Hostname: page-component-586b7cd67f-rcrh6 Total loading time: 0 Render date: 2024-11-24T15:11:53.211Z Has data issue: false hasContentIssue false

Trajectories of psychological distress among individuals exposed to the 9/11 World Trade Center disaster

Published online by Cambridge University Press:  07 April 2021

Tomohiro M. Ko
Affiliation:
Department of Epidemiology, University of Michigan School of Public Health, Ann Arbor, MI 48104, USA
Howard E. Alper*
Affiliation:
World Trade Center Health Registry, Division of Epidemiology, New York City Department of Health and Mental Hygiene, New York, NY 10013, USA
Robert H. Brackbill
Affiliation:
World Trade Center Health Registry, Division of Epidemiology, New York City Department of Health and Mental Hygiene, New York, NY 10013, USA
Melanie H. Jacobson
Affiliation:
World Trade Center Health Registry, Division of Epidemiology, New York City Department of Health and Mental Hygiene, New York, NY 10013, USA
*
Author for correspondence: Howard E. Alper, E-mail: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Background

Individuals present in lower Manhattan during the 9/11 World Trade Center (WTC) disaster suffered from significant physical and psychological trauma. Studies of longitudinal psychological distress among those exposed to trauma have been limited to relatively short durations of follow-up among smaller samples.

Methods

The current study longitudinally assessed heterogeneity in trajectories of psychological distress among WTC Health Registry enrollees – a prospective cohort health study of responders, students, employees, passersby, and residents in the affected area (N = 30 839) – throughout a 15-year period following the WTC disaster. Rescue/recovery status and exposure to traumatic events of 9/11, as well as sociodemographic factors and health status, were assessed as risk factors for trajectories of psychological distress.

Results

Five psychological distress trajectory groups were found: none-stable, low-stable, moderate-increasing, moderate-decreasing, and high-stable. Of the study sample, 78.2% were classified as belonging to the none-stable or low-stable groups. Female sex, being younger at the time of 9/11, lower education and income were associated with a higher probability of being in a greater distress trajectory group relative to the none-stable group. Greater exposure to traumatic events of 9/11 was associated with a higher probability of a greater distress trajectory, and community members (passerby, residents, and employees) were more likely to be in greater distress trajectory groups – especially in the moderate-increasing [odds ratios (OR) 2.31 (1.97–2.72)] and high-stable groups [OR 2.37 (1.81–3.09)] – compared to the none-stable group.

Conclusions

The current study illustrated the heterogeneity in psychological distress trajectories following the 9/11 WTC disaster, and identified potential avenues for intervention in future disasters.

Type
Original Article
Creative Commons
Creative Common License - CCCreative Common License - BYCreative Common License - NCCreative Common License - ND
This is an Open Access article, distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives licence (http://creativecommons.org/licenses/by-nc-nd/4.0), which permits non-commercial re-use, distribution, and reproduction in any medium, provided that no alterations are made and the original article is properly cited. The written permission of Cambridge University Press must be obtained prior to any commercial use and/or adaptation of the article.
Copyright
Copyright © New York City Department of Health and Mental Hygiene and the Author(s), 2021. To the extent this is a work of the US Government, it is not subject to copyright protection within the United States. Published by Cambridge University Press

Introduction

The tragic events of the 11 September 2001 (9/11) World Trade Center (WTC) disaster inflicted lasting psychological trauma on survivors, witnesses, and first responders throughout New York City and beyond. The events and aftermath of 9/11 resulted in significant losses of life and livelihood – nearly 2800 people died, and many more were injured. Substantial health outcomes have been documented in relation to the trauma experienced on 9/11 as well as exposure to the environmental contaminants. These health outcomes include depressive symptoms, posttraumatic stress disorder (PTSD), cardiovascular disease, respiratory disease, and a variety of other physical and mental health conditions. Farfel et al. (Reference Farfel, DiGrande, Brackbill, Prann, Cone, Friedman and Thorpe2008) found that 8.4% of 68444 9/11-exposees reported severe psychological distress post-9/11. In the 17 years that have elapsed since 9/11, these outcomes as well as other life events that have occurred in the interim – both related and unrelated to 9/11 – have likely contributed to the psychological distress reported by those who were affected.

Mental health outcomes following the 9/11 WTC disaster have been studied extensively, including longitudinal assessments of depression and PTSD (Adams & Boscarino, Reference Adams and Boscarino2005; Brackbill, Stellman, Perlman, Walker, & Farfel, Reference Brackbill, Stellman, Perlman, Walker and Farfel2013; Jacobson, Norman, & Nguyen, Reference Jacobson, Norman, Nguyen and Brackbill2018; Maslow et al., Reference Maslow, Caramanica, Welch, Stellman, Brackbill and Farfel2015; Perrin et al., Reference Perrin, DiGrande, Wheeler, Thorpe, Farfel and Brackbill2007; Pietrzak et al., Reference Pietrzak, Feder, Singh, Schechter, Bromet, Katz and Southwick2014; Welch et al., Reference Welch, Caramanica, Maslow, Brackbill, Stellman and Farfel2016). Although the majority of individuals exposed to the 9/11 WTC disaster had psychological symptoms below clinical thresholds over time, women, racial minorities, individuals with significant disaster exposure, and individuals with limited socioeconomic resources have been identified as higher risk for psychological conditions such as PTSD (Adams & Boscarino, Reference Adams and Boscarino2006; Jacobson et al., Reference Jacobson, Norman, Nguyen and Brackbill2018; Welch et al., Reference Welch, Caramanica, Maslow, Brackbill, Stellman and Farfel2016). Similar findings are reported in studies of mental health outcomes following other disasters (Benight et al., Reference Benight, Freyaldenhoven, Hughes, Ruiz, Zoschke and Lovallo2000; Farfel et al., Reference Farfel, DiGrande, Brackbill, Prann, Cone, Friedman and Thorpe2008; Freedy, Saladin, Kilpatrick, Resnick, & Saunders, Reference Freedy, Saladin, Kilpatrick, Resnick and Saunders1994; Hardin, Weinrich, Weinrich, Hardin, & Garrison, Reference Hardin, Weinrich, Weinrich, Hardin and Garrison1994; Norris, Perilla, Riad, Kaniasty, & Lavizzo, Reference Norris, Perilla, Riad, Kaniasty and Lavizzo1999; Shigemura et al., Reference Shigemura, Tanigawa, Sano, Sato, Yoshino, Fujii and Nomura2012). Much of the post-disaster mental health literature assesses PTSD as the primary outcome; few studies assess non-specific psychological distress as the primary outcome (Beaglehole et al., Reference Beaglehole, Mulder, Frampton, Boden, Newton-Howes and Bell2018). Non-specific psychological distress measures emphasize the dimensionality of mental health condition severity, and thus may capture ‘sub-clinical’ psychological symptoms that fall below the threshold for DSM diagnostic criteria (Kessler et al., Reference Kessler, Barker, Colpe, Epstein, Gfroerer, Hiripi and Zaslavsky2003).

