Hostname: page-component-cd9895bd7-mkpzs Total loading time: 0 Render date: 2024-12-28T03:39:18.210Z Has data issue: false hasContentIssue false

Military deployment to the Gulf War as a risk factor for psychiatric illness among US troops

Published online by Cambridge University Press:  02 January 2018

Nancy Fiedler*
Affiliation:
Department of Environmental and Occupational Medicine, University of Medicine and Dentistry of New Jersey (UMDNJ) and Robert Wood Johnson Medical School (RWJMS), Piscataway, New Jersey, USA
Gozde Ozakinci
Affiliation:
Bute Medical School, University of St Andrews, St Andrews, Fife, UK
William Hallman
Affiliation:
Department of Human Ecology – Social Science, Rutgers University, New Brunswick, New Jersey
Daniel Wartenberg
Affiliation:
Department of Environmental and Community Medicine, UMDNJ-RWJMS, Piscataway, New Jersey
Noel T. Brewer
Affiliation:
School of Public Health, University of North Carolina, Chapel Hill, North Carolina
Drue H. Barrett
Affiliation:
National Center for Environmental Health, Centers for Disease Control and Prevention, Atlanta, Georgia
Howard M. Kipen
Affiliation:
Department of Environmental and Occupational Medicine UMDNJ – RWJMS Piscataway, New Jersey, USA
*
Dr Nancy Fiedler, UMDNJ–Robert Wood Johnson Medical School, 170 Frelinghuysen Road, Piscataway, NJ 08854, USA. Tel: + 1 732 445 0123 extn 625; e-mail: nfiedler@eohsi.rutgers.edu
Rights & Permissions [Opens in a new window]

Abstract

Background

Several studies document an excess of psychiatric symptoms among veterans of the 1991 Gulf War. However, little is known about the prevalence of psychiatric disorders in those who were deployed to that conflict.

Aims

To compare the 12-month prevalence and associated risk factors for DSM Axis I psychiatric diagnoses between random samples of Gulf War-deployed veterans and veterans of the same era notdeployed to the Persian Gulf (era veterans).

Method

Interview data from 967 Gulf War veterans and 784 era veterans were examined to determine current health status, medical conditions, symptoms and Axis I psychiatric disorders. Logistic regression models evaluated risk factors for psychiatric disorder.

Results

Gulf War veterans had a significantly higher prevalence of psychiatric diagnoses, with twice the prevalence of anxiety disorders and depression. Lower rank, female gender and divorced or single marital status were significant independent predictors of psychiatric disorder.

Conclusions

Deployment to the Gulf War is associated with a range of mental health outcomes more than 10 years after deployment.

Type
Papers
Copyright
Copyright © Royal College of Psychiatrists, 2006 

Accumulating evidence suggests an excess of psychiatric symptoms among veterans deployed to the 1991 Persian Gulf War relative to veterans of the same era not deployed to that conflict (era veterans) (Presidential Advisory Committee on Gulf War Veterans’ Illness, 1996; Iowa Persian Gulf Study Group, 1997; Reference Fukuda, Nisenbaum and StewartFukuda et al, 1998; Reference Kroenke, Koslowe and RoyKroenke et al, 1998; Reference Unwin, Blatchley and CokerUnwin et al, 1999; Reference Kang, Mahan and LeeKang et al, 2000; Reference Cherry, Creed and SilmanCherry et al, 2001; Reference Grant, Stinson and HarfordGrant et al, 2001; Reference Hallman, Kipen and DiefenbachHallman et al, 2003). Only one study to date has investigated psychiatric disorders among Gulf War veterans using a structured interview (Reference Ismail, Kent and BrughaIsmail et al, 2002); however, the purpose of that study was to determine the extent to which psychiatric disorder accounted for Gulf War illness, defined as disability status. Our study contributes to the existing Gulf War literature by comparing the 12-month prevalence of Axis I psychiatric disorders between random samples of Gulf War-deployed and era veterans, about 10 years after the conflict.

METHOD

Sampling

The Defense Manpower Data Center of the United States Department of Defense provided a random sample from all US troops deployed (n=1765) and not deployed (era veterans; n=1832) to the Persian Gulf during the period of Operations Desert Shield and Desert Storm (5 August 1990 to 31 July 1991). Those selected for the study were sent a letter describing the project and requesting their consent to be interviewed. Records from the Internal Revenue Service and national directory assistance databases (e.g. TeleMatch) were used to locate veterans whose letters were returned without forwarding information. These databases did not include cellphone (mobile telephone) numbers.

Questionnaire

All telephone interviews were administered using a computer-assisted telephone interview program. Participants were asked to rate their current health status, to report on 40 medical conditions diagnosed by a physician and to rate the presence and severity of 60 symptoms (further details available from the author upon request).

