTSD group had higher scores vs. the Low-exposed group (p = .0012) (and possibly the Resilient group, p = .0046). Low-exposed and Resilient groups were not significantly different from each other in terms of non-weighted TLEQ total scores.
  <p>
* **CTQ**:
  * Linear models predicting CTQ scores from group used a threshold of p < .003 (.05/(3*6))
  * There was a significant omnibus effect of group on the <u>CTQ total</u> as well as <u>all other CTQ subscales except for `CTQ sexual abuse`</u>
    * Post-hoc comparisons using same p <.003 threshold indicated that the PTSD group had higher scores compared to the other two groups. 
      * Resilient and Low-exposed groups did not differ from each other.
  <p>
* **WTC exposures**:
  * Chi square tests for group differences on the exposure variables `index_a` (_arrived 9/11-9/13_), `index_c` (_worked on or adjacent to pit/pile_), `index_h` (_know someone injured_) were statistically significant using Fisher's exact test with a threshold of p < 0.00167 (.05/(3*10)).
  * _Note:_
    * Group differences are all between the low-exposed and other groups, not PTSD & Resilient groups.




```{r setup,echo=FALSE}
knitr::opts_chunk$set(echo = FALSE)
knitr::opts_knit$set(root.dir = "/Users/sarenseeley/Dropbox/Postdoc/nwtc_study/meetings")
options(scipen=999)
rm(list = ls())

library(dplyr)
library(mice)
library(glmnet)
library(ggplot2)
library(ggcorrplot)
library(stringr)
library(foreign)
library(stargazer)
library(cowplot)

select <- dplyr::select
filter <- dplyr::filter



#load data for NWTC participants so far 
data<-read.csv("nwtc_data_cleaned_forMeeting_04-06-22.csv", strip.white=FALSE, na.strings="NA")
data<- data %>% select(-c("index_a","index_b","index_c","index_d","index_e","index_f","index_g","index_h","index_i","index_j","tot_exposures_post_clean"))
exp<-read.csv("nwtc_exposures_cleaned_05-31-22_withIndexJ.csv", strip.white=FALSE, na.strings="NA")
exp <- exp %>% select(-c("X","traumatic_exposure_index"))

data <- left_join(data,exp,by="record_id")
data$tot_exposures_post_clean[data$record_id=="NWTC-091"] <- NA # don't have this person's data yet

# make new groups
# when 3 exposures = Resilient group
#data <- data %>% mutate(group_3resil = group)
#data$group_3resil[data$record_id=="NWTC-032"] <- "Resilient" # formerly lower-exposed
#data$group_3resil[data$record_id=="NWTC-069"] <- "Resilient" # formerly lower-exposed
#data$group_3resil[data$record_id=="NWTC-072"] <- "Resilient" # formerly lower-exposed
#data$group_3resil[data$record_id=="NWTC-083"] <- "Resilient" # formerly lower-exposed

# when 3 exposures = Lower-exposed group
#data <- data %>% mutate(group_3low = group)
#data$group_3low[data$record_id=="NWTC-059"] <- "Low-exposed" # formerly resilient
#data$group_3low[data$record_id=="NWTC-079"] <- "Low-exposed" # formerly resilient


#After calling NWTC-079 re: `index_j`, they now have 4 exposures (vs. 3) and are back in the Resilient group

```

#### Groups when 3 exposures = lower-exposed


```{r}
data %>% group_by(group_3low) %>% count()
```


```{r, echo=FALSE}
#### Groups when 3 exposures = resilient

#data %>% group_by(group_3resil) %>% count()
```


