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Journal of the American Heart Association: Cardiovascular and Cerebrovascular Disease logoLink to Journal of the American Heart Association: Cardiovascular and Cerebrovascular Disease
. 2013 Oct 25;2(5):e000431. doi: 10.1161/JAHA.113.000431

Cardiovascular Disease Hospitalizations in Relation to Exposure to the September 11, 2001 World Trade Center Disaster and Posttraumatic Stress Disorder

Hannah T Jordan 1,, Steven D Stellman 1,2, Alfredo Morabia 2,3, Sara A Miller‐Archie 1, Howard Alper 4, Zoey Laskaris 3, Robert M Brackbill 1, James E Cone 1
PMCID: PMC3835258  PMID: 24157650

Abstract

Background

A cohort study found that 9/11‐related environmental exposures and posttraumatic stress disorder increased self‐reported cardiovascular disease risk. We attempted to replicate these findings using objectively defined cardiovascular disease hospitalizations in the same cohort.

Methods and Results

Data for adult World Trade Center Health Registry enrollees residing in New York State on enrollment and no cardiovascular disease history (n=46 346) were linked to a New York State hospital discharge–reporting system. Follow‐up began at Registry enrollment (2003–2004) and ended at the first cerebrovascular or heart disease (HD) hospitalization, death, or December 31, 2010, whichever was earliest. We used proportional hazards models to estimate adjusted hazard ratios (AHRs) for HD (n=1151) and cerebrovascular disease (n=284) hospitalization during 302 742 person‐years of observation (mean follow‐up, 6.5 years per person), accounting for other factors including age, race/ethnicity, smoking, and diabetes. An elevated risk of HD hospitalization was observed among women (AHR 1.32, 95% CI 1.01 to 1.71) but not men (AHR 1.16, 95% CI 0.97 to 1.40) with posttraumatic stress disorder at enrollment. A high overall level of World Trade Center rescue and recovery–related exposure was associated with an elevated HD hospitalization risk in men (AHR 1.82, 95% CI 1.06 to 3.13; P for trend=0.05), but findings in women were inconclusive (AHR 3.29, 95% CI 0.85 to 12.69; P for trend=0.09). Similar associations were observed specifically with coronary artery disease hospitalization. Posttraumatic stress disorder increased the cerebrovascular disease hospitalization risk in men but not in women.

Conclusions

9/11‐related exposures and posttraumatic stress disorder appeared to increase the risk of subsequent hospitalization for HD and cerebrovascular disease. This is consistent with findings based on self‐reported outcomes.

Keywords: 9/11 World Trade Center disaster, cardiovascular diseases, epidemiology, risk factors, stress

Introduction

Findings from the World Trade Center Health Registry (the Registry), a longitudinal cohort study of persons exposed to the September 11, 2001, World Trade Center disaster (9/11), have provided preliminary evidence of a link between 9/11‐related exposures and cardiovascular disease (CVD) risk, and specifically between event‐related posttraumatic stress disorder (PTSD) and CVD. High overall levels of 9/11‐related exposure were associated with heart disease–related mortality among Registry enrollees who lived, worked, attended school in, or were commuting through the World Trade Center area on 9/11.1 Among survivors of collapsed buildings, those exposed to the 9/11 dust and debris cloud had an increased risk of self‐reported physician‐diagnosed stroke.2 Moreover, measures of dust cloud exposure, injury on 9/11, and event‐related PTSD were associated with an elevated risk of self‐reported physician‐diagnosed heart disease among Registry enrollees 2 to 6 years after the disaster.3

Two of these studies relied on a self‐reported history of CVD.23 We therefore linked Registry enrollee data with data from the New York State Department of Health's Statewide Planning and Research Cooperative System (SPARCS), a hospitalization discharge–reporting system, to obtain objectively defined CVD end points. We sought to determine whether 9/11‐related factors were associated with an increased risk of subsequent CVD hospitalization.