The overall purpose of our study was to determine the current symptoms and psychiatric disorders of Gulf War veterans. Therefore, as part of the telephone interview, participants were administered the Composite International Diagnostic Interview – Short Form/Diagnostic and Statistical Manual IV (CIDI–SF/DSM–IV; World Health Organization, 2002) to assess generalised anxiety, panic disorder, simple phobia, social phobia, agoraphobia, obsessive–compulsive disorder, major depression, alcohol dependence and drug dependence for the past 12 months. The 12-month version of the CIDI (World Health Organization, 1997) for the DSM–IV (American Psychiatric Association, 1994) was used to assess post-traumatic stress disorder (PTSD), mania, anorexia nervosa and bulimia. Methodological studies have not been completed for all versions of the CIDI. However, reliability and validity data are available for the DSM–III–R lifetime CIDI: for example, kappa test–retest (1–3 days) reliabilities for the lifetime CIDI range from 0.64 for bulimia to 0.84 for panic disorder (Reference WittchenWittchen, 1994). Furthermore, sensitivity and specificity of the CIDI–SF/DSM–III–R were acceptable relative to results achieved with the lifetime CIDI/DSM–III–R administered in the National Comorbidity Survey (average sensitivity 90.75, range 77.0–100; average specificity 98.04, range 93.9–99.9; Reference Kessler, Wittchen and AbelsonKessler et al, 1998). The only essential difference between the DSM–III–R and DSM–IV versions of the CIDI–SF was the added requirement that symptoms result in clinically significant distress or impairment.

Positive predictive values for the lifetime CIDI compared with the Structured Clinical Interview for DSM–III–R have been calculated for diagnosis-specific random subsamples of the National Comorbidity Survey respondents. Positive predictive values ranged from 0.21 for generalised anxiety to 0.95 for social phobia (Reference Kessler, Wittchen and AbelsonKessler et al, 1998). These predictive values were for lifetime rather than 12-month diagnoses, however, and thus may be somewhat lower than would be expected for 12-month diagnoses. A more recent study comparing the CIDI 12-month version with a structured clinical interview conducted by a clinician found an overall positive predictive value of 0.89 for any neurotic disorder (Reference Jordanova, Wickramasinghe and GeradaJordanova et al, 2004). Owing to the infrequency of non-affective psychosis and bipolar disorder in the general population, it is difficult to achieve reliable diagnoses (Reference Kendler, Gallagher and AbelsonKendler et al, 1996; Reference Kessler, Rubinow and HolmesKessler et al, 1997). Therefore, these diagnoses were not evaluated.

Diagnostic scoring was based on the procedures outlined for the CIDI–SF and CIDI 12-month version, with the exception of somatisation. Because of time constraints, a full interview for somatisation disorder was not possible. An abridged definition requiring a minimum of six symptoms for women or four symptoms for men (Reference Escobar, Burnam and KarnoEscobar et al, 1987) was used to establish somatisation. If the person rated as moderate or severe any of 16 symptoms, similar to those used in the Primary Care Evaluation of Mental Disorders (PRIME–MD; Reference Spitzer, Williams and KroenkeSpitzer et al, 1994) to screen for somatisation (e.g. fainting, menstrual problems or abdominal pain), the symptom was counted toward a diagnosis of somatisation disorder. For each somatisation symptom reported, the probe flow procedure from the CIDI was used to rule out medical explanations. Medical explanations were reviewed, masked, by a physician (H.M.K.) for consistency with the symptom.

Thirty interviewers, experienced in social science interviews, were trained by clinicians to administer the interview and were tested individually using a set of live mock interviews. The probe flow method for the CIDI 12-month version was sequentially programmed. To ensure quality control throughout the study, portions of interviews conducted by each interviewer were covertly monitored twice per shift and 10% of the interviews were monitored in their entirety. Participants were told as a part of the informed consent that their interview could be monitored by a clinician or supervisor. Concordance on question sequence and coding was 100% for all cases monitored. The median interview length was 46.7 min (minimum 18.4 min, maximum 213.6). The interviewers were trained to recognise suicidal or homicidal intent and to alert the on-call clinical psychologist.

Procedure

The protocol and verbal consent were reviewed and approved by the institutional review boards of Robert Wood Johnson Medical School, Rutgers University and the Centers for Disease Control and Prevention. In accordance with US government requirements, a certificate of confidentiality was issued under the authority of the Department of Health and Human Services. Individuals selected and sent a letter describing the study were asked to return a prepaid postcard indicating a preference of date and time to be interviewed. Those who failed to return their postcards within 5 days were telephoned, to enquire about their interest in the study, answer questions and, if possible, obtain verbal consent and set up an interview time. Participant recruitment and interviewing took place from February 2000 until October 2001.

Statistical analyses

Chi-squared analyses (using the Statistical Package for the Social Sciences, version 12.1 for Windows) were used to analyse participant characteristics and to compare respondents and non-respondents. Twelve-month prevalence of psychiatric disorders was stratified by deployment status and gender. Separate logistic regressions to predict psychiatric diagnoses used the demographic variables for Gulf War and era veterans listed in Table 3. To increase the stability of the models, participants with any one of the following anxiety disorders were included in the combined logistic regression for anxiety: agoraphobia, general anxiety disorder, obsessive–compulsive disorder, panic attack, social phobia, simple phobia and PTSD. A second logistic regression model was developed for major depression and a third for drug or alcohol dependence. Owing to the small number of cases, logistic regression analyses were not performed to predict mania.

