FMS study of WTC

[Guest guest]

Source: Pain

Volume 100, Issues 1-2, Pages 131-139

Date: November 2002

URL: http://www.sciencedirect.com/science/journal/03043959

A community-based survey of fibromyalgia-like pain complaints following

the World Trade Center terrorist attacks

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G. Raphael (a,*), H. Natelsona (, Malvin N. Janal (a)

and Sangeetha Nayak (a) a University of Medicine and Dentistry of New

Jersey, New Jersey Medical

School, 183 S. Orange Ave., BHSB F-1512, Newark, NJ 07103, USA b

War-Related Illness and Injury Study Center, VA New Jersey Health Care

System, 385 Tremount Ave., East Orange, NJ 07018, USA

* Corresponding Author Contact Information Corresponding author. Tel.:

+1-973-972-5462; fax: +1-973-972-8305; email: raphaekg@...

Received 29 May 2002; accepted 12 July 2002. Available online 23

October 2002.

Abstract

A purported pathogenic mechanism for the development of fibromyalgia, a

medically unexplained syndrome involving widespread pain, is stress and

associated psychiatric disorder. The major stressor of recent World

Trade Center terrorist attacks provides a natural experiment for

evaluating this mechanism. This study sought to determine whether

symptoms consistent with fibromyalgia increased post-September 11 and

whether exposure to specific terrorism-related events or prior

depression predicted symptom increase. In a large community sample of

women in the New York/New Jersey metropolitan area (n=1312), a cohort

initially surveyed for pain and psychiatric symptoms before September

11th were recontacted approximately 6 months after the attacks to assess

current symptoms and specific terrorism-related exposures.

`Fibromyalgia-like'

(FM-L) four-quadrant pain reports consistent with a diagnosis of

fibromyalgia were compared at baseline and follow-up. Result showed that

FM-L rates did not increase significantly between baseline and

post-attack follow-up. Event exposure did not relate to FM-L onset at

follow-up, nor did depressive symptoms at baseline interact with event

exposure. Depressive symptoms did not predict new onsets better than the

extent of their comorbidity with FM-L at baseline. The failure to detect

a significant increase in symptoms consistent with a diagnosis of

fibromyalgia and the failure of new onsets of such symptoms to be

accounted for by exposure to major stressors or prior depressive

symptoms suggests that these hypothesized risk factors are unlikely to

be of major importance in the pathogenesis of fibromyalgia.

Author Keywords: Fibromyalgia; World Trade Center terrorist attacks;

Community survey; Stress; Depression

1. Introduction

Several recent studies (Galea and Schuster) have documented the impact

of the terrorist attacks of September 11, 2001 on psychiatric and

psychological symptoms in the community, most notably post-traumatic

stress disorder (PTSD) and depression. Although popular media sources

report that pain clinics have been flooded with patients after the

attacks ( Goldstein and Thernstrom) and that these symptoms persist for

months ( Young, 2002), no research to date has documented the impact of

the attacks on pain in the general community.

Major psychological trauma, such as that resulting from the terrorist

attacks, is believed to play a role in the pathogenesis of some painful

syndromes, especially those involving `medically unexplained pain' in

such conditions as fibromyalgia, a syndrome of unknown etiology

characterized by widespread non-articular musculoskeletal pain (Wolfe et

al., 1990). Supporting this belief in stress as a fibromyalgia trigger

are data from the experience of Gulf War veterans among whom the most

commonly reported specific syndrome was fibromyalgia ( Anonymous, 1997).

A second supportive body of research indicates that retrospectively

assessed sexual and physical trauma is prevalent among women with

fibromyalgia ( Boisset; ; and Walling). In addition,

patients with fibromyalgia report elevated rates of PTSD ( Sherman et

al., 2000).