Methods

Study Population

The Registry's methods have been described previously.45 Briefly, rescue/recovery workers and volunteers; lower Manhattan area residents, workers, and school attendees and staff; and commuters or passersby on 9/11 were recruited through building or employee lists or encouraged to enroll via a website or toll‐free telephone number. Between September 12, 2003, and November 24, 2004, 71 434 persons completed a telephone (95%) or in‐person (5%) enrollment questionnaire on exposures occurring on and after 9/11, sociodemographic factors, and health status. All participants gave verbal informed consent to participate in the Registry. The US Centers for Disease Control and Prevention and the New York City Department of Health and Mental Hygiene institutional review boards approved the Registry protocol.

Procedures

The New York State Department of Health's SPARCS program is an administrative reporting system that records data, including discharge diagnoses and dates, for all patients discharged from acute care hospitals in New York State, excluding psychiatric and federal hospitals. SPARCS data have been used for health research in the past, including studies of CVD hospitalizations.69

Personal identifying data for Registry enrollees were electronically linked to SPARCS records from January 1, 2000, through December 31, 2010. Records that matched on parts of key identifying information, such as name, date of birth, Social Security number, or address, were considered matches. Deaths were identified through data linkages to New York City vital records (through December 31, 2010) and the National Death Index (through December 31, 2008), as described previously.1

CVD Outcomes

We defined cardiovascular hospitalizations based on International Classification of Disease, 9th Revision (ICD‐9) codes for the principal discharge diagnosis. CVD hospitalizations were categorized as either heart disease or cerebrovascular disease hospitalizations. Heart disease hospitalizations included those for hypertension (ICD codes 401 to 405), acute coronary artery disease (410, 411), chronic coronary artery disease (412 to 414), dysrhythmia (427), and congestive heart failure (428). We also studied a more narrowly defined subset of these outcomes, coronary artery disease hospitalizations (ICD codes 410 to 414). Cerebrovascular disease was defined as ICD codes 430 to 438.

Exposure Assessment

Because objective measures of 9/11‐related exposures are not available for most persons exposed to the disaster, we defined exposure based on responses to the enrollment questionnaire, as summarized in Table 1. Dust cloud exposure was defined as answering “yes” to having been caught in the dust and debris cloud on 9/11. Injury was defined as reporting any of the following: eye injury or irritation; cut, abrasion, or puncture wound; sprain or strain; burn; broken or dislocated bone; or concussion or head injury. Rescue/recovery workers were asked questions about arrival time, location, type, and duration of work. Area residents and workers were asked about evacuation of their homes and workplaces. Because enrollees were queried about many different but overlapping exposures, we summarized the overall level of 9/11‐related exposure as high, intermediate, or low, separately for rescue/recovery and nonrescue/recovery enrollees, as described previously.1

Table 1.

Definitions of Overall Levels of Exposure to the World Trade Center Disaster and Its Aftermath1

Rescue/recovery workers
● High—Was present in Manhattan south of Chambers Street between the time of the first plane impact and noon on 9/11 (encompassing the WTC towers' collapse) and at least one of the following:
○ Worked on the dust and debris pile on 9/11 and/or
○ Worked for >90 days starting before September 18, 2001
● Low—Met all of the following conditions
○ Began work on or after September 18, 2001, and
○ Did not work on pile and
○ Worked fewer than 30 days and
○ Was not present south of Chambers Street between the first plane impact and noon on 9/11
● Intermediate—Neither high nor low
Residents of lower Manhattan, area workers, and commuters or passersby on 9/11.
● High—Reported at least two 9/11‐related injuries and, if a lower Manhattan resident, did not evacuate home
● Low—Reported no injuries related to 9/11 and, if a lower Manhattan resident, also evacuated home
● Intermediate—Neither high nor low

WTC indicates World Trade Center.