The logistic regression analyses used to summarise these data roughly followed the procedures of Hosmer & Lemeshow (Reference Hosmer and Lemeshow2000). The logistic regression models were fitted using a stepwise forward inclusion algorithm, with inclusion and exclusion criteria of P≤0.15 and P≥0.2 respectively. If a variable was a significant predictor in the model, then that variable with all of its sub-categories was used as the sole predictor of the diagnosis in a new analysis. To obtain a more parsimonious and interpretable model, sub-categories of the variable within the single predictor model with similar odds ratios were combined whereas sub-categories with large confidence intervals were excluded; the overall logistic regression model was then repeated with the new sub-categories and all other predictors included in the model. Referents for each variable were generally chosen based on the sub-category with the largest number of participants (see Table 5). All two-way interactions among predictors were evaluated, but none was significant at P≤0.05.

RESULTS

Response rates

Response and cooperation rates are shown in Table 1. Overall response rates were lowered because valid addresses or telephone numbers could not be located for about one-third of the sample. In addition, some veterans in our sample were ineligible (e.g. incarcerated, dead, not in the military during the Gulf War). However, for those veterans contacted and eligible, the cooperation rate was relatively high. An overall comparison of respondents and nonrespondents was based on the demographic data available from Department of Defense records (Table 2). This comparison revealed that greater proportions of White veterans, non-commissioned non-commissioned and warrant officers, and commissioned officers responded. Although age, gender and branch of service also differed significantly between respondents and non-respondents, the differences were relatively small.

Table 1 Response and cooperation rates

Gulf-deployed (n=1765) Era veterans (n=1832)
% (n) % (n)
Ineligible 6 (114) 15 (280)
Eligible 94 (1651) 85 (1552)
Reachable 68 (1118) 67 (1038)
Response rate1 59 (971) 51 (795)
Cooperation rate2 87 (971) 77 (795)

Table 2 Demographic characteristics of respondents and non-respondents

Total non-respondents Total respondents
n=1437 (45%) n=1767 (55%)
Age, years: mean 38.52 40.29 t=6.07* (d.f.=3202)
Gender, n (%) χ2=3.86* (d.f.=1)
    Men 1267 (88) 1596 (90)
    Women 170 (12) 171 (10)
Ethnicity, n (%) χ2=67.62* (d.f.=2)
    White 939 (65) 1383 (78)
    Black 366 (25) 295 (17)
    Other 132 (10) 89 (5)
Branch of service, n (%) χ2=55.35* (d.f.=4)
    Army 704 (49) 851 (48)
    Navy 165 (11) 364 (20)
    Air Force 342 (24) 331 (19)
    Marines 215 (15) 206 (12)
    Coast Guard 11 (1) 15 (1)
Rank, n (%) χ2=60.07* (d.f.=2)
    Enlisted 807 (56) 786 (44)
    NCO 501 (35) 688 (39)
    Officer 129 (9) 293 (17)
Duty, n (%) χ2=4.75 (d.f.=2)
    Active duty 986 (69) 1188 (67)
    Guard 172 (12) 257 (15)
    Reserve 279 (19) 322 (18)

Table 3 Demographic characteristics of Gulf War veterans and era veterans

Participants Department of Defense samples
Gulf War veterans (n=967) Era veterans (n=784) χ2 (d.f.) Gulf War veterans (n=1652) Era veterans (n=1552) χ2 (d.f.)
Age, years: mean (s.d.) 39.44 (7.96) 42.25 (8.86) 38.11 40.98 t=9.99* (3202)
Gender, n (%) 8.42* (1) 21.90* (1)
    Male 892 (92) 691 (88) 1517 (92) 1346 (87)
    Female 75 (8) 93 (12) 135 (8) 206 (13)
Ethnicity, n (%) 22.76* (2) 12.43* (2)
    White 733 (76) 662 (84) 1173 (71) 1149 (74)
    African American 190 (20) 103 (13) 378 (23) 283 (18)
    Other 44 (5) 19 (3) 101 (6) 120 (8)
Marital status while deployed, n (%) 20.52* (5)
    Married 516 (53) 471 (60)
    Divorced 41 (4) 47 (6)
    Separated 16 (2) 19 (3)
    Widowed 1 (<1) 1 (<1)
    Single (never married) 378 (39) 229 (29)
    Not married (living with partner) 15 (2) 17 (2)
Education,1 n (%) 18.18* (2)
    High school 238 (25) 148 (19)
    College 594 (61) 475 (61)
    Graduate school 135 (14) 161 (20)
Branch of service, n (%) 66.44* (3) 24.53* (4)
    Army 490 (51) 360 (46) 814 (49) 741 (48)
    Air Force 132 (13) 199 (25) 311 (19) 362 (23)
    Marines 154 (16) 52 (7) 223 (14) 198 (13)
    Navy 191 (20) 173 (22) 299 (18) 230 (15)
    Coast Guard 5 (<1) 21 (1)
Rank, n (%) 19.92* (2) 99.30* (2)
    Enlisted 299 (31) 177 (22) 962 (58) 631 (41)
    NCO 516 (53) 437 (56) 515 (31) 674 (43)
    Officer 152 (16) 170 (22) 175 (11) 247 (16)
Duty, n (%) 145.72* (2) 397.00* (2)
    Active 809 (84) 452 (58) 1384 (84) 790 (51)
    National Guard 64 (6) 124 (16) 106 (6) 323 (21)
    Reserves 94 (10) 208 (26) 162 (10) 439 (28)
Other deployments2 124 (13) 80 (10)