## TLEQ items (non-weighted)

```{r, echo=FALSE}
data_tmp <- data %>% mutate_each(funs(factor), starts_with("use.tleq") & ends_with("bin"))

tleq1 <- data_tmp %>% count(group_3low,use.tleq_1bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

tleq2 <- data_tmp %>% count(group_3low,use.tleq_2bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

tleq3 <- data_tmp %>% count(group_3low,use.tleq_3bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

tleq4 <- data_tmp %>% count(group_3low,use.tleq_4bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

tleq5 <- data_tmp %>% count(group_3low,use.tleq_5bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

tleq6 <- data_tmp %>% count(group_3low,use.tleq_6bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

tleq7 <- data_tmp %>% count(group_3low,use.tleq_7bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

tleq8 <- data_tmp %>% count(group_3low,use.tleq_8bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

tleq9 <- data_tmp %>% count(group_3low,use.tleq_9bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

tleq10 <- data_tmp %>% count(group_3low,use.tleq_10bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

tleq11 <- data_tmp %>% count(group_3low,use.tleq_11bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

tleq12 <- data_tmp %>% count(group_3low,use.tleq_12bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

tleq13 <- data_tmp %>% count(group_3low,use.tleq_13bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()


tleq14 <- data_tmp %>% count(group_3low,use.tleq_14bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

tleq15 <- data_tmp %>% count(group_3low,use.tleq_15bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

tleq16 <- data_tmp %>% count(group_3low,use.tleq_16bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

tleq17 <- data_tmp %>% count(group_3low,use.tleq_17bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

tleq18 <- data_tmp %>% count(group_3low,use.tleq_18bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

tleq19 <- data_tmp %>% count(group_3low,use.tleq_19bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

tleq20 <- data_tmp %>% count(group_3low,use.tleq_20bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

tleq21 <- data_tmp %>% count(group_3low,use.tleq_21bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

tleq22 <- data_tmp %>% count(group_3low,use.tleq_22bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

tleq23 <- data_tmp %>% count(group_3low,use.tleq_23bin, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

p1<-ggplot(tleq1, aes(group_3low,pct, fill=use.tleq_1bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p2<-ggplot(tleq2, aes(group_3low,pct, fill=use.tleq_2bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p3<-ggplot(tleq3, aes(group_3low,pct, fill=use.tleq_3bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p4<-ggplot(tleq4, aes(group_3low,pct, fill=use.tleq_4bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p5<-ggplot(tleq5, aes(group_3low,pct, fill=use.tleq_5bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p6<-ggplot(tleq6, aes(group_3low,pct, fill=use.tleq_6bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p7<-ggplot(tleq7, aes(group_3low,pct, fill=use.tleq_7bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p8<-ggplot(tleq8, aes(group_3low,pct, fill=use.tleq_8bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p9<-ggplot(tleq9, aes(group_3low,pct, fill=use.tleq_9bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p10<-ggplot(tleq10, aes(group_3low,pct, fill=use.tleq_10bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p11<-ggplot(tleq11, aes(group_3low,pct, fill=use.tleq_11bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p12<-ggplot(tleq12, aes(group_3low,pct, fill=use.tleq_12bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p13<-ggplot(tleq13, aes(group_3low,pct, fill=use.tleq_13bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p14<-ggplot(tleq14, aes(group_3low,pct, fill=use.tleq_14bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p15<-ggplot(tleq15, aes(group_3low,pct, fill=use.tleq_15bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p16<-ggplot(tleq16, aes(group_3low,pct, fill=use.tleq_16bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p17<-ggplot(tleq17, aes(group_3low,pct, fill=use.tleq_17bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p18<-ggplot(tleq18, aes(group_3low,pct, fill=use.tleq_18bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p19<-ggplot(tleq19, aes(group_3low,pct, fill=use.tleq_19bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p20<-ggplot(tleq20, aes(group_3low,pct, fill=use.tleq_20bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p21<-ggplot(tleq21, aes(group_3low,pct, fill=use.tleq_21bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p22<-ggplot(tleq22, aes(group_3low,pct, fill=use.tleq_22bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

p23<-ggplot(tleq23, aes(group_3low,pct, fill=use.tleq_23bin)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())


```

### Figure: TLEQ items (non-weighted) by group 

_Blue = proportion of group endorsing at least one incidence of a given event. Red = Never experienced that event._

```{r fig.height=8}
labels <- c("1.disaster","2.mva","3.accident","4.war","5.deathLO","6.injLO","7.illness","8.robbery", "9.beaten","10.witness","11.threaten","12.punish", "13.violFam", "14.IPV", "15.csa <13", "16.csa peer", "17.csa 13-18", "18.sa 18+", "19.harass", "20.stalk", "21.miscarr", "22.abort", "23.other")
 plot_grid(p1,p2,p3,p4,p5,p6,p7,p8,p9,p10,p11,p12,p13,p14,p15,p16,p17,p18,p19,p20,p21,p22,p23, labels = labels, #greedy=TRUE, 
           scale=1, ncol=3, nrow=8,hjust=-.5,vjust=1,label_size = 20)
```
### Chi square tests of association between group and TLEQ items (non-weighted)