Additional Study Variables

Study participants were hierarchically categorized as rescue/recovery workers (including volunteers) or nonrescue/recovery workers (including lower Manhattan area residents or workers and passersby or commuters). A history of self‐reported, physician‐diagnosed hypertension or diabetes was obtained from the enrollment questionnaire. Posttraumatic stress disorder (PTSD) was assessed with the PTSD Checklist (PCL), a validated, 17‐item scale that inquired about 9/11‐specific psychological symptoms within the 30 days preceding the enrollment questionnaire.1012 We used a score ≥4410 to define probable PTSD, which we subsequently refer to as PTSD for simplicity. If an enrollee was missing responses to PCL items but had a score from the remaining items that could only be compatible with a total score of less than or ≥44, he or she was categorized accordingly. Otherwise, PTSD was considered missing.

Statistical Analysis

The observation period began at Registry enrollment and ended at the first cerebrovascular or heart disease hospitalization, death, or December 31, 2010, whichever was earliest. The analysis was limited to enrollees who lived in New York State on Registry enrollment (54 650, 76.5%) because SPARCS reflects only New York State hospitalizations. Participants who reported a history of stroke or heart disease before Registry enrollment (n=4443) or with a preenrollment cardiovascular or cerebrovascular disease hospitalization (n=338) were excluded. We also excluded enrollees who withdrew from the Registry (n=470), who were <18 years old on 9/11 (n=2740) or had missing age data (n=242), or were lower Manhattan area school students or staff but did not belong to other eligibility groups (n=71), due to small numbers. Enrollees with a first cerebrovascular disease hospitalization during the study period were excluded from analyses of heart disease hospitalizations, and vice versa. We stratified the analysis on sex due to well‐established differences in cardiovascular risk profiles for men and women.

Proportional hazards regression models were used to examine associations of 9/11‐related exposures and PTSD with heart disease and cerebrovascular hospitalizations accounting for factors that were theoretically and statistically associated with the outcomes in bivariate analysis: age, race/ethnicity, education, smoking, history of hypertension, and history of diabetes. We evaluated linear trends in the hazards ratios by including each exposure as a continuous variable in a multivariable analysis and testing whether its coefficient differed significantly from zero. The low, intermediate, and high levels were assigned values of 1, 2, and 3, respectively. The assumption of proportional hazards over time was tested for all models presented by using time‐dependent variables to assess interactions between each predictor of interest and a function of survival time and by using the Kolmogorov–Smirnov test.

We considered P‐values <0.05 or CIs that did not include 1 to be statistically significant. Analyses used SAS version 9.2 (SAS Institute Inc).

Results

Table 2 shows characteristics of the study group. Mean age on 9/11 was 41.6 years for women and 40.7 years for men. Compared with women, a higher proportion of men were non‐Hispanic white. A higher proportion of women were college graduates. Twenty‐two percent of women and 15% of men screened positive for PTSD at study enrollment. Among rescue/recovery enrollees, a larger proportion of men had a high overall level of 9/11‐related exposure.

Table 2.

Characteristics of Study Participants*

Women (n=18 679), % Men (n=27 667), %
Age on September 11, 2001, y
<25 8.1 5.4
25 to 44 51.5 60.8
45 to 64 36.6 31.7
65+ 3.8 2.1
Race/ethnicity
Non‐Hispanic white 49.4 66.6
Non‐Hispanic black 20.1 9.8
Hispanic 16.1 13.7
Asian 9.3 6.2
Other/multiracial 5.0 3.8
Education
Less than high school 5.2 6.0
High school 16.7 22.0
Some college 22.9 26.1
College graduate 53.5 44.5
Marital status
Married 38.5 63.0
Widowed/divorced/separated 21.3 9.8
Never married 30.3 18.8
Living with a partner 7.9 6.9
Smoking history
Never 58.8 54.3
Current 15.7 17.9
Former 24.1 26.5
History of hypertension
Yes 15.3 15.6
No 84.2 83.9
History of diabetes
Yes 4.0 4.0
No 95.6 95.6
9/11 dust cloud exposure
Yes 59.8 53.1
No 39.7 46.5
Injured on 9/11*
Yes 40.9 42.1
No 59.1 57.9
PTSD at enrollment
Yes 21.6 14.7
No 77.0 84.0
Rescue/recovery workers/volunteers n=3634 n=16 137
Overall level of exposure*
Low 16.7 4.3
Intermediate 73.6 77.1
High 5.5 15.7
Nonrescue/recovery participants n=15 045 n=11 530
Overall level of exposure*
Low 48.5 54.6
Intermediate 41.4 37.5
High 8.7 6.9

PTSD indicates posttraumatic stress disorder.