Sample characteristics

Relative to the other branches of the military (Army, Navy, Marines and Air Force), the sample contained a relatively small number of Coast Guard veterans (11 nondeployed; 4 deployed), who were excluded from all analyses. Furthermore, one member of the Gulf War-deployed group had missing data and was excluded from further analyses (Gulf War group, n=967; era group, n=784). Relative to the era veterans, a significantly greater proportion of Gulf War veterans were male, high-school educated, single during the war, and of African American or ‘other’ ethnic background (Table 3). The two groups were of comparable age. A significantly greater proportion of Gulf veterans were on active duty prior to the conflict, enlisted and in the Army or Marines, whereas a greater proportion of era veterans were in the National Guard or reserves prior to the conflict, officers and in the Air Force. However, comparison of the demographic profiles of the samples for Gulf War and era veterans provided by the Department of Defense revealed differences between the two groups similar to those reflected in our sample of respondents. That is, Gulf War veterans were somewhat younger and had a greater proportion of African Americans than the era group. The Gulf War group also had a greater proportion of men on active duty, in the Army, Navy or Marines, and of enlisted rank, than the era group (Table 3).

Twelve-month prevalence of psychiatric disorders

Overall, the Gulf War veterans met criteria for one or more psychiatric disorders more often than the era group (Table 4). Although little difference was seen in rates of alcohol dependence, specific phobia, mania and somatisation, prevalence rates for the remaining anxiety disorders, depression and drug dependence were two to three times higher for the Gulf War group relative to the era group. Within the former group, women had higher rates of every disorder except alcohol and drug dependence. Within the era group, women had higher rates of every disorder except alcohol dependence. For all psychiatric disorders, women in the era group had higher rates than male Gulf War veterans.

Table 4 Twelve-month prevalence of psychiatric diagnosis for Gulf War veterans v. era veterans, males v. females

Diagnosis Gulf War veterans, n (%) Era veterans, n (%) NCS, %1 (n=8098)
Male (n=892) Female (n=75) Total (n=967) Male (n=691) Female (n=93) Total (n=784)
Alcohol dependence 43 (4.8) 1 (1.3) 44 (4.6) 23 (3.3) 1 (1.1) 24 (3.1) 10.7
Drug dependence 11 (1.2) 1 (1.3) 12* (1.2) 0 (0.0) 1 (1.1) 1* (0.1) 3.8
Any dependence 47 (5.3) 2 (2.7) 49 (5.1) 23 (3.3) 2 (2.2) 25* (3.2)
Major depression 127 (14.2) 19 (25.3) 146* (15.1) 50 (7.2) 11 (11.8) 61* (7.8) 7.7
Mania 4 (0.4) 1 (1.3) 5 (0.5) 1 (0.1) 1 (1.1) 2 (0.3) 1.4
Panic attack 11 (1.2) 4 (5.3) 15* (1.6) 4 (0.6) 0 (0.0) 4* (0.5) 1.3
Agoraphobia 9 (1.0) 2 (2.7) 11 (1.1) 3 (0.4) 0 (0.0) 3 (0.4) 1.7
Specific phobia 75 (8.4) 11 (14.7) 86 (8.9) 43 (6.2) 10 (10.8) 53 (6.8) 4.4
Social phobia 31 (3.5) 4 (5.3) 35* (3.6) 9 (1.3) 4 (4.3) 13* (1.7) 6.6
Obsessive—compulsive disorder 23 (2.6) 4 (5.3) 27* (2.8) 8 (1.2) 1 (1.1) 9* (1.1)
PTSD 30 (3.4) 3 (4.0) 33* (3.4) 5 (0.7) 2 (2.2) 7* (0.9) 5.02
General anxiety disorder 52 (5.8) 6 (8.0) 58* (6.0) 15 (2.2) 6 (6.5) 21* (2.7) 2.0
Any anxiety disorder 136 (15.3) 19 (25.3) 155* (16.0) 60 (8.7) 16 (17.2) 76* (9.7)
Somatisation 0 (0.0) 4 (5.3) 4 (0.4) 0 (0.0) 2 (2.2) 2 (0.3)
Anorexia 0 (0.0) 0 (0.0) 0 (0.0) 0 (0.0) 0 (0.0) 0 (0.0)
Bulimia 0 (0.0) 0 (0.0) 0 (0.0) 0 (0.0) 0 (0.0) 0 (0.0)
Any psychiatric disorder 222 (24.9) 30 (40.0) 252* (26.1) 100 (14.5) 26 (28.0) 126* (16.1)