Nevertheless, the applicability of such data to post-attack changes in

the prevalence of pain in the community is questionable. The only

empirical report published to date on changes in pain following the

attacks (Young et al., 2002) supports media proclamations of increased

pain severity among chronic patients, but this increase may be specific

to chronic pain patients seen in tertiary care settings. Such an

increase may not be seen in individuals who did not seek care previously

or who did not experience symptoms prior to the attacks. In addition,

some data suggest that trauma can affect care-seeking behavior rather

than painful symptoms per se ( and ). Other reports even

raise doubts about the validity of general claims of increased medical

care-seeking following September 11, as Veterans Affairs facilities'

outpatient visits for general medical care did not significantly

increase in the time period immediately surrounding the attacks (

Rosenheck, 2002). A second reason to question the role of major trauma

in pain derives from the only prospective cohort study of adult pain as

a function of court-documented early childhood trauma ( Raphael et al.,

2001) in which no association was found between documented childhood

trauma and pain in adulthood. Such findings raise questions about the

role of trauma in the pathogenesis of pain in general and `medically

unexplained pain syndromes' such as fibromyalgia specifically. Trauma is

often ( Adler et al., 1989) assumed to have a most relevant role in the

pathogenesis of these disorders.

A recent review of the literature (Norris et al., 2002) concluded that

somatic complaints are likely to increase following major disasters.

However, such studies have been largely limited to casecontrol

comparisons of exposed versus unexposed individuals or have relied on

retrospective self-report of increased symptoms. Only a single previous

study ( Bravo et al., 1990) was able to assess symptoms both prior to

and after a disaster. The unavailability of pre-disaster symptom

assessments in all other studies limits interpretation of post-disaster

symptom complaints. In addition, whether pain-related complaints may

differ in their response to disaster when compared with other related

somatic complaints such as fatigue has not been reported.

Beliefs about depression as a risk factor for fibromyalgia relate to

hypotheses about stress as a trigger for fibromyalgia. Prior depression

may be a risk factor for post-attack pain, especially under conditions

of high stress for two reasons: the high rates of comorbidity between

major depression and fibromyalgia (Epstein; Goldenberg; Hudson; Katz and

Offenbaecher) and the view ( Blumer; Bohr and Meyer), although

controversial ( Turk and Salovey, 1984), that fibromyalgia is a somatic

manifestation of depression. Depression is a risk factor for chronicity

or poor outcome in other conditions that are not viewed as affective

spectrum disorders, such as myocardial infarction (Bush; Frasure and

Frasure). However, if history of depressive symptoms prior to the

attacks interacts with exposure to terrorism-related events to increase

risk of fibromyalgia-like symptoms, the reason for the high prevalence

of depression in fibromyalgia would be clarified, as would its link with

trauma.

To better understand the role of major psychological trauma in painful

symptoms, the current study capitalized on a recent community-based

survey of fibromyalgia symptoms among women in the New York/New Jersey

metropolitan area by recontacting a subset of participants after the

terrorist attack and reinterviewing them to address the following aims:

(1) to determine whether painful symptoms indicative of fibromyalgia

changed following the September 11th attacks; (2) to determine whether

treatment-seeking patterns for pain changed following the September 11th

attacks; (3) to determine whether non-pain symptoms of fatigue

associated with fibromyalgia showed similar patterns of change; and (4)

to test whether exposure to specific attack-related events, a history of

depressive symptoms, and their interaction predict the occurrence of

post-attack fibromyalgia-like symptoms.

2. Methods

2.1. OVERVIEW

A subsample of women in the New York/New Jersey metropolitan area who

were participating in a population-based survey of pain prior to

September 11, 2001 were recontacted approximately 56 months after the

terrorist attacks, to assess gradient of exposure to the attacks and

current pain-related symptoms.

2.2. BASELINE SURVEY

In September of 2000, after receiving Institutional Review Board (IRB)

approval at the University of Medicine and Dentistry of New Jersey

(UMDNJ), a community-based study of familial and psychiatric factors

among women with fibromyalgia was initiated. Telephone surveys were

conducted by randomly selecting telephone numbers from a purchased list

of households identified as having an adult female member. The list was

compiled from national white page telephone directories and scored for

sex from secondary sources including magazine subscription lists, voter

registration lists, and driver's license information. Thus, with the

notable exception of excluding unlisted numbers and households in which

a woman had not been identified as female through secondary sources,

this process approximates a random digit dialing procedure, but with

improved cost efficiency. Up to 12 attempts were made to contact an

adult woman at each number. Telephone numbers were restricted to

exchanges in Manhattan or within 45 min commuting time to Newark, New

Jersey.

Prior to September 11, 2001, 11,963 surveys had been completed. These

initial surveys required first making a live contact in 23,870

households and determining that 12,178 of these households contained

study-eligible women. Among the women completing surveys, 9042 (75.6%)

agreed to permit additional survey by the research team.