Assessing trajectories of psychological distress provides insight into variation among groups of individuals in their long-term psychological wellbeing following disaster exposure and the determinants of its course over time. Moreover, trajectory analyses, also referred to as latent growth curve modeling, typically have greater statistical power than similar traditional modeling approaches for a given dataset, and are highly flexible (Willett & Bub, Reference Willett and Bub2014). For example, trajectory models can accommodate time-invariant and time-varying covariates, partially missing outcome data, unequal time intervals for observations, and non-normal distributions (Curran, Obeidat, & Losardo, Reference Curran, Obeidat and Losardo2010). Due to the chronic nature of many psychological conditions, identification of risk factors for and protective features against harmful mental health trajectories creates opportunities for intervention in the aftermath of a disaster.

Findings from studies of post-9/11 mental health implicate the extent of exposure, such as becoming injured due to or knowing someone who died during the 9/11 WTC disaster, as a strong predictor of mental health outcomes (Adams & Boscarino, Reference Adams and Boscarino2006; Brackbill et al., Reference Brackbill, Stellman, Perlman, Walker and Farfel2013; Bromet et al., Reference Bromet, Hobbs, Clouston, Gonzalez, Kotov and Luft2016; Galea et al., Reference Galea, Ahern, Resnick, Kilpatrick, Bucuvalas, Gold and Vlahov2002). For example, Bromet et al. (Reference Bromet, Hobbs, Clouston, Gonzalez, Kotov and Luft2016) found that police officers with high exposure to traumatic events on 9/11 were nearly four times more likely to have PTSD 13 years after 9/11 than those with little to no exposure. Among lower Manhattan residents, DiGrande, Neria, Brackbill, Pulliam, and Galea (Reference DiGrande, Neria, Brackbill, Pulliam and Galea2011) found that those who were caught in the dust cloud, injured, and were witness to horrific events were respectively 1.57, 3.03, and 1.81 times more likely to have PTSD 2 years after 9/11 than those who were not. Similar findings can be found for natural disasters – high exposure survivors (life threat, physical proximity, and severe injury) of the 2004 Indian Ocean Tsunami were 3.5 times more likely to report elevated psychological distress than low exposure survivors (Wahlström, Michélsen, Schulman, & Backheden, Reference Wahlström, Michélsen, Schulman and Backheden2008). PTSD is well documented among both civilians and rescue/recovery workers post-9/11 in studies specific to each population (Liu, Tarigan, Bromet, & Kim, Reference Liu, Tarigan, Bromet and Kim2014; Lowell et al., Reference Lowell, Suarez-Jimenez, Helpman, Zhu, Durosky, Hilburn and Neria2018). However, most studies do not include both civilians and rescue/recovery workers, and are unable to assess the relative mental wellbeing of civilians compared to rescue/recovery workers (Liu et al., Reference Liu, Tarigan, Bromet and Kim2014; Lowell et al., Reference Lowell, Suarez-Jimenez, Helpman, Zhu, Durosky, Hilburn and Neria2018). Moreover, to our knowledge, there are no studies of psychological distress and disaster exposure among a population including both rescue/recovery workers and civilians. Meta-analysis results suggest that the odds of PTSD following the WTC disaster was lower for rescue/recovery workers than exposed civilians, and a similar pattern may be present for psychological distress (Liu et al., Reference Liu, Tarigan, Bromet and Kim2014).

The World Trade Center Health Registry (WTCHR), a prospective cohort health study of individuals exposed to 9/11, has monitored physical and mental health outcomes following the WTC disaster. Using this dataset, the current study aimed to (1) longitudinally assess trends in psychological distress among WTCHR enrollees over the 15-year period following the WTC disaster, and (2) describe sociodemographic, health-related, and 9/11-related risk factors of psychological distress trajectories.

Methods

Participants and procedure

The WTCHR is a prospective cohort study of 71 426 individuals who were directly exposed to the WTC disaster. Enrollees consisted of rescue/recovery workers and volunteers, lower Manhattan residents, area workers, school students and staff, and passersby. They were either recruited from lists provided by governmental agencies, organizations, and employers (30%) or voluntarily enrolled in the WTCHR through outreach activities (70%). Further details on the recruitment process have been published elsewhere (Farfel et al., Reference Farfel, DiGrande, Brackbill, Prann, Cone, Friedman and Thorpe2008; Murphy et al., Reference Murphy, Brackbill, Thalji, Dolan, Pulliam and Walker2007). Four waves of surveys have been completed to date – wave 1 (W1, 2003–2004), wave 2 (W2, 2006–2007), wave 3 (W3, 2011–2012), and wave 4 (W4, 2015–2016). A total of 71 426 individuals completed W1, 46 600 individuals completed W2, 43 133 individuals completed W3, and 36 862 individuals completed W4. The Registry protocol was approved by the institutional review boards of the Centers for Disease Control and the NYC Department of Health and Mental Hygiene.

The analytical sample was predominantly male (61.2%), age 25 and older at the time of the WTC disaster (94.5%), and non-Hispanic White (72.7%). Further descriptive statistics on the analytical sample are available in Table 1. The current study included enrollees who had completed W1, W2, and W4, and had at least two non-missing Kessler-6 Psychological Distress Scale (K6) scores among the three aforementioned waves (N = 30 839 participants).

Table 1. World Trade Center Health Registry enrollees' Kessler-6 (K6) scores at waves 1, 2, and 4

Note: Numbers in table may not add up to 30 839 due to missing data.

a Count of traumatic experiences on 9/11.

b Traumatic events include events such as a serious accident at work, in a car, or somewhere else; an attack with a gun, knife, or some other weapon; or a situation where someone used physical force or the threat of physical force to make them have some type of unwanted sexual contact.

c Self-reported lifetime history of physician diagnosed depression.

d Time-variant covariates are those that were collected at waves 1, 2, and 4.

e PTSD as assessed by a score of ⩾44 on the PCL-17.

f Self-report of physician diagnosis. Cardiovascular disease included hypertension, angina, heart attack, and stroke; respiratory disease included emphysema, COPD, and asthma; cancer included all cancer types.

Measures

Psychological distress

Non-specific psychological distress was assessed using the K6, the truncated form of the Kessler-10 Psychological Distress Scale. The K6 has been shown to be equally sensitive at identifying serious mental illness as the K10 (Kessler et al., Reference Kessler, Barker, Colpe, Epstein, Gfroerer, Hiripi and Zaslavsky2003). Similarly to the K10, the K6 asks respondents to report how often they experienced six emotional states related to psychological distress in the past 4 weeks. The responses range from ‘All of the time’, ‘Most of the time’, ‘Some of the time’, ‘A little of the time’, and ‘None of the time’. Total scores ranged from 0 to 24, where 0 indicated the lowest degree of psychological distress, and 24 indicated the highest. The total score was obtained by the summation of the six emotional states related to psychological distress where ‘All of the time’ = 4, and ‘None of the time’ = 0. Individuals with a score greater than 12 were considered to have severe psychological distress, 8–12 as mild-moderate psychological distress, and 0–7 as little to no psychological distress (Dhingra, Strine, Holt, Berry, & Mokdad, Reference Dhingra, Strine, Holt, Berry and Mokdad2009; Kessler et al., Reference Kessler, Barker, Colpe, Epstein, Gfroerer, Hiripi and Zaslavsky2003, Reference Kessler, Galea, Jones and Parker2006; Wang et al., Reference Wang, Gruber, Powers, Schoenbaum, Speier, Wells and Kessler2007). The K6 has high internal consistency and reliability (Cronbach's alpha = 0.89), and has minimal bias with regard to demographic features such as sex and education (Kessler et al., Reference Kessler, Andrews, Colpe, Hiripi, Mroczek, Normand and Zaslavsky2002). The K6 was administered at waves 1, 2, and 4.