Table 5 Stepwise logistic regression models to predict psychiatric disorder

Risk factors Anxiety1 Dependence2 Depression
OR (95% CI) OR (95% CI) OR (95% CI)
Gulf War deployed (referant: era veterans) 1.81 (1.34-2.45) 2.07 (1.50-2.85)
Other deployment3 1.91 (1.04-3.54)
Rank (referant: enlisted)
    NCO 0.67 (0.48-0.93) 0.40 (0.24-0.66) 0.68 (0.50-0.94)
    Officer 0.28 (0.17-0.48) 0.08 (0.02-0.35) 0.47 (0.26-0.85)
Branch (referant: army)
    Air Force 0.65 (0.42-0.99)
    Marines 0.50 (0.30-0.83)
    Navy 0.86 (0.60-1.24)
Female (referant: male) 1.91 (1.25-2.91) 0.48 (0.17-1.33) 1.91 (1.22-2.99)
Marital status (referant: married)
    Divorced 1.47 (0.81-2.68) 1.91 (0.64-5.67)
    Separated 0.28 (0.07-1.21) 0.96 (0.12-7.40)
    Single, living with partner 0.90 (0.65-1.23) 1.83 (1.07-3.13)
Education (referant: high school)
    College education 0.72 (0.51-1.01)
    Graduate education 0.62 (0.33-1.15)

For depression, being deployed to the Gulf, female, high-school educated and enlisted were each significant independent predictors in the logistic regression model (see Table 5). Predictors for anxiety disorders included Gulf deployment, female gender, being divorced at the time of the Gulf War, enlisted relative to non-commissioned officer (NCO) or officer rank, and being in the Army relative to the other services. For alcohol or drug dependence, being male, enlisted, divorced, single or living with someone and deployment other than to the Persian Gulf were significant independent risk factors. No two-way interaction was a significant predictor for any of the psychiatric disorders.

DISCUSSION

Veterans deployed to the Gulf War had significantly higher prevalence of psychiatric diagnoses than era veterans, with deployment as a powerful predictor of current (past 12 months) depression and anxiety disorders approximately 10 years after the end of the Gulf War. These findings confirm and extend those of several previous studies among Gulf War veterans, showing increased psychological distress when assessed by questionnaire (Reference Perconte, Wilson and PontiusPerconte et al, 1993; Reference Stretch, Bliese and MarloweStretch et al, 1996; Reference Hallman, Kipen and DiefenbachHallman et al, 2003), increased reporting of physician-diagnosed PTSD and of hospitalisation for depression in a telephone survey (Reference McCauley, Lasarev and StickerMcCauley et al, 2002), and increased rates of depression, PTSD and alcohol misuse among deployed v. non-deployed veterans (Iowa Persian Gulf Study Group, 1997). Despite the frequency and psychological stress associated with deployment among service personnel, our study is one of the few to evaluate the effects of deployment on the 12-month prevalence of Axis I DSM–IV psychiatric disorders (excluding psychoses) among random samples of veterans.

For a subset of veterans deployed to sites in addition to the Gulf, these other deployments were associated with an increased risk of alcohol/drug dependence but not of depression or anxiety disorders. Experiencing multiple deployments and being single or divorced may increase the risk of alcohol/drug dependence because of isolation and lack of support, both of which have been associated with increased risk of substance misuse (Reference Grant, Stinson and HarfordGrant et al, 2001; Reference Schuckit and SmithSchuckit & Smith, 2001). Other deployments included locations such as Vietnam, for which significantly elevated rates of alcohol misuse or dependence (13.7%) have been reported (CDC Vietnam Experience Study, 1988). However, the number of veterans (n=204) with other deployments is substantially smaller than the number of veterans deployed to the Gulf, making these results less reliable.

Rank and psychiatric disorder

Enlisted status relative to NCO and officer rank was associated with increased risk of multiple psychiatric disorders including anxiety, depression and drug/alcohol dependence. Other investigators of Gulf War veterans have also reported that lower rank is associated with poorer psychological and physical health (Reference Ismail, Blatchley and HotopfIsmail et al, 2000) and increased risk of multisymptom illness (Reference Fukuda, Nisenbaum and StewartFukuda et al, 1998; Reference Gray, Hawksworth and SmithGray et al, 1998). In our study, being in the Army increased the risk of an anxiety disorder, whereas being in the Air Force, Marines or Navy was protective. These findings suggest that those with the least control by virtue of lower rank are more likely to be adversely affected by their war experience years after the war has ended, although causality cannot be inferred from the present study design. Furthermore, lower rank may be a surrogate for lower socio-economic status: this is known to contribute to psychiatric disorders and the stresses that accompany lower status may have contributed to the onset of psychiatric conditions after the war and/or made it difficult to receive adequate care for psychiatric conditions that began during the war.