Bonferroni correction will be p < 0.0007 (.05/(3*23))

```{r, echo=FALSE, include=FALSE}
library(MASS) # for chisq
library(descr) # for crosstable

# This code will generate both Pearson's Chi-square and Fisher's Chi square (if desired; here just looking at Fisher's test). It produces counts as well as proportions of each of the table entries. Based on the standardised residuals or z-values scores i.e., If it is outside the range |1.96| i.e., less than -1.96 or greater than 1.96, then it is significant p < 0.05. The sign would then indicate whether positively related or negatively.
# NB: Residuals reflect the extent to which an observed value exceeded the expected value (positive value) or fell short of the expected value (negative value)
```

#### TLEQ item 1
```{r}
CrossTable(data$use.tleq_1bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 2
```{r}
CrossTable(data$use.tleq_2bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 3
```{r}
CrossTable(data$use.tleq_3bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 4
```{r}
CrossTable(data$use.tleq_4bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 5
```{r}
CrossTable(data$use.tleq_5bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 6
```{r}
CrossTable(data$use.tleq_6bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 7
```{r}
CrossTable(data$use.tleq_7bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 8
```{r}
CrossTable(data$use.tleq_8bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 9
```{r}
CrossTable(data$use.tleq_9bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 10
```{r}
CrossTable(data$use.tleq_10bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 11
```{r}
CrossTable(data$use.tleq_11bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 12
```{r}
CrossTable(data$use.tleq_12bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 13
```{r}
CrossTable(data$use.tleq_13bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 14
```{r}
CrossTable(data$use.tleq_14bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 15
```{r}
CrossTable(data$use.tleq_15bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 16
```{r}
CrossTable(data$use.tleq_16bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 17
```{r}
CrossTable(data$use.tleq_17bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 18
```{r}
CrossTable(data$use.tleq_18bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 19
```{r}
CrossTable(data$use.tleq_19bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 20
```{r}
CrossTable(data$use.tleq_20bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 21
```{r}
CrossTable(data$use.tleq_21bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 22
```{r}
CrossTable(data$use.tleq_22bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

#### TLEQ item 23
```{r}
CrossTable(data$use.tleq_23bin,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

## TLEQ totals (weighted and non-weighted)

### Figure: TLEQ totals by group 

```{r, fig.width=4}

p1<-ggplot(data, aes(TLEQ_total_W, group_3low), by=group_3low, fill=group_3low) + 
       geom_boxplot(aes(fill=group_3low)) +
    xlab("TLEQ total weighted \n (includes childhood trauma)") + theme_bw() 

p2<-ggplot(data, aes(TLEQ_total_nonW, group_3low), by=group_3low, fill=group_3low) + 
       geom_boxplot(aes(fill=group_3low)) +
    xlab("TLEQ total non-weighted \n (includes childhood trauma)") + theme_bw() 

p3<-ggplot(data, aes(TLEQ_total_exclCT_W, group_3low), by=group_3low, fill=group_3low) + 
       geom_boxplot(aes(fill=group_3low)) +
    xlab("TLEQ total weighted \n (excludes childhood trauma)") + theme_bw() 

p4<-ggplot(data, aes(TLEQ_total_exclCT_nonW, group_3low), by=group_3low, fill=group_3low) + 
       geom_boxplot(aes(fill=group_3low)) +
    xlab("TLEQ total non-weighted \n (excludes childhood trauma)") + theme_bw() 