Time-invariant covariates

A series of time-invariant and time-varying covariates were included in the current analysis. Time-invariant variables refer to features that were assumed to stay constant across all waves. Time-varying covariates refer to features that can fluctuate over time. Some covariates that may conceptually appear to be time-varying covariates were included as time-invariant covariates due to data limitations. Characteristics collected at W1 that were considered to be time-invariant can be found in Table 1. Participants were grouped into two eligibility groups for the purposes of enrollment – rescue/recovery workers and community members, which included students, employees, passersby, and residents in the affected area. Enrollees were also asked if they had experienced any pre-9/11 or post-9/11 traumatic life events, such as a serious accident at work, in a car, or somewhere else; an attack with a gun, knife, or some other weapon; or a situation where someone used physical force or the threat of physical force to make them have some type of unwanted sexual contact. Additional sociodemographic and relevant covariates can be found in Table 1. Sociodemographic characteristics and recue/recovery status were assessed at wave 1, pre- and post-9/11 trauma, and ‘ever’ diagnosis with depression were retrospectively assessed at wave 4.

9/11 Exposure

To operationalize the extent of exposure to the WTC disaster, Brackbill et al. (Reference Brackbill, Stellman, Perlman, Walker and Farfel2013) developed a 9/11 exposure summary variable based on study by Adams and Boscarino (Reference Adams and Boscarino2005). The summary score is the summation of 11 possible traumatic experiences related to 9/11 that were initially asked about at waves 1 and 2, such as seeing planes hit the buildings, people fall or jump from buildings, being in the North or South WTC towers at the time of the disaster, and losing a relative on 9/11. The summary score was grouped into four categories of exposure: none/low (0–1), moderate (2–3), high (4–5), and very high (⩾6).

Time-varying covariates

All time-varying covariates were assessed at each wave; details can be found in Table 1. Physical health outcomes were assessed, including doctor-diagnosed lifetime history of cardiovascular disease, respiratory disease, diabetes, and cancer. Cardiovascular diseases consisted of hypertension, angina, stroke, and heart attack; respiratory diseases consisted of emphysema, chronic obstructive pulmonary disease (COPD), and asthma. Cancer included all forms of cancer. PTSD status was determined by each enrollee's PTSD Checklist Civilian Version (PCL-17) score at a given wave (Ruggiero, Ben, Scotti, & Rabalais, Reference Ruggiero, Ben, Scotti and Rabalais2003). Individuals with a PCL-17 score of ⩾44 were considered to have PTSD at that time point (Blanchard, Jones-Alexander, Buckley, & Forneris, Reference Blanchard, Jones-Alexander, Buckley and Forneris1996).

Data analysis

We used the PROC TRAJ SAS (Version 9.4) macro developed by Jones et al. (Reference Jones, Nagin and Roeder2001) to conduct unadjusted and adjusted trajectory group analyses of psychological distress over time as measured by the K6. We first examined unadjusted models that determined K6 score trajectories, and subsequently fit adjusted models that incorporated all of the aforementioned time-varying and time-invariant covariates. Trajectory analysis enabled (1) estimation of membership in trajectory groups and (2) estimation of trajectory shapes. Estimation of membership in group trajectories allows for the description of individuals who are likely to have certain trajectories. The estimation of trajectory shapes helps assess salient characteristics that change over time and how they influence the shapes of trajectories within groups.

The PROC TRAJ user defines the hypothesized number of trajectories and the order (linear, quadratic, cubic, etc.) of the regression equation for each trajectory group (Jones & Nagin, Reference Jones and Nagin2007). The optimal number of groups and equation order are determined by incremental decreases in Bayesian information criteria (BIC) from the test model to the previous model (Jones et al., Reference Jones, Nagin and Roeder2001). We assigned a censored normal distribution for the PROC TRAJ modeling, as previous analyses using PROC TRAJ with psychometric scales, including the K10 psychological distress scale, have used the censored normal distribution (Jones & Nagin, Reference Jones and Nagin2007; Pelayo-Terán et al., Reference Pelayo-Terán, Diaz, Pérez-Iglesias, Suárez-Pinilla, Tabarés-Seisdedos, de León and Crespo-Facorro2014; Thomas et al., Reference Thomas, Spittal, Heffernan, Taxman, Alati and Kinner2016; Welch et al., Reference Welch, Caramanica, Maslow, Brackbill, Stellman and Farfel2016). For each enrollee, PROC TRAJ outputs the probability of assignment to each group; each enrollee is assigned to the group that they are most likely to be in (Jones et al., Reference Jones, Nagin and Roeder2001). For adjusted models, PROC TRAJ assumes that time-invariant features influence the probability of group membership, and time-varying features influence the shapes of the trajectories (Jones et al., Reference Jones, Nagin and Roeder2001). PROC TRAJ operates on complete-case analysis for covariates – enrollees who were missing for any of the time-varying or time-invariant covariates were not included in the analysis (Jones et al., Reference Jones, Nagin and Roeder2001).

Model selection was conducted iteratively, starting with the number of groups set to one, and the order set to quadratic (Andruff, Carraro, Thompson, Gaudreau, & Louvet, Reference Andruff, Carraro, Thompson, Gaudreau and Louvet2009). The number of groups was increased in each iteration of the model; ΔBIC was monitored for substantial changes of >10 (Andruff et al., Reference Andruff, Carraro, Thompson, Gaudreau and Louvet2009). We did not consider model orders greater than quadratic for the current analysis as we only had three data points for the outcome. Once the optimal model was selected, posterior probabilities and group size estimates were obtained from the PROC TRAJ output. Next, the time-varying and time-invariant covariates were included in the aforementioned optimal model. Adjusted odds ratios (OR) and 95% confidence intervals (CI) were estimated for membership in each trajectory group relative to the reference trajectory group (i.e. none-stable). For time-varying covariates, PROC TRAJ outputs directly interpretable β coefficients estimating the effect of the time-varying covariate on the shape of the trajectory within each specific trajectory group. Finally, using the group assignments from the unadjusted PROC TRAJ output, logistic regression models were fit for specific comparisons between the selected trajectories via PROC LOGISTIC; findings are available in the online Supplementary materials.