*

Percentages may not sum to 100 due to missing values.

*

Injury was defined as reporting any of the following: eye injury or irritation; cut, abrasion, or puncture wound; sprain or strain; burn; broken or dislocated bone; or concussion or head injury.

*

Please see Table 1 for definition of exposure levels.

We identified 1151 heart disease and 284 cerebrovascular hospitalizations from the SPARCS system during 302 742 person‐years of observation (mean follow‐up, 6.5 years per person). The most common heart disease admissions were for coronary atherosclerosis (ICD‐9 codes 411 [n=62], 413 [n=16], and 414 [n=401]), dysrhythmia (ICD‐9 code 427, n=269), and acute myocardial infarction (ICD‐9 code 410, n=223). Most cerebrovascular hospitalizations were for acute cerebrovascular disease (ICD‐9 codes 430 to 434, n=145) or transient ischemic attacks (ICD‐9 code 435, n=100).

Heart Disease Hospitalizations

Table 3 shows multivariable adjusted hazard ratios (AHRs) for relationships between 9/11‐related exposures and PTSD and heart disease hospitalization. Accounting for other factors, women with PTSD at enrollment had an elevated risk of heart disease hospitalization (AHR 1.32, 95% CI 1.01 to 1.71). Among men, this relationship did not reach statistical significance (AHR 1.16, 95% CI 0.97 to 1.40). Male rescue/recovery workers with a high overall level of 9/11‐related exposure were at an 82% higher risk of heart disease hospitalization compared with those with a low level of exposure (P for trend 0.05). The hazard ratios for female rescue/recovery workers with high or intermediate levels of exposure were also elevated, but this was not statistically significant (P for trend 0.09).

Table 3.

Sex‐Specific Associations of 9/11‐Related Exposures and PTSD With Heart Disease Hospitalization Among Participants in the World Trade Center Health Registry residing in New York State, 2003–2010

Women (n=18 551) Men (n=27 511)
Number of Events* Person‐Years AHR 95% CI Number of Events* Person‐Years AHR 95% CI
9/11 Dust cloud exposure
Yes 178 73 826 0.96 0.75 to 1.22 450 95 219 0.96 0.84 to 1.11
No 118 48 488 Ref. 402 82 794 Ref.
Injured on 9/11*
Yes 126 50 418 0.93 0.74 to 1.19 377 75 256 1.11 0.97 to 1.28
No 170 72 544 Ref. 478 103 512 Ref.
PTSD at enrollment
Yes 94 26 413 1.32 1.01 to 1.71 146 25 947 1.16 0.97 to 1.40
No 197 94 878 Ref. 698 150 597 Ref.
Rescue/recovery enrollees Women (n=3 634) Men (n=16 137)
Overall level of exposure**
Low 4 4036 Ref. 16 4468 Ref.
Intermediate 36 17 616 1.72 0.60 to 4.94 407 80 225 1.63 0.99 to 2.69
High 5 1317 3.29 0.85 to 12.69 82 16 242 1.82 1.06 to 3.13
Nonrescue/recovery enrollees Women (n=15 045) Men (n=11 530)
Overall level of exposure*
Low 98 48 223 Ref. 164 41 003 Ref.
Intermediate 125 40 755 0.94 0.71 to 1.25 140 27 775 0.92 0.72 to 1.16
High 20 8661 0.88 0.54 to 1.43 22 5157 0.94 0.60 to 1.47

Hospitalizations were identified through data linkage with the New York State Department of Health Statewide Planning and Research Cooperative System (SPARCS). Each predictor was examined in a separate model. HRs were adjusted for race/ethnicity, education, marital status, smoking, diabetes, and hypertension. AHR indicates adjusted hazard ratio; PTSD, posttraumatic stress disorder; Ref., reference group.