 plot_grid(p1,p2,p3,p4,#labels = labels, #greedy=TRUE, 
           scale=1, ncol=2, nrow=2,hjust=-.5,vjust=1)
```
### Linear models & post-hoc comparisons

Bonferroni correction will be p < 0.004 (.05/(3*4))

#### Total (weighted)
```{r}
library(emmeans)
m1<- lm(TLEQ_total_W ~ group_3low, data)
print(summary(m1),signif.legend=FALSE, signif.stars=FALSE)
#emmeans(m1, pairwise ~ group_3low, adjust="none")
```

#### Total (non-weighted)*
```{r}
m2<- lm(TLEQ_total_nonW ~ group_3low, data)
print(summary(m2),signif.legend=FALSE, signif.stars=FALSE)
emmeans(m2, pairwise ~ group_3low, adjust="none")
```

#### Total (excluding childhood trauma, weighted)
```{r}
m3<- lm(TLEQ_total_exclCT_W ~ group_3low, data)
print(summary(m3),signif.legend=FALSE, signif.stars=FALSE)
#emmeans(m3, pairwise ~ group_3low, adjust="none")
```

#### Total (excluding childhood trauma, non-weighted)
```{r}
m4<- lm(TLEQ_total_exclCT_nonW ~ group_3low, data)
print(summary(m4),signif.legend=FALSE, signif.stars=FALSE)
#emmeans(m4, pairwise ~ group_3low, adjust="none")
```


## Childhood trauma (CTQ)

### Figure: CTQ totals by group

```{r, fig.width=4}

p1<-ggplot(data, aes(group_3low, CTQ_total), by=group_3low, fill=group_3low) + 
       geom_boxplot(aes(fill=group_3low)) + theme_bw()  #+ ylab("CTQ total (sum subscales)") + theme_bw()

p2<-ggplot(data, aes(group_3low, CTQ_emoAbuse), by=group_3low, fill=group_3low) + 
       geom_boxplot(aes(fill=group_3low)) + theme_bw() #+ ylab("CTQ emot abuse") + theme_bw()

p3<-ggplot(data, aes(group_3low, CTQ_emoNeglect), by=group_3low, fill=group_3low) + 
       geom_boxplot(aes(fill=group_3low)) + theme_bw() #+ ylab("CTQ emot neglect") + theme_bw()

p4<-ggplot(data, aes(group_3low, CTQ_physAbuse), by=group_3low, fill=group_3low) + 
       geom_boxplot(aes(fill=group_3low)) + theme_bw() #+ ylab("CTQ phys abuse") + theme_bw()

p5<-ggplot(data, aes(group_3low, CTQ_physNeglect), by=group_3low, fill=group_3low) + 
       geom_boxplot(aes(fill=group_3low)) + theme_bw() # + ylab("CTQ phys neglect") + theme_bw()

p6<-ggplot(data, aes(group_3low, CTQ_sexAbuse), by=group_3low, fill=group_3low) + 
       geom_boxplot(aes(fill=group_3low)) + theme_bw()# + ylab("CTQ sexual abuse") + theme_bw()


 plot_grid(p1,p2,p3,p4,p5,p6,#labels = labels, #greedy=TRUE, 
           scale=1, ncol=2, nrow=3,hjust=-.5,vjust=1)

```

### Linear models & post-hoc comparisons

Bonferroni correction will be p < 0.003 (.05/(3*6))

#### CTQ overall total*
```{r}
m1<- lm(CTQ_total ~ group_3low, data)
print(summary(m1),signif.legend=FALSE, signif.stars=FALSE)
emmeans(m1, pairwise ~ group_3low, adjust="none")
```

#### CTQ emotional abuse*
```{r}
m1<- lm(CTQ_emoAbuse ~ group_3low, data)
print(summary(m1),signif.legend=FALSE, signif.stars=FALSE)
emmeans(m1, pairwise ~ group_3low, adjust="none")
```

#### CTQ emotional neglect*
```{r}
m1 <- lm(CTQ_emoNeglect ~ group_3low, data=data)
print(summary(m1),signif.legend=FALSE, signif.stars=FALSE)
m1.emm <- emmeans(m1, specs="group_3low")
contrast(m1.emm, method="pairwise", adjust="none")
```

#### CTQ physical abuse*
```{r}
m1<- lm(CTQ_physAbuse ~ group_3low, data)
print(summary(m1),signif.legend=FALSE, signif.stars=FALSE)
emmeans(m1, pairwise ~ group_3low, adjust="none")
```

#### CTQ physical neglect*
```{r}
m1 <- lm(CTQ_physNeglect ~ group_3low, data=data)
summary(m1)
m1.emm <- emmeans(m1, specs="group_3low")
contrast(m1.emm, method="pairwise", adjust="none")
```

#### CTQ sexual abuse
```{r}
m1<- lm(CTQ_sexAbuse ~ group_3low, data)
print(summary(m1),signif.legend=FALSE, signif.stars=FALSE)
#emmeans(m1, pairwise ~ group_3low, adjust="none")
```


## WTC Exposures