Results

Psychological distress trajectories

The optimal unadjusted model with the lowest relative BIC had five distinct trajectory groups with each trajectory modeled as a quadratic function. The groups were identified as: none-stable, low-stable, moderate-increasing, moderate-decreasing, and high-stable (Fig. 1). Three of the five trajectories were considered to be somewhat stable across the course of the WTCHR, whereas the remaining two were marked by a notable increase or decrease. The low-stable, moderate-increasing, moderate-decreasing, and high-stable groups will be collectively referred to as ‘greater psychological distress trajectories’ throughout the paper, as they will be compared to the reference group, none-stable. Table 2 describes the trajectories by average posterior probability, mean K6 score, and the proportion of individuals who were classified as having severe psychological distress at each time point. All parameter estimates obtained for each of the trajectory groups were significant at the p < 0.05 level. Approximately 80% of the study population was in either the none-stable or low-stable group. The high-stable group (3.9%) had the highest within-group proportion of participants with severe psychological distress at all time points (W1: 71.8%, W2: 88.8%, and W4: 77.0%). The mean posterior probability of assignment ranged from 0.77 to 0.88, which indicated a good model fit to the data.

Fig. 1. Kessler-6 psychological distress trajectories, World Trade Center Health Registry, 2003–2016.

Table 2. Trajectories of psychological distress: mean Kessler-6 (K6) score and severe psychological distressa prevalence at waves 1, 2, and 4 with average posterior probabilities and intercept, linear, and quadratic parameter estimates

Note: *p < 0.05.

a A K6 score of ⩾13 was considered severe psychological distress.

Time-invariant covariates

Sociodemographic features

Women were more likely than men to be assigned to any trajectory group representing greater levels of psychological distress [adjusted ORs and 95% CIs at α = 0.05 – low-stable: 1.68 (1.50–1.89), moderate-increasing: 1.75 (1.50–2.05), moderate-decreasing 1.37 (1.13–1.64), and high-stable: 1.34 (1.03–1.74)] v. the none-stable trajectory group (Table 3). Enrollees who were 25 years and older at the time of 9/11 were more likely than enrollees who were under 25 years to be assigned to any trajectory group representing greater levels of psychological distress, barring the high-stable group. Black enrollees were less likely than non-Hispanic White enrollees to be assigned to trajectory groups representing greater levels of psychological distress [ORs and 95% CIs – low-stable: 0.66 (0.55–0.79), moderate-decreasing: 0.42 (0.29–0.60), high-stable: 0.49 (0.30–0.80)] compared to the none-stable group, barring the moderate-increasing group. Other racial minority groups were more likely than non-Hispanic White enrollees to be assigned to trajectory groups representing greater levels of psychological distress. Lower income at W1 was associated with a higher probability of being in any of the greater distress trajectory groups compared to the none-stable group; education at W1 followed a similar pattern except in the low-stable v. none-stable comparison, where there was no association.

Table 3. Adjusted ORs and 95% CIs for associations between time-invariant characteristics and Kessler-6 (K6) trajectory group membership

Note: *p < 0.05. All analyses were relative to none-stable group (1) and mutually adjusted for all covariates.

a Count of traumatic experiences on 9/11.

b Traumatic events include events such as a serious accident at work, in a car, or somewhere else; an attack with a gun, knife, or some other weapon; or a situation where someone used physical force or the threat of physical force to make them have some type of unwanted sexual contact.

c Self-reported lifetime history of physician diagnosed depression.

9/11-Related characteristics

Community members were more likely to be assigned to greater psychological distress trajectories than rescue/recovery workers, especially to the moderate-increasing (OR = 2.31, 95% CI 1.91–2.72) and high-stable groups (OR = 2.37, 95% CI 1.81–3.09) v. the none-stable group. A general trend of increasing ORs was observed from the low-stable group to the high-stable group. Enrollees with higher 9/11 summary exposure scale scores (high scores = high exposure) were more likely to be assigned to the greater psychological distress trajectories. This trend of increasing ORs was strongly consistent within each trajectory group for increasing exposure levels, and albeit less consistent, across the trajectory groups of increasing severity.

Psychosocial factors

Both pre- and post-9/11 trauma were associated with membership in the greater psychological distress trajectories; the magnitudes of ORs were larger for post-9/11 trauma. ORs of post-9/11 trauma for the moderate-increasing group and moderate-decreasing group were respectively, 3.35, 95% CI 2.84–3.95 and 6.42, 95% CI 5.38–7.67. A lifetime history of depression diagnosis was associated with greatly increased odds of membership in the greater psychological distress trajectories, especially for the high-stable v. none-stable comparison.

Time-varying covariates

Marital and occupational status

Table 4 contains adjusted β coefficients estimating the effect of time-varying covariates on the shape of each trajectory. Being married/cohabitating (v. single/separated) was associated with very small decreases in psychological distress, within all trajectory groups except for the high-stable where it was non-significant. In the moderate-increasing, moderate-decreasing, and high-stable groups, employment (v. unemployment) was associated with decreased levels of psychological distress (β = −0.49, β = −1.18, β = −1.17, and p < 0.05 within each group, respectively).

Table 4. β-coefficients and standard errors (s.e.) for associations between time-varyinga characteristics and Kessler-6 (K6) score by K6 trajectory group

Note: *p < 0.05.

a Time-varying covariates are those that were collected at waves 1, 2, and 4.

b PTSD as assessed by a score of ⩾44 on the PCL-17.

c Self-report of physician diagnosis. Cardiovascular disease included hypertension, angina, heart attack, and stroke; respiratory disease included emphysema, COPD, and asthma; cancer included all cancer types.

Health conditions

Cardiovascular disease and respiratory disease were respectively associated with a significant, small increase in psychological distress levels for the moderate-decreasing and moderate-increasing groups; both diseases were also associated with small increases in distress levels for the none-stable and low-stable groups. Diabetes was associated with a significant and small increase in psychological distress levels for all groups except for the high-stable group, where the β coefficient was non-significant. Cancer also did not have a significant effect, except for an association with slightly increased psychological distress in the low-stable group. PTSD was associated with significant, greatly increased levels of psychological distress for all trajectory groups (β range: 6.15–7.36, p < 0.05).

Discussion

Our analyses indicated that a five-trajectory group model best characterized psychological distress trajectories among this cohort of individuals exposed to the 9/11 WTC disaster. Three trajectories appeared relatively stable over time, whereas the other two demonstrated substantial increases or decreases. Overall, the majority of enrollees were in the none to low distress trajectories that remained stable through the study period. Stability in distress trajectories is not inherently an indication of psychological wellbeing. In the high-stable group, it indicates unremittent distress, whereas in the none-stable and low-stable groups, it is indicative of a relatively low, maintained level of distress. Previous studies monitoring trajectories of mental health outcomes such as PTSD and psychological distress following large-scale traumatic events generally show that stable, lower psychological distress trajectories are most prevalent (Lowe & Rhodes, Reference Lowe and Rhodes2013; Norris, Tracy, & Galea, Reference Norris, Tracy and Galea2009; Oe et al., Reference Oe, Maeda, Nagai, Yasumura, Yabe, Suzuki and Abe2016; Pietrzak et al., Reference Pietrzak, Feder, Singh, Schechter, Bromet, Katz and Southwick2014). This is consistent with our findings that most enrollees were either in the none-stable or low-stable groups, corroborating other studies highlighting the resilience of trauma-exposed survivors (Bonanno, Reference Bonanno2004). The US average K6 score has been relatively stable over the past two decades, with a mean K6 score of 2.6 through the time period of our study (Tomitaka et al., Reference Tomitaka, Kawasaki, Ide, Akutagawa, Ono and Furukawa2019). Barring the none-stable group, all distress trajectories exceeded this national average – an expected finding given the uniquely trauma exposed population. Despite exceeding the national average, the majority of the study population remained well within the K6 score threshold for little to no psychological distress (K6 ⩽ 7) (Dhingra et al., Reference Dhingra, Strine, Holt, Berry and Mokdad2009; Kessler et al., Reference Kessler, Andrews, Colpe, Hiripi, Mroczek, Normand and Zaslavsky2002; Wang et al., Reference Wang, Gruber, Powers, Schoenbaum, Speier, Wells and Kessler2007).