Demographic predictors of psychiatric disorder

Non-military factors, including education, marital status during the war and gender were also predictive of current psychiatric disorders. Similar to previous findings from community samples (Reference Neeleman, Ormel and BijlNeeleman et al, 2001), veterans with the lowest level of education were at increased risk of depression relative to their better-educated peers, and veterans who were divorced at the time of their service in the Gulf were at increased risk of anxiety disorder and drug/alcohol dependence relative to those who were married. Divorce has been associated with increased symptoms of anxiety and depression among individuals both as they go through divorce (Reference Hackney and RibordyHackney & Ribordy, 1980) and also years after the divorce (Reference Richards, Hardy and WadsworthRichards et al, 1997). Predictors of dependence disorders included being male and divorced or single/living with a partner, findings consistent with community studies that show higher rates of alcohol/drug dependence among males (Reference Kessler, McGonagle and ZhaoKessler et al, 1994; Reference Grant, Stinson and HarfordGrant et al, 2001) and among those who are divorced or never married (Reference Richards, Hardy and WadsworthRichards et al, 1997; Reference Grant, Stinson and HarfordGrant et al, 2001). These factors suggest that those with less education or who have other stressors such as divorce show increased risk of psychiatric disorder beyond the risks associated with military service. Similar to nonmilitary samples, women were consistently at greater risk for anxiety and depression but at less risk than men for drug/alcohol dependence (Reference Kessler, McGonagle and ZhaoKessler et al, 1994). Unwin et al (Reference Unwin, Hotopf and Hull2002) did not find gender differences among UK service personnel deployed to the Persian Gulf conflict and to Bosnia. However, they evaluated psychological symptoms rather than psychiatric diagnoses.

Comparison with the National Comorbidity Survey

Although veterans in our study were most probably healthier than the representative sample of the US population participating in the National Comorbidity Survey (Reference Kessler, McGonagle and ZhaoKessler et al, 1994), the 12-month prevalence of psychiatric disorders for males in the Survey provides a rough comparison for males in our study (see Table 4). Rates of major depression, generalised anxiety and simple phobia were approximately doubled for deployed male veterans relative to the male Survey sample, which in turn were comparable to the prevalence of these disorders for non-deployed veterans. Prevalence rates of agoraphobia without panic, panic disorder, social phobia, mania and drug and alcohol dependence were either comparable or lower among deployed male veterans relative to US males. With the exception of generalised anxiety, our results suggest that non-deployed women were at no greater risk of any disorder relative to community rates reported by Kessler et al (Reference Kessler, McGonagle and Zhao1994), although the number of women in our study limits the reliability of our findings.

Rates of PTSD in the Gulf Wardeployed troops were below those reported by the National Comorbidity Survey, but the latter evaluated lifetime rather than 12-month prevalence. Similarly, McCauley et al (Reference McCauley, Lasarev and Sticker2002) and Wolfe et al (Reference Wolfe, Proctor and Erickson1999) also reported higher rates of PTSD than in our study, although the rates reported by McCauley et al (Reference McCauley, Lasarev and Sticker2002) were based on participants’ report of a physician diagnosis over the 9 years since the Gulf War, whereas the Wolfe et al (Reference Wolfe, Proctor and Erickson1999) rates were based on a relatively smaller subsample of Gulf War veterans who were high and low symptom reporters and oversampled for women. The current rates for PTSD, however, were comparable with the 3% reported by Ismail et al (Reference Ismail, Kent and Brugha2002) for disabled UK Gulf War veterans, disabled Bosnia veterans and era veterans based on assessment of symptoms during the past 4 weeks. Thus, the 12-month prevalence rates of PTSD are comparable for veterans who were deployed and veterans who were disabled, and may reflect the fact that Gulf War veterans’ combat exposure was relatively less than in previous wars. Prevalence of somatisation was low among Gulf War veterans and was not diagnosed for any era veterans, a finding also consistent with that of Ismail et al (Reference Ismail, Kent and Brugha2002), who reported a low prevalence of somatisation disorder among disabled Gulf veterans with no case of somatisation among non-disabled Gulf veterans, disabled Bosnia veterans or era veterans. Ismail et al (Reference Ismail, Kent and Brugha2002) reported an increased prevalence of undifferentiated somatoform disorders among disabled Gulf War veterans relative to their comparison groups. This finding appears consistent with increased prevalence of unexplained symptoms among disabled Gulf War veterans, since these symptoms often overlap those defining undifferentiated somatoform disorders.

Implications of the study

This study is the largest random sample of US Gulf War-deployed and era veterans in which a standardised and validated method was used to evaluate all Axis I psychiatric disorders. Although the sample size was relatively large, the overall response rate was suboptimal and may attenuate the generalisability of this study. Respondents differed from non-respondents, with the most notable differences being the greater proportions of White and NCO/officer rank individuals volunteering for the study. However, such differences are a typical bias in epidemiological surveys, for which White individuals and those with more education are more likely to volunteer. Furthermore, demographic factors were controlled for in the logistic regression models used to predict psychiatric disorders. The psychiatric diagnoses remain provisional, since interviews were conducted by lay interviewers rather than trained clinicians. However, because the CIDI is designed for use by unqualified interviewers, reliance on clinical judgement is minimised.