2.3. POST-ATTACK FOLLOW-UP SURVEY

After receiving UMDNJ IRB approval to conduct a follow-up survey, 2026

participants were randomly selected from among those who completed the

baseline survey. Interviewing commenced on February 6, 2002 and was

completed by April 1, 2002. Half of all surveys were completed by

February 20th and less than 10% were completed after March 14th. Thus,

most surveys represent an elapsed time since the attack of 56 months.

The sample selected for follow-up was stratified on the basis of

presence or absence of symptoms consistent with fibromyalgia (see

Measures below) and location in Manhattan or nearby New Jersey. Of 1839

households successfully contacted after a maximum of 12 dialing

attempts, follow-up surveys were completed with 1312 women (71.4%).

Women with whom follow-up surveys were completed differed from women on

whom follow-up surveys were not completed in being older (mean=43.0,

s.d.=1.2 vs. MEAN=38.6, s.d.=1.3, respectively, t=7.85, P<0.001), better

educated (mean=15.2 years, s.d.=2.6 vs. MEAN=14.9, s.d.=2.74,

respectively, t=2.45, P<0.05), more likely white/Caucasian (72.9 vs.

65.4%, respectively, chi^2=12.28, P<0.001), but less likely to identify

as Hispanic (8.1 vs. 15.2%, respectively, chi^2=24.68, P<0.001).

Completers did not differ significantly from non-completers on the

percentage identifying as Black/African-American (19.6 vs. 20.2%,

chi^2=0.09, P>0.10) or on any psychiatric or pain-related measure.

2.4. MEASURES AT BASELINE AND FOLLOW-UP SURVEYS

2.4.1. Pain/fibromyalgia symptoms

In addition to collecting demographic information, participants were

asked whether they experienced self-defined `widespread pain', that is,

pain in lots of different areas of their body. They were also asked if

they had pain in their muscles, bones or joints lasting at least 1 week.

The time reference for pain questions was the 3 months prior to the

relevant survey, and answers were scored either yes or no. For those

individuals who indicated pain lasting at least 1 week, questions

regarding pain distribution were asked. These questions were derived

from an instrument validated to efficiently screen for fibromyalgia in

the general community (White et al., 1999a). In the validation study,

individuals with pain lasting at least 1 week who also reported

axialskeletal pain and limb pain on the right and left side were scored

as screening positive for fibromyalgia. In that study ( White et al.,

1999a), when comparing muscle palpation examinations conducted to assess

American College of Rheumatology specifications for fibromyalgia ( Wolfe

et al., 1990), the predictive value of a positive screen was 73.0% for

women. Those individuals receiving a positive screening diagnosis for

fibromyalgia are hereafter referred to as having fibromyalgia-like

symptoms (FM-L) characterized by self-report of four-quadrant pain.

Participants were also asked to rate pain severity and interference with

activities due to pain. For pain severity, participants were asked to

rate severity of their worst pain in the past 3 months on a 100-point

scale, where 0=`no pain at all' and 100=`the worst pain they could

imagine.' For interference, participants were asked to rate the degree

to which their worst pain in the past 3 months interfered with their

ability to do things, where 0=`no interference at all' and 100=`pain

interfered completely.'

Participants who reported at least 1 week of pain were asked whether

they saw a doctor for their pain and whether they took any medication or

treatment for their pain. The time frame for care-seeking questions was

the past 6 months.

2.4.2. Fatigue

Participants were asked whether they were currently having a problem

with a lot of tiredness or fatigue. If they said that they were, they

were next asked whether, compared to their activities before they were

tired or fatigued, the fatigue made `no decrease,' `a mild decrease,' `a

moderate decrease' or `a substantial decrease' in their normal

activities. Chronic Fatigue Syndrome (Fukuda et al., 1994) requires a

duration of at least 6 months of fatigue leading to substantial activity

decrease. However, since the timing of the follow-up survey was less

than 6 months after the attacks for a subset of participants interviewed

in February, the duration criterion at both baseline and follow-up

surveys was reduced to `36 months' at both time points. Participants who

indicated that their fatigue caused a `substantial decrease' in their

normal activities and had at least `36 months duration' were considered

to have `chronic fatigue-like' symptoms (CF-L).