Results pertaining to sex, age, education, income, and their respective relationships with psychological distress align with previous findings (Adeola & Picou, Reference Adeola and Picou2012; Canino, Bravo, Rubio-Stipec, & Woodbury, Reference Canino, Bravo, Rubio-Stipec and Woodbury1990; Galea, Nandi, & Vlahov, Reference Galea, Nandi and Vlahov2005a; Jorm et al., Reference Jorm, Windsor, Dear, Anstey, Christensen and Rodgers2005). Women, older enrollees, enrollees with less education and income were more likely to be in greater distress trajectory groups (Galea et al., Reference Galea, Nandi and Vlahov2005; Lowe & Rhodes, Reference Lowe and Rhodes2013). Previous studies on psychological distress among the trauma-exposed were limited in sample size and follow-up duration; however, our findings in the WTCHR, with a considerably larger sample size and over a decade of follow-up, suggest the generalizability of the previous literature on socioeconomic disparities in psychological distress among the trauma-exposed.

Our analyses indicated that Black enrollees were significantly more likely to be in the none-stable group than nearly all greater distress trajectory groups compared to non-Hispanic White enrollees. Black individuals report higher non-specific psychological distress than non-Hispanic White individuals in nationally representative cross-sectional epidemiologic surveys, and in our data Black enrollees had a higher unadjusted mean and median K6 scores at baseline than non-Hispanic White enrollees (Barnes & Bates, Reference Barnes and Bates2017; Bratter & Eschbach, Reference Bratter and Eschbach2005; Williams, Yan, Jackson, & Anderson, Reference Williams, Yan, Jackson and Anderson1997). However, importantly, this pattern is observed in unadjusted analyses in both previous studies and our data. Our adjusted findings indicating that Black enrollees were significantly more likely to be in the none-stable trajectory are aligned with previous research assessing racial disparities in psychological distress, adjusted for socioeconomic factors (Bratter & Eschbach, Reference Bratter and Eschbach2005). There is evidence suggesting that the processes underlying psychological distress are vastly different between Black and White individuals, and it is possible that unmeasured social factors such as social support and coping are contributing to this finding (Lincoln, Chatters, & Taylor, Reference Lincoln, Chatters and Taylor2003). For all other racial minority groups, our findings were generally consistent with previous findings (Adeola & Picou, Reference Adeola and Picou2012; Canino et al., Reference Canino, Bravo, Rubio-Stipec and Woodbury1990; Galea et al., Reference Galea, Nandi and Vlahov2005a; Jorm et al., Reference Jorm, Windsor, Dear, Anstey, Christensen and Rodgers2005).

Our results indicated that enrollees who experienced higher levels of exposure to the traumatic events of 9/11 were more likely to be members of greater psychological distress trajectories. Previous studies assessing 9/11 disaster exposure, as well as exposure to other disasters, have found that greater levels of disaster exposure are associated with greater psychological sequelae (Adams & Boscarino, Reference Adams and Boscarino2006; Brackbill et al., Reference Brackbill, Stellman, Perlman, Walker and Farfel2013; Bromet et al., Reference Bromet, Hobbs, Clouston, Gonzalez, Kotov and Luft2016; Galea et al., Reference Galea, Ahern, Resnick, Kilpatrick, Bucuvalas, Gold and Vlahov2002; Paz García-Vera, Sanz, & Gutiérrez, Reference Paz García-Vera, Sanz and Gutiérrez2016). Many of these studies do not assess a sample containing both rescue/recovery workers and Manhattan residents, area workers, school students and staff, and passersby (Liu et al., Reference Liu, Tarigan, Bromet and Kim2014; Lowell et al., Reference Lowell, Suarez-Jimenez, Helpman, Zhu, Durosky, Hilburn and Neria2018). Previous studies of unmet mental health needs among individuals exposed to the WTC disaster have found unmet mental health needs to be higher among community members compared to rescue/recovery workers (Brackbill et al., Reference Brackbill, Stellman, Perlman, Walker and Farfel2013). A meta-analysis by Liu et al. (Reference Liu, Tarigan, Bromet and Kim2014) suggested that probable PTSD risk was higher among community members compared to rescue/recovery workers. The current study produced similar results; we observed a consistent trend wherein rescue/recovery workers were less likely to be in the greater distress trajectory groups. Rescue/recovery worker status is likely an important factor in the relationship between disaster exposure and psychological distress.

Despite adjusting for disaster exposure, as well as a large number of other time-varying and time-invariant confounders such as PTSD diagnosis, pre- and post-9/11 trauma, community members were more likely to be in the greater distress trajectory groups, with a general trend of increasing effect sizes across greater distress trajectory groups. It is possible that rescue/recovery workers were better equipped to cope with the trauma of 9/11 than community members due to occupational training. Feder et al. (Reference Feder, Mota, Salim, Rodriguez, Singh, Schaffer and Pietrzak2016) found that perceived preparedness was negatively associated with severe PTSD trajectories in a study of first-responders to the WTC disaster. Among UK Armed Forces Personnel deployed in Iraq, perceived preparedness was negatively associated with PTSD symptoms (Iversen et al., Reference Iversen, Fear, Ehlers, Hughes, Hull, Earnshaw and Hotopf2008). Although there is gradation in perceived preparedness within first-responders, it is likely that first responders generally felt more prepared for exposure to the traumatic events of the WTC disaster, than community members. Lower income, younger age, single marital status, distrust of government, and limited exposure to public service announcements are all associated with limited personal disaster preparedness (Kohn et al., Reference Kohn, Eaton, Feroz, Bainbridge, Hoolachan and Barnett2012). Concerted efforts to increase disaster preparedness among civilians may yield mental health benefits following exposure to a disaster.

First-responders often engage in collective coping via formal and informal peer-support (Adams, Anderson, Turner, & Armstrong, Reference Adams, Anderson, Turner and Armstrong2011; Clompus & Albarran, Reference Clompus and Albarran2016; Moran & Roth, Reference Moran and Roth2013; Prati, Pietrantoni, & Cicognani, Reference Prati, Pietrantoni and Cicognani2011). The limited sociodemographic and cultural heterogeneity of WTC first-responders, close collectivist culture of first-responder organizations, and shared traumatic experiences may have afforded a more available and relatable peer support system to the WTC first-responders (Crupi & Brondolo, Reference Crupi and Brondolo2017; Freedman, Reference Freedman2004). Long-form interviews of WTC first-responders also revealed occupational rituals that developed among first responders, such as routine communal prayers throughout the weeks following the disaster – even referred to as ‘ground zero religion’ (Freedman, Reference Freedman2004). Such a level of communal support may not have been broadly available to community members exposed to the WTC disaster.