The study's results reflect the 12-month prevalence of psychiatric disorders and do not address the prevalence of psychiatric morbidity for the entire period from the end of the conflict up to 10 years after the war. Nevertheless, when other known risk factors for psychiatric illness such as gender, divorce and educational attainment were controlled for, having been deployed remained a significant, independent risk factor for diagnoses of anxiety and/or depression, whereas being of lower rank (i.e. enlisted) increased risks for all psychiatric disorders. These findings suggest that in addition to the usual demographic risk factors for psychiatric illness, veterans have the burden of increased risk as a result of their deployment, particularly if they were of lower rank. The effects of a relatively brief war with limited physical trauma have a lasting impact on veterans that could be attenuated by prevention programmes to reduce the impact of war on veterans’ mental health.

Clinical Implications and Limitations

CLINICAL IMPLICATIONS

  1. Deployment contributes to psychiatric morbidity among veterans 10 years after the war.

  2. Veterans of lower rank are at greater risk of psychiatric disorder.

  3. Prevention and debriefing programmes need to be developed to mitigate the impact of deployment.

LIMITATIONS

  1. The response rate of veterans in the sample was suboptimal.

  2. Psychiatric diagnoses were provisional.

  3. Respondents were more likely to be White and of non-commissioned officer or officer rank.

Acknowledgements

We thank the members of our scientific advisory committee, Evelyn Bromet, PhD, Javier Escobar, MD, Steven Stellman, PhD, and William C. Reeves, MD, who offered invaluable input into the research design and execution of this study. Dr Ronald Kessler contributed his expertise in the design of our psychiatric interview and graciously allowed us the use of the Composite International Diagnostic Interview – Short Form/Diagnostic and Statistical Manual IV. In addition, we thank Joyce Kosmoski, who assisted with numerous revisions of the manuscript.

Research, in part, was supported by grants from the Centers for Disease Control and Prevention (CDC; U50/CCU214463) and the National Institute of Environmental Health Sciences Center (P30ESO5022). The CDC awarded the University of Medicine and Dentistry of New Jersey and Robert Wood Johnson Medical School a cooperative agreement to conduct this project. Consequently, scientists with the CDC were involved in the study design, collection, analysis and interpretation of the data, and also reviewed the manuscript before it was submitted for publication.

Footnotes

Declaration of interest

None. Funding detailed in Acknowledgements.