*

Number of heart disease hospitalizations may not sum to 1151 due to missing exposure data.

*

Injury was defined as reporting any of the following: eye injury or irritation; cut, abrasion, or puncture wound; sprain or strain; burn; broken or dislocated bone; or concussion or head injury.

*

Please see Table 1 for definition of exposure levels.

*

P value for trend=0.09 among women, 0.05 among men.

We repeated this analysis restricting the outcome to coronary artery disease hospitalizations (Table S1). The hazard ratios for associations between the various predictor variables and coronary artery disease hospitalization were similar to those for the more inclusively defined heart disease hospitalizations.

Cerebrovascular Disease Hospitalizations

An analysis of associations between 9/11‐related exposures and PTSD and cerebrovascular hospitalizations is shown in Table 4. AHRs for cerebrovascular disease hospitalization were elevated among both women and men with PTSD at enrollment, although the relationship was only statistically significant among men. None of the other exposures examined were significantly associated with cerebrovascular hospitalization.

Table 4.

Sex‐Specific Associations of 9/11‐Related Exposures and PTSD With Cerebrovascular Disease Hospitalization Among Participants in the World Trade Center Health Registry Residing in New York State, 2003–2010

Women (n=18 383) Men (n=26 812)
Number of Events* Person‐Years AHR 95% CI Number of Events* Person‐Years AHR 95% CI
9/11 Dust cloud exposure
Yes 76 73 441 0.84 0.58 to 1.22 85 94 007 1.03 0.75 to 1.42
No 51 48 277 Ref. 71 81 680
Injured on 9/11*
Yes 64 50 213 1.31 0.91 to 1.89 68 74 221 1.14 0.82 to 1.57
No 64 72 160 Ref. 88 102 214 Ref.
PTSD at enrollment
Yes 37 26 231 1.38 0.92 to 2.07 35 25 585 1.53 1.03 to 2.27
No 87 94 471 Ref. 121 148 665 Ref.
Rescue/recovery enrollees Women (n=3 586) Men (n=15 613)
Overall level of exposure**
Low 2 4029 Ref. 4 4426 Ref.
Intermediate 14 17 538 1.40 0.31 to 6.39 60 79 061 1.33 0.42 to 4.27
High 0 1303 12 15 998 1.66 0.46 to 5.95
Nonrescue/recovery enrollees Women (n=14 797) Men (n=11 199)
Overall level of exposure*
Low 39 47 990 Ref. 32 40 584 Ref.
Intermediate 60 40 550 1.34 0.87 to 2.08 41 27 457 1.16 0.71 to 1.90
High 11 8629 1.22 0.60 to 2.47 4 5086 0.83 0.29 to 2.36

Hospitalizations were identified through data linkage with the New York State Department of Health Statewide Planning and Research Cooperative System (SPARCS). Each predictor was examined in a separate model. HRs were adjusted for race/ethnicity, education, marital status, smoking, diabetes, and hypertension. AHR indicates adjusted hazard ratio; PTSD, posttraumatic stress disorder; Ref., reference group.

*

Number of cerebrovascular disease hospitalizations may not sum to 284 due to missing exposure data.

*

Injury was defined as reporting any of the following: eye injury or irritation; cut, abrasion, or puncture wound; sprain or strain; burn; broken or dislocated bone; or concussion or head injury.

*

Please see Table 1 for definition of exposure levels.

*

P value for trend=0.38 among men.

Discussion

Among female members of the WTC Health Registry cohort, the presence of PTSD at study enrollment was associated with an elevated risk of subsequent heart disease hospitalization. We also found an association between PTSD and cerebrovascular disease hospitalization among male enrollees. Additionally, male rescue/recovery enrollees with a high overall level of 9/11‐related exposure were at a higher risk of heart disease hospitalization compared with those with a low level of exposure. While the AHRs for these associations were not statistically significant for both men and women, the hazard ratios were of similar magnitude for the 2 sexes, suggesting that the associations identified may exist for both, although our study may be underpowered to detect this. These results, based on objectively defined cardiovascular end points, suggest that persons with 9/11‐related PTSD and those who performed intensive rescue/recovery work may be at an elevated risk of chronic CVD.