This study has several strengths. Although the K6 is a widely used scale, longitudinal analyses involving the K6 are fairly limited in number. This is important because the K6 is significantly associated with a variety of mental health conditions; a longitudinal analysis of the K6 can yield insight on the long-term response to a disaster (Kessler et al., Reference Kessler, Andrews, Colpe, Hiripi, Mroczek, Normand and Zaslavsky2002). Although our work is descriptive, exploring the sociodemographic, disaster exposure-related, and health-related risk factors is important in an area of study where sample sizes have been small, and duration of follow-up is relatively short. The WTCHR has a large sample size; to our knowledge, this study is the largest trajectory analysis of psychological distress over time. The prospective cohort study design of the WTCHR facilitated an extensive follow-up period of 15 years post-disaster. Additionally, due to the breadth of topics covered by the WTCHR, we were able to adjust models for covariates hypothesized to be important in the relationship between exposure to 9/11 and psychological distress. Finally, the SAS macro PROC TRAJ is robust to the data limitations we encountered such as inconsistent gaps of time between wave surveys, non-normally distributed outcomes, and only having three K6 scores for each individual.

However, this study also had some limitations. The current analysis is not causal, as the WTCHR data collection began 2 years after 9/11; pre-9/11 K6 scores were not available. Although we were able to adjust for a substantial number of confounders, the psychological distress reported by participants cannot necessarily be solely attributed to the events of 9/11. The inability to incorporate wave 3 K6 data due to an error in the wave 3 survey may have affected our trajectory analysis results. Additionally, some factors that conceptually are likely time-varying were represented as time-invariant variables due to the structure of the queries in the WTCHR. For example, income was not asked about at wave 2. Additionally, the analytical sample was predominantly White, of high education and income, and employed, which may affect the generalizability of our results. In addition, because this cohort has been followed up to 15 years post-disaster, substantial attrition from the cohort occurred. Previous investigations of this attrition have found that although 9/11 variables were not associated with non-response, those with PTSD at baseline were more likely to drop out of future surveys. Thus, attrition and loss to follow-up may have biased the analytical sample toward individuals who were healthier (Yu, Brackbill, Stellman, Ghuman, & Farfel, Reference Yu, Brackbill, Stellman, Ghuman and Farfel2015). Although this likely led to issues with external validity, we cannot exclude the possibility of selection bias. The analytical strategy included a large number of covariates; thus, it is possible that multiple testing could have led to some false-positive results. However, we focused on patterns of associations rather than pure statistical significance. Finally, although responses were checked for consistency, all survey items were based on self-report and liable to recall error.

Conclusions

The longitudinal psychological response to traumatic events is heterogeneous; clear patterns of stable, worsening, and improving psychological well-being became apparent in a large population of individuals exposed to the WTC disaster. By adjusting for a variety of demographic, socioeconomic, physical and mental health features, we were able to further explore the relationship between disaster exposure, rescue/recovery worker status, and psychological distress. To our knowledge, our study is the largest analysis with the longest duration of follow-up of psychological distress trajectories among the trauma-exposed, and indicated areas for further study and potential targets for psychological intervention among trauma-exposed individuals. Therapy services emphasizing collective coping following a disaster, as well as increasing public awareness of disaster preparedness may be potential avenues for improving long-term psychological well-being following a disaster.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/S0033291720004912

Financial support

This research was supported in part by funding from the New York City Department of Health and Mental Hygiene NYC Epi Scholars Program and ATSDR/CDC (U50/ATU272750), NIOSH/CDC (2U50/OH009739 and 5U50/OH009739).

Conflict of interest

The authors have no conflicts of interest to declare.

Footnotes

*

Now at NYU School of Medicine, Department of Pediatrics, Division of Environmental Pediatrics, New York, NY, USA.