References

American Psychiatric Association (1994) Diagnostic and Statistical Manual of Mental Disorders (4th edn) (DSM-IV), Washington, DC: APA.Google Scholar
CDC Vietnam Experience Study (1988) Health status of Vietnam veterans. I. Psychosocial characteristics. JAMA, 259, 27012707.CrossRefGoogle Scholar
Cherry, N., Creed, F., Silman, A., et al (2001) Health and exposures to United Kingdom Gulf War veterans. Part I: The pattern and extent of ill health. Occupational and Environmental Medicine, 58, 22912298.Google ScholarPubMed
Escobar, J. I., Burnam, A., Karno, M., et al (1987) Somatization in the community. Archives of General Psychiatry, 44, 713718.Google Scholar
Fukuda, K., Nisenbaum, R., Stewart, G., et al (1998) Chronic multisymptom illness affecting air force veterans of the Gulf War. JAMA, 280, 981988.CrossRefGoogle ScholarPubMed
Grant, B. F., Stinson, F. S. & Harford, T. C. (2001) Age at onset of alcohol use and DSM – IV alcohol abuse and dependence: a 12-year follow-up. Journal of Substance Abuse, 13, 493504.Google Scholar
Gray, G. C., Hawksworth, A. W., Smith, T. C., et al (1998) Gulf War veterans' health registries. Who is most likely to seek evaluation? American Journal of Epidemiology, 148, 343349.Google Scholar
Gray, G. C., Reed, R. J., Kaiser, K. S., et al (2002) Self-reported symptoms and medical conditions among 11, 868 Gulf War-era veterans. The Seabee Health Study. American Journal of Epidemiology, 155, 10331044.Google Scholar
Hackney, G. R. & Ribordy, S. C. (1980) An empirical investigation of emotional reactions to divorce. Journal of Clinical Psychology, 36, 105110.3.0.CO;2-C>CrossRefGoogle ScholarPubMed
Hallman, W. K., Kipen, H. M., Diefenbach, M., et al (2003) Symptom patterns among Gulf War Registry Veterans. American Journal of Public Health, 93, 624630.CrossRefGoogle ScholarPubMed
Hosmer, D. W. & Lemeshow, S. (2000) Applied Logistic Regression. New York: Wiley.Google Scholar
Iowa Persian Gulf Study Group (1997) Self-reported illness and health status among Gulf War veterans – a population-based study. JAMA, 277, 238245.CrossRefGoogle Scholar
Ismail, K., Blatchley, N., Hotopf, M., et al (2000) Occupational risk factors for ill health in Gulf veterans of the United Kingdom. Journal of Epidemiology and Community Health, 54, 834838.Google Scholar
Ismail, K., Kent, K., Brugha, T., et al (2002) The mental health of UK Gulfwar veterans: phase 2 of at wo phase cohort study. BMJ, 325, 16.CrossRefGoogle Scholar
Jordanova, V., Wickramasinghe, C., Gerada, C., et al (2004) Validation of two survey diagnostic interviews among primary care attendees: a comparison of CIS–R and CIDI with SCAN ICD – 10 diagnostic categories Psychological Medicine, 34, 1031–1024.CrossRefGoogle ScholarPubMed
Kang, H., Mahan, C. M., Lee, K. Y., et al (2000) Illnesses among United States veterans of the Gulf War: a population-based survey of 30, 000 veterans. Journal of Occupational and Environmental Medicine, 42, 491501.CrossRefGoogle Scholar
Kendler, K. S., Gallagher, T. J., Abelson, J. M., et al (1996) Lifetime prevalence, demographic risk factors, and diagnostic validity of nonaffective psychosis as assessed in a US community sample. The National Comorbidity Survey. Archives of General Psychiatry, 53, 10221031.Google Scholar
Kessler, R. C., McGonagle, K. A., Zhao, S., et al (1994) Lifetime and 12-month prevalence of DSM – III – R psychiatric disorders in the United States: results from the national comorbidity survey. Archives of General Psychiatry, 51, 819.Google Scholar
Kessler, R. C., Rubinow, D. R., Holmes, C., et al (1997) The epidemiology of DSM – III – R bipolar I disorder in a general population survey. Psychological Medicine, 27, 10791089.CrossRefGoogle Scholar
Kessler, J. C., Wittchen, H.-U. & Abelson, J. M. (1998) Methodological studies of the Composite Interantional Diagnostic Interview (CIDI) in the US National Comorbidity Survey (NCS). International Journal of Methods in Psychiatric Research, 7, 3355.Google Scholar
Kroenke, K., Koslowe, P. & Roy, M. (1998) Symptoms in 18, 495 Persian Gulf War veterans: latency of onset and lack of association with self-reported exposures. Journal of Occupational and Environmental Medicine, 40, 520528.Google Scholar
McCauley, L. A., Lasarev, M., Sticker, D., et al (2002) Illness experience of Gulf War veterans possibly exposed to chemical warfare agents. American Journal of Preventive Medicine, 23, 200206.CrossRefGoogle ScholarPubMed
Neeleman, J., Ormel, J. & Bijl, R. V. (2001) The distribution of psychiatric and somatic ill health: associations with personality and socioeconomic status. Psychosomatic Medicine, 63, 239247.Google Scholar
Perconte, S. T., Wilson, A. T., Pontius, E. B., et al (1993) Psychological and war stress symptoms among deployed and non-deployed reservists following the Persian Gulf War. Military Medicine, 158, 516521.CrossRefGoogle ScholarPubMed
Presidential Advisory Committee on Gulf War Veterans' Illness (1996) Final Report. Washington, DC: US Government Printing Office.Google Scholar
Richards, M., Hardy, R. & Wadsworth, M. (1997) The effects of divorce and separation on mental health in a national UK birth cohort. Psychological Medicine, 27, 11211128.CrossRefGoogle Scholar
Schuckit, M. A. & Smith, T. L. (2001) A comparison of correlates of DSM–IV alcohol abuse or dependence among more than 400 sons of alcoholics and controls. Alcoholism: Clinical and Experimental Research, 25, 18.Google ScholarPubMed
Spitzer, R. L., Williams, J. B., Kroenke, K., et al (1994) Utility of a new procedure for diagnosing mental disorders in primary care. The PRIME–MD 1000 study. JAMA, 272, 749756.CrossRefGoogle ScholarPubMed
Stretch, R. H., Bliese, P. D., Marlowe, D. H., et al (1996) Psychological health of Gulf War-era military personnel. Military Medicine, 161, 257261.CrossRefGoogle ScholarPubMed
Unwin, C., Blatchley, N., Coker, W., et al (1999) The health of United Kingdom servicemen who served in the Persian Gulf War. Lancet, 353, 169178.Google Scholar
Unwin, C., Hotopf, M., Hull, L., et al (2002) Women in the Persian gulf: lack of gender differences in long-term health effects of service in United Kingdom armed forces in the 1991 Persian Gulf War. Military Medicine, 167, 406413.CrossRefGoogle ScholarPubMed
Wittchen, H.-U (1994) Reliability and validity studies of the WHO-Composite International Diagnostic Interview (CIDI). A critical review. Journal of Psychiatric Research, 28, 5784.Google Scholar
Wolfe, J., Proctor, S. P., Erickson, D. J., et al (1999) Relationship of psychiatric status to Gulf War veterans' health problems. Psychosomatic Medicine, 61, 532540.Google Scholar
World Health Organization (1997) Composite International Diagnostic Interview (CIDI), version 2.1. Geneva: WHO.Google Scholar
World Health Organization (2002) Composite International Diagnostic Interview Short Form (CIDI), version I. I. Geneva: WHO.Google Scholar
Figure 0

Table 1 Response and cooperation rates

Figure 1

Table 2 Demographic characteristics of respondents and non-respondents

Figure 2

Table 3 Demographic characteristics of Gulf War veterans and era veterans

Figure 3

Table 4 Twelve-month prevalence of psychiatric diagnosis for Gulf War veterans v. era veterans, males v. females

Figure 4

Table 5 Stepwise logistic regression models to predict psychiatric disorder

Submit a response

eLetters

No eLetters have been published for this article.