A growing body of literature, including prospective studies of well‐defined cardiovascular end points such as mortality, links PTSD to CVD in both military and civilian populations.1317 A number of feasible explanations for this association have been proposed, including chronic dysregulation of the hypothalamic‐pituitary‐adrenal axis and autonomic nervous system leading to long‐term physiological changes that promote atherosclerosis.1819 Adverse effects of PTSD on blood pressure and lipid metabolism have been reported, each of which could play an important role in the causal pathway.2022 Behaviors associated with PTSD, such as smoking and alcohol consumption, may also contribute.2324 Studies of PTSD and cerebrovascular disease, although fewer, also support a potential link.17,24 Since PTSD is 1 of the most commonly reported 9/11‐related health outcomes, it could have a considerable influence on CVD risk in this population.4

In contrast to results of our previous study of self‐reported heart disease in this cohort,3 we did not identify an association between measures of dust cloud exposure or injury on 9/11 and heart disease hospitalization. It is possible that our analysis of hospitalized cases was underpowered to detect this relationship, whereas the larger number of self‐reported cases enabled us to identify such an association. It is also possible that a relationship exists between these 9/11‐related exposures and milder manifestations of CVD, as reflected in self‐reported heart disease, but not between 9/11‐related exposures and more severe CVD that would tend to result in hospitalization. Additional years of study may help clarify the nature of the relationship between 9/11‐related exposures and chronic CVD risk.

Although this study builds on our previous work by using a more objective case definition, our findings remain limited by a lack of information on several CVD risk factors, including family history and dyslipidemia. The Registry has begun collecting data on hypercholesterolemia and body mass index among its enrollees, which will enable future studies to incorporate this information. However, epidemiological studies based on in‐depth clinical examination may be needed to further clarify the relation of 9/11‐related exposures and PTSD to heart disease and stroke, fully accounting for factors such as family history, physical activity level, and metabolic markers of cardiovascular risk factors. An additional limitation is potential underascertainment of hospitalizations among study participants, since personal identifying data used in the data linkage were incomplete for some Registry enrollees; SPARCS does not include federal or psychiatric hospitals; and study participants may have been hospitalized outside of New York State during the study period, which would not be reflected in SPARCS. This may have diminished the power of our study. Furthermore, our study did not determine whether PTSD was part of the causal pathway between 9/11‐related environmental exposures and CVD hospitalizations or whether PTSD and rescue/recovery‐related exposures were independent risk factors; we hope to explore this further when additional years of observation are available for study.

Limitations notwithstanding, these results are consistent with our previous finding of an association of 9/11‐related exposures and PTSD with CVD, and with a larger body of literature that has established environmental and psychological stressors as CVD risk factors.2530 Our results suggest that medical follow‐up of persons who performed intensive rescue/recovery work in response to the disaster or developed 9/11‐related PTSD should include screening for modifiable CVD risk factors, including smoking, hypertension, and dyslipidemia.

Sources of Funding

This publication was supported by Cooperative Agreement numbers 2U50OH009739 and 1U50OH009739 from the Centers for Disease Control and Prevention (CDC)‐National Institute for Occupational Safety and Health, and U50/ATU272750 from CDC‐Agency for Toxic Substances and Disease Registry which included support from CDC‐National Center for Environmental Health, and the New York City Department of Health and Mental Hygiene. Its contents are solely the responsibility of the authors and do not necessarily represent the official views of CDC.

Disclosures

None.

Acknowledgments

We thank Jiehui Li, James Stark, Wei‐Yann Tsai, and Sukhminder Osahan for their guidance on the statistical analysis, and John Piddock and Mike Zdeb for their assistance with preparation and cleaning of the data.

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