References

Adams, T., Anderson, L., Turner, M., & Armstrong, J. (2011). Coping through a disaster: Lessons from hurricane Katrina. Journal of Homeland Security and Emergency Management, 8(1), 117.10.2202/1547-7355.1836CrossRefGoogle Scholar
Adams, R. E., & Boscarino, J. A. (2005). Stress and well-being in the aftermath of the World Trade Center attack: The continuing effects of a communitywide disaster. Journal of Community Psychology, 33, 175190.CrossRefGoogle ScholarPubMed
Adams, R. E., & Boscarino, J. A. (2006). Predictors of PTSD and delayed PTSD after disaster. The Journal of Nervous and Mental Disease, 194, 485493.Google ScholarPubMed
Adeola, F. O., & Picou, J. S. (2012). Race, social capital, and the health impacts of Katrina: Evidence from the Louisiana and Mississippi gulf coast. Human Ecology Review, 19, 1024.Google Scholar
Andruff, H., Carraro, N., Thompson, A., Gaudreau, P., & Louvet, B. (2009). Latent class growth modelling: A tutorial. Tutorials in Quantitative Methods for Psychology, 5, 1124.CrossRefGoogle Scholar
Barnes, D. M., & Bates, L. M. (2017). Do racial patterns in psychological distress shed light on the Black–White depression paradox? A systematic review. Social Psychiatry and Psychiatric Epidemiology, 52, 913928.CrossRefGoogle Scholar
Beaglehole, B., Mulder, R. T., Frampton, C. M., Boden, J. M., Newton-Howes, G., & Bell, C. J. (2018). Psychological distress and psychiatric disorder after natural disasters: Systematic review and meta-analysis. The British Journal of Psychiatry, 213, 716722.CrossRefGoogle ScholarPubMed
Benight, C. C., Freyaldenhoven, R. W., Hughes, J., Ruiz, J. M., Zoschke, T. A., & Lovallo, W. R. (2000). Coping self-efficacy and psychological distress following the Oklahoma city bombing. Journal of Applied Social Psychology, 30, 13311344.CrossRefGoogle Scholar
Blanchard, E. B., Jones-Alexander, J., Buckley, T. C., & Forneris, C. A. (1996). Psychometric properties of the PTSD checklist (PCL). Behaviour Research and Therapy, 34, 669673.CrossRefGoogle ScholarPubMed
Bonanno, G. A. (2004). Loss, trauma, and human resilience: Have we underestimated the human capacity to thrive after extremely aversive events? American Psychologist, 59, 2028.CrossRefGoogle ScholarPubMed
Brackbill, R. M., Stellman, S. D., Perlman, S. E., Walker, D. J., & Farfel, M. R. (2013). Mental health of those directly exposed to the World Trade Center disaster: Unmet mental health care need, mental health treatment service use, and quality of life. Social Science & Medicine (1982), 81, 110114.CrossRefGoogle Scholar
Bratter, J. L., & Eschbach, K. (2005). Race/ethnic differences in nonspecific psychological distress: Evidence from the national health interview survey. Social Science Quarterly, 86, 620644.CrossRefGoogle Scholar
Bromet, E. J., Hobbs, M. J., Clouston, S. A. P., Gonzalez, A., Kotov, R., & Luft, B. J. (2016). DSM-IV post-traumatic stress disorder among World Trade Center responders 11–13 years after the disaster of 11 September 2001 (9/11). Psychological Medicine, 46, 771783.CrossRefGoogle ScholarPubMed
Canino, G., Bravo, M., Rubio-Stipec, M., & Woodbury, M. (1990). The impact of disaster on mental health: Prospective and retrospective analyses. International Journal of Mental Health, 19, 5169.CrossRefGoogle Scholar
Clompus, S. R., & Albarran, J. W. (2016). Exploring the nature of resilience in paramedic practice: A psycho-social study. International Emergency Nursing, 28, 17.10.1016/j.ienj.2015.11.006CrossRefGoogle Scholar
Crupi, R., & Brondolo, E. (2017). Posttraumatic stress disorder post 9/11: A review of the evidence and implications for public health policy. TPM-Testing, Psychometrics, Methodology in Applied Psychology, 24, 363378.Google Scholar
Curran, P. J., Obeidat, K., & Losardo, D. (2010). Twelve frequently asked questions about growth curve modeling. Journal of Cognition and Development, 11, 121136.CrossRefGoogle ScholarPubMed
Dhingra, S. S., Strine, T. W., Holt, J. B., Berry, J. T., & Mokdad, A. H. (2009) Rural-urban variations in psychological distress: Findings from the behavioral risk factor surveillance system, 2007. International Journal of Public Health 54 (Suppl 1), 1622.CrossRefGoogle ScholarPubMed
DiGrande, L., Neria, Y., Brackbill, R. M., Pulliam, P., & Galea, S. (2011). Long-term posttraumatic stress symptoms among 3271 civilian survivors of the September 11, 2001, terrorist attacks on the world trade center. American Journal of Epidemiology, 173, 271281.CrossRefGoogle Scholar
Farfel, M., DiGrande, L., Brackbill, R., Prann, A., Cone, J., Friedman, S., … Thorpe, L. (2008). An overview of 9/11 experiences and respiratory and mental health conditions among world trade center health registry enrollees. Journal of Urban Health, 85, 880909.CrossRefGoogle ScholarPubMed
Feder, A., Mota, N., Salim, R., Rodriguez, J., Singh, R., Schaffer, J., … Pietrzak, R. H. (2016). Risk, coping and PTSD symptom trajectories in World Trade Center responders. Journal of Psychiatric Research, 82, 6879.CrossRefGoogle ScholarPubMed
Freedman, T. G. (2004). Voices of 9/11 first responders: Patterns of collective resilience. Clinical Social Work Journal, 32, 377393.CrossRefGoogle Scholar
Freedy, J. R., Saladin, M. E., Kilpatrick, D. G., Resnick, H. S., & Saunders, B. E. (1994). Understanding acute psychological distress following natural disaster. Journal of Traumatic Stress, 7, 257273.CrossRefGoogle ScholarPubMed
Galea, S., Ahern, J., Resnick, H., Kilpatrick, D., Bucuvalas, M., Gold, J., & Vlahov, D. (2002). Psychological sequelae of the September 11 terrorist attacks in New York city. New England Journal of Medicine, 346, 982987.CrossRefGoogle ScholarPubMed
Galea, S., Nandi, A., & Vlahov, D. (2005). The epidemiology of post-traumatic stress disorder after disasters. Epidemiologic Reviews, 27, 7891.CrossRefGoogle ScholarPubMed
Hardin, S. B., Weinrich, M., Weinrich, S., Hardin, T. L., & Garrison, C. (1994). Psychological distress of adolescents exposed to hurricane Hugo. Journal of Traumatic Stress, 7, 427440.CrossRefGoogle ScholarPubMed
Iversen, A. C., Fear, N. T., Ehlers, A., Hughes, J. H., Hull, L., Earnshaw, M., … Hotopf, M. (2008). Risk factors for post traumatic stress disorder amongst United Kingdom Armed Forces personnel. Psychological Medicine, 38, 511522.CrossRefGoogle Scholar
Jacobson, M. H., Norman, C., Nguyen, A., & Brackbill, RM (2018) Longitudinal determinants of depression among World Trade Center Health Registry enrollees, 14–15 years after the 9/11 attacks. Journal of Affective Disorders, 229, 483490.CrossRefGoogle Scholar
Jones, B. L., & Nagin, D. S. (2007). Advances in group-based trajectory modeling and an SAS procedure for estimating them. Sociological Methods & Research, 35, 542571.CrossRefGoogle Scholar
Jones, BL, Nagin, DS, & Roeder, K (2001) A SAS procedure based on mixture models for estimating developmental trajectories. Sociological Methods & Research 29, 374393.CrossRefGoogle Scholar
Jorm, A. F., Windsor, T. D., Dear, K. B. G., Anstey, K. J., Christensen, H., & Rodgers, B. (2005). Age group differences in psychological distress: The role of psychosocial risk factors that vary with age. Psychological Medicine, 35, 12531263.CrossRefGoogle ScholarPubMed
Kessler, R. C., Andrews, G., Colpe, L. J., Hiripi, E., Mroczek, D. K., Normand, S. L. T., … Zaslavsky, A. M. (2002). Short screening scales to monitor population prevalences and trends in non-specific psychological distress. Psychological Medicine, 32, 959976.CrossRefGoogle ScholarPubMed
Kessler, R. C., Barker, P. R., Colpe, L. J., Epstein, J. F., Gfroerer, J. C., Hiripi, E., … Zaslavsky, A. M. (2003). Screening for serious mental illness in the general population. Archives of General Psychiatry, 60, 184189.CrossRefGoogle ScholarPubMed