```{r}
data %>% count(group_3low,tot_exposures_post_clean, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()
```

```{r}

## mutate back to factors for index* vars

data_tmp <- data %>% mutate_each(funs(factor), starts_with("index"))

index_a <- data_tmp %>% count(group_3low,index_a, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

p_a<-ggplot(index_a, aes(group_3low,pct, fill=index_a)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())


index_b <- data_tmp %>% count(group_3low,index_b, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

p_b<-ggplot(index_b, aes(group_3low,pct, fill=index_b)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())


index_c <- data_tmp %>% count(group_3low,index_c, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

p_c<-ggplot(index_c, aes(group_3low,pct, fill=index_c)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())


index_d <- data_tmp %>% count(group_3low,index_d, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

p_d<-ggplot(index_d, aes(group_3low,pct, fill=index_d)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())


index_e <- data_tmp %>% count(group_3low,index_e, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

p_e<-ggplot(index_e, aes(group_3low,pct, fill=index_e)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())


index_f <- data_tmp %>% count(group_3low,index_f, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

p_f<-ggplot(index_f, aes(group_3low,pct, fill=index_f)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())


index_g <- data_tmp %>% count(group_3low,index_g, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

p_g<-ggplot(index_g, aes(group_3low,pct, fill=index_g)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())


index_h <- data_tmp %>% count(group_3low,index_h, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

p_h<-ggplot(index_h, aes(group_3low,pct, fill=index_h)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())


index_i <- data_tmp %>% count(group_3low,index_i, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

p_i<-ggplot(index_i, aes(group_3low,pct, fill=index_i)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank())

index_j <- data_tmp %>% count(group_3low,index_j, name="n") %>%
    group_by(group_3low) %>%
    mutate(pct= round(n / sum(n),2))  %>%
    ungroup()

p_j<-ggplot(index_j, aes(group_3low,pct, fill=index_j)) +
   geom_bar(position="stack", stat="identity", color="black") + scale_fill_discrete(labels = c("No", "Yes", "Missing")) +
  theme(axis.title.x=element_blank()) 

```

### Figure: Exposures by group 

_Blue = proportion of group endorsing a given exposure (as defined by the data center). Red = Never experienced that exposure. n=1 has missing data across all vars - haven't received from data center yet (NWTC-091, PTSD group)._

```{r fig.height=4}
labels <- c("arrived","dust","pile","hours","remains","search","know died","know inj","injured","slept")
 plot_grid(p_a, p_b, p_c, p_d, p_e, p_f, p_g, p_h, p_i, p_j, labels = labels, #greedy=TRUE, 
           scale=1, ncol=2, nrow=5,hjust=-.5,vjust=1)
```

### Chi square tests of association between group and n exposures

Bonferroni correction will be p < 0.00167 (.05/(3*10))


```{r, echo=FALSE}
library(MASS) # for chisq
library(descr) # for crosstable

# This code will generate both Pearson's Chi-square and Fisher's Chi square (if desired; here just looking at Fisher's test). It produces counts as well as proportions of each of the table entries. Based on the standardised residuals or z-values scores i.e., If it is outside the range |1.96| i.e., less than -1.96 or greater than 1.96, then it is significant p < 0.05. The sign would then indicate whether positively related or negatively.
# NB: Residuals reflect the extent to which an observed value exceeded the expected value (positive value) or fell short of the expected value (negative value)
```

#### index a*
```{r}
CrossTable(data$index_a,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

* Association between `group` and `index_a` (arrived early) frequency IS statistically significant
* lower-exposed more 0, fewer 1 than expected
* resilient fewer 0 than expected