Kessler, R. C., Galea, S., Jones, R. T., & Parker, H. A. (2006). Mental illness and suicidality after hurricane Katrina. Bulletin of the World Health Organization, 84, 930939.CrossRefGoogle ScholarPubMed
Kohn, S., Eaton, J. L., Feroz, S., Bainbridge, A. A., Hoolachan, J., & Barnett, D. J. (2012). Personal disaster preparedness: An integrative review of the literature. Disaster Medicine and Public Health Preparedness, 6, 217231.CrossRefGoogle ScholarPubMed
Lincoln, K. D., Chatters, L. M., & Taylor, R. J. (2003). Psychological distress among black and white Americans: Differential effects of social support, negative interaction and personal control. Journal of health and social behavior, 44, 390407.CrossRefGoogle ScholarPubMed
Liu, B., Tarigan, L. H., Bromet, E. J., & Kim, H. (2014). World Trade Center disaster exposure-related probable posttraumatic stress disorder among responders and civilians: A meta-analysis. PLoS ONE, 9, e101491.CrossRefGoogle ScholarPubMed
Lowe, S. R., & Rhodes, J. E. (2013). Trajectories of psychological distress among low-income, female survivors of hurricane Katrina. American Journal of Orthopsychiatry, 83, 398412.CrossRefGoogle Scholar
Lowell, A., Suarez-Jimenez, B., Helpman, L., Zhu, X., Durosky, A., Hilburn, A., … Neria, Y. (2018). 9/11-Related PTSD among highly exposed populations: A systematic review 15 years after the attack. Psychological Medicine, 48, 537553.CrossRefGoogle ScholarPubMed
Maslow, C. B., Caramanica, K., Welch, A. E., Stellman, S. D., Brackbill, R. M., & Farfel, M. R. (2015). Trajectories of scores on a screening instrument for PTSD Among world trade center rescue, recovery, and clean-up workers. Journal of Traumatic Stress, 28, 198205.CrossRefGoogle ScholarPubMed
Moran, L., & Roth, G. (2013). Humor in context: Fire service and joking culture. New Horizons in Adult Education and Human Resource Development, 25, 1426.CrossRefGoogle Scholar
Murphy, J., Brackbill, R. M., Thalji, L., Dolan, M., Pulliam, P., & Walker, D. J. (2007). Measuring and maximizing coverage in the World Trade Center Health Registry. Statistics in Medicine, 26, 16881701.CrossRefGoogle ScholarPubMed
Norris, F. H., Perilla, J. L., Riad, J. K., Kaniasty, K., & Lavizzo, E. A. (1999). Stability and change in stress, resources, and psychological distress following natural disaster: Findings from hurricane Andrew. Anxiety, Stress, & Coping, 12, 363396.CrossRefGoogle ScholarPubMed
Norris, F. H., Tracy, M., & Galea, S. (2009). Looking for resilience: Understanding the longitudinal trajectories of responses to stress. Social Science & Medicine, 68, 21902198.CrossRefGoogle ScholarPubMed
Oe, M., Maeda, M., Nagai, M., Yasumura, S., Yabe, H., Suzuki, Y., … Abe, M. (2016). Predictors of severe psychological distress trajectory after nuclear disaster: Evidence from the Fukushima Health Management Survey. BMJ Open, 6, e013400.CrossRefGoogle ScholarPubMed
Paz García-Vera, M., Sanz, J., & Gutiérrez, S. (2016). A systematic review of the literature on posttraumatic stress disorder in victims of terrorist attacks. Psychological Reports, 119, 328359.CrossRefGoogle ScholarPubMed
Pelayo-Terán, J. M., Diaz, F. J., Pérez-Iglesias, R., Suárez-Pinilla, P., Tabarés-Seisdedos, R., de León, J., & Crespo-Facorro, B. (2014). Trajectories of symptom dimensions in short-term response to antipsychotic treatment in patients with a first episode of non-affective psychosis. Psychological Medicine, 44, 3750.CrossRefGoogle ScholarPubMed
Perrin, M. A., DiGrande, L., Wheeler, K., Thorpe, L., Farfel, M., & Brackbill, R. (2007). Differences in PTSD prevalence and associated risk factors among World Trade Center disaster rescue and recovery workers. The American Journal of Psychiatry, 164, 13851394.CrossRefGoogle ScholarPubMed
Pietrzak, R. H., Feder, A., Singh, R., Schechter, C. B., Bromet, E. J., Katz, C. L., … Southwick, S. M. (2014). Trajectories of PTSD risk and resilience in World Trade Center responders: An 8-year prospective cohort study. Psychological Medicine, 44, 205219.CrossRefGoogle ScholarPubMed
Prati, G., Pietrantoni, L., & Cicognani, E. (2011). Coping strategies and collective efficacy as mediators between stress appraisal and quality of life among rescue workers. International Journal of Stress Management, 18, 181195.CrossRefGoogle Scholar
Ruggiero, K. J., Ben, K. D., Scotti, J. R., & Rabalais, A. E. (2003). Psychometric properties of the PTSD checklist – civilian version. Journal of Traumatic Stress, 16, 495502.CrossRefGoogle ScholarPubMed
Shigemura, J., Tanigawa, T., Sano, S. Y., Sato, Y., Yoshino, A., Fujii, C., … Nomura, S. (2012). Psychological trauma risks among disaster workers: Perspectives on their mental health following the Great East Japan Earthquake. Seishin shinkeigaku zasshi = Psychiatria et neurologia Japonica, 114, 12671273.Google ScholarPubMed
Thomas, E. G., Spittal, M. J., Heffernan, E. B., Taxman, F. S., Alati, R., & Kinner, S. A. (2016). Trajectories of psychological distress after prison release: Implications for mental health service need in ex-prisoners. Psychological Medicine, 46, 611621.CrossRefGoogle ScholarPubMed
Tomitaka, S., Kawasaki, Y., Ide, K., Akutagawa, M., Ono, Y., & Furukawa, T. A. (2019). Distribution of psychological distress is stable in recent decades and follows an exponential pattern in the US population. Scientific Reports, 1(9), 11982.CrossRefGoogle Scholar
Wahlström, L., Michélsen, H., Schulman, A., & Backheden, M. (2008). Different types of exposure to the 2004 tsunami are associated with different levels of psychological distress and posttraumatic stress. Journal of Traumatic Stress, 21, 463470.CrossRefGoogle Scholar
Wang, P. S., Gruber, M. J., Powers, R. E., Schoenbaum, M., Speier, A. H., Wells, K. B., & Kessler, R. C. (2007). Mental health service use among hurricane Katrina survivors in the eight months after the disaster. Psychiatric Services (Washington, D.C.), 58, 14031411.CrossRefGoogle ScholarPubMed
Welch, A. E., Caramanica, K., Maslow, C. B., Brackbill, R. M., Stellman, S. D., & Farfel, M. R. (2016). Trajectories of PTSD among lower Manhattan residents and area workers following the 2001 world trade center disaster, 2003–2012. Journal of Traumatic Stress, 29, 158166.CrossRefGoogle ScholarPubMed
Willett, J. B., & Bub, K. L. (2014). Encyclopedia of Statistics in Behavioral Science (Vol. 4, pp. 19121922). Chichester: John Wiley & Sons, Ltd.Google Scholar
Williams, D. R., Yan, Y., Jackson, J. S., & Anderson, N. B. (1997). Racial differences in physical and mental health: Socio-economic status, stress and discrimination. Journal of Health Psychology, 2, 335351.CrossRefGoogle ScholarPubMed
Yu, S., Brackbill, R. M., Stellman, S. D., Ghuman, S., & Farfel, M. R. (2015). Evaluation of non-response bias in a cohort study of World Trade Center terrorist attack survivors. BMC Research Notes, 8, 42.CrossRefGoogle Scholar
Figure 0

Table 1. World Trade Center Health Registry enrollees' Kessler-6 (K6) scores at waves 1, 2, and 4

Figure 1

Fig. 1. Kessler-6 psychological distress trajectories, World Trade Center Health Registry, 2003–2016.

Figure 2

Table 2. Trajectories of psychological distress: mean Kessler-6 (K6) score and severe psychological distressa prevalence at waves 1, 2, and 4 with average posterior probabilities and intercept, linear, and quadratic parameter estimates

Figure 3

Table 3. Adjusted ORs and 95% CIs for associations between time-invariant characteristics and Kessler-6 (K6) trajectory group membership

Figure 4

Table 4. β-coefficients and standard errors (s.e.) for associations between time-varyinga characteristics and Kessler-6 (K6) score by K6 trajectory group

Supplementary material: File

Ko et al. supplementary material

Table S1

Download Ko et al. supplementary material(File)
File 20.5 KB