##### post-hoc tests
```{r}
tmp<- data %>% filter(group_3low=="Low-exposed"|group_3low=="PTSD")
CrossTable(tmp$index_a,  tmp$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.r=F,prop.t = F, prop.chisq = F, missing.include=F, row.labels = T)

tmp<- data %>% filter(group_3low=="Resilient"|group_3low=="PTSD")
CrossTable(tmp$index_a,  tmp$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.r=F,prop.t = F, prop.chisq = F, missing.include=F, row.labels = T)

tmp<- data %>% filter(group_3low=="Low-exposed"|group_3low=="Resilient")
CrossTable(tmp$index_a,  tmp$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.r=F,prop.t = F, prop.chisq = F, missing.include=F, row.labels = T)
```

#### index b

```{r}
CrossTable(data$index_b,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

Comparisons do not survive Bonferroni correction for 3*10 comparisons (.00167)


#### index c*

```{r}
CrossTable(data$index_c,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

* Association between `group` and `index_c` (worked on or adjacent to pit/pile) frequency IS statistically significant
* lower-exposed more 0 than expected
* resilient fewer 0 than expected


##### post-hoc tests
```{r}
tmp<- data %>% filter(group_3low=="Low-exposed"|group_3low=="PTSD")
CrossTable(tmp$index_c,  tmp$group_3low, 
           fisher = T, chisq = F, expected = T,
       prop.r=F,prop.t = F, prop.chisq = F, missing.include=F, row.labels = T)

tmp<- data %>% filter(group_3low=="Resilient"|group_3low=="PTSD")
CrossTable(tmp$index_c,  tmp$group_3low,
        fisher = T, chisq = F, expected = T,
       prop.r=F,prop.t = F, prop.chisq = F, missing.include=F, row.labels = T)

tmp<- data %>% filter(group_3low=="Low-exposed"|group_3low=="Resilient")
CrossTable(tmp$index_c,  tmp$group_3low,
        fisher = T, chisq = F, expected = T,
       prop.r=F,prop.t = F, prop.chisq = F, missing.include=F, row.labels = T)

```


#### index d

```{r}
CrossTable(data$index_d,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

Comparisons do not survive Bonferroni correction for 3*10 comparisons (.00167)


#### index e

```{r}
CrossTable(data$index_e,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

Comparisons do not survive Bonferroni correction for 3*10 comparisons (.00167)

#### index f

```{r}
CrossTable(data$index_f,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

Comparisons do not survive Bonferroni correction for 3*10 comparisons (.00167)


#### index g

```{r}
CrossTable(data$index_g,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```
Comparisons do not survive Bonferroni correction for 3*10 comparisons (.00167)


#### index h*

```{r}
CrossTable(data$index_h,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

* Association between `group` and `index_h` (know someone injured) frequency IS statistically significant
* lower-exposed more 0, fewer 1 than expected

##### post-hoc tests
```{r}
tmp<- data %>% filter(group_3low=="Low-exposed"|group_3low=="PTSD")
CrossTable(tmp$index_h,  tmp$group_3low,
      fisher = T, chisq = F, expected = T,
       prop.r=F,prop.t = F, prop.chisq = F, missing.include=F, row.labels = T)


tmp<- data %>% filter(group_3low=="Resilient"|group_3low=="PTSD")
CrossTable(tmp$index_h,  tmp$group_3low,
        fisher = T, chisq = F, expected = T,
       prop.r=F,prop.t = F, prop.chisq = F, missing.include=F, row.labels = T)

tmp<- data %>% filter(group_3low=="Low-exposed"|group_3low=="Resilient")
CrossTable(tmp$index_h,  tmp$group_3low,
        fisher = T, chisq = F, expected = T,
       prop.r=F,prop.t = F, prop.chisq = F, missing.include=F, row.labels = T)

```


#### index i

```{r}
CrossTable(data$index_i,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```
Comparisons do not survive Bonferroni correction for 3*10 comparisons (.00167)

#### index j

```{r}
CrossTable(data$index_j,  data$group_3low,
       fisher = T, chisq = F, expected = T,
       prop.c = F, prop.t = F, prop.chisq = F, 
      sresid = T, missing.include=F, row.labels = T)
```

Comparisons do not survive Bonferroni correction for 3*10 comparisons (.00167)