2.5. MEASURES AT BASELINE SURVEY ONLY

2.5.1. Depression

For study purposes relevant at the time of conducting the baseline

survey, participants were screened for lifetime history of major

depressive disorder. In earlier research (Dohrenwend et al., 1999), an

optimally weighted combination of psychiatric symptom items were shown

to bear good approximation (i.e. sensitivity 76.587.0% and specificity

of 82.487.0% for different subgroups) to a lifetime diagnosis of major

depressive disorder derived through an intensive, semi-structured

psychiatric interview administered by a trained mental health

professional (SCID; Structured Clinical Interview for DSM-III-R) (

Spitzer et al., 1988). Items included stem questions from the Diagnostic

Interview Survey ( Robins and Helzer, 1994) for depressed mood and

anhedonia, a 100-point depression severity score for both depressed mood

and anhedonia, and a question assessing whether the respondent ever felt

that she was `on the verge of a nervous breakdown or emotional crisis.'

Those individuals receiving a positive screening diagnosis for lifetime

major depressive disorder were considered to have lifetime `major

depressive-disorder-like' symptoms (MDD-L).

2.6. MEASURES AT FOLLOW-UP SURVEY ONLY

2.6.1. Terrorism-related events

At the follow-up survey, respondents were asked a series of questions

designed to assess exposure to specific events related to the September

11 attacks. These were adapted from F.N. Norris's exposure module

available on the NIH's Office of Behavioral and Social Science

Research's web site (http://obssr.od.nih.gov/Activities/911/attack.htm).

From this questionnaire, we determined whether participants had exposure

to any of the following major terrorism-related events of September 11,

with percentages indicating the percent of the overall sample who

indicated experiencing the event: respondent was in the direct vicinity

of the World Trade Center (WTC) at the time of the attack (i.e. below

14th Street in Manhattan) (3.7%), immediate family member was in the

direct vicinity of the WTC (1.4%), a close friend (for whom the

respondent provided at least some emotional support after the attacks)

was in the direct vicinity of the WTC (12.8%) , death of immediate

family member (0.6%), death of close friend (not acquaintance or

coworker) (8%), evacuated from work or other place because of safety

fears (18.8%), stranded away from home or family (12.5%), respondent or

person on whom the respondent relies for income was laid off from their

job as a direct result of the WTC disaster (5.1%). In exploratory

analyses related to results presented below, comparable analyses were

conducted using specific events and number of events experienced. Given

that conclusions were entirely consistent when using these strategies

compared to a more parsimonious presentation in which individuals were

scored as either experiencing one or more major terrorist events or no

major event, the latter scoring procedure is presented in all results

below.

2.6.2. Analytic notes

Data were analyzed using SPSS ver 10.1 and weighted to account for

unequal probabilities of selection for each person sampled and for

non-response. For comparisons of symptom prevalence in the baseline

versus follow-up periods, McNemar tests were used to test for changes in

dichotomous measures. Paired sample t-tests were used for continuous

measures. To identify risk factors for the development of FM-L after the

attacks, multiple logistic regression was used in which demographic

variables and baseline symptoms were entered at the first step,

potential risk factors were entered at the second step, and interactions

of risk factors were entered at the final step.

3. Results

Table 1 shows the change in specific symptoms, care-seeking behavior,

and syndrome-like diagnoses between baseline and follow-up. While rates

of specific pain-related symptoms increased after September 11, rates of

FM-L did not increase significantly. Rates of seeking care by a doctor

for pain decreased, while rates of taking other types of treatment for

pain did not change significantly. In contrast to changes in rates of

pain symptoms, rates of fatigue decreased significantly and rates of

CF-L remained unchanged.

Pain severity and disability associated with pain were next examined

among women who reported at least 1 week of pain in their muscles, bones

or joints at both baseline and post-attack follow-up (n=308). At

baseline, mean pain severity (mean=57.1, s.d.=23.7) was not

significantly lower than post-attack follow-up pain severity (mean=58.9,

s.d.=24.2) (t=1.15, P>0.10). The extent to which pain was reported to

interfere with ability to do things increased between baseline

(mean=44.3,

s.d.=31.35) and follow-up (mean=49.4, s.d.=31.67) (t=2.75, P<0.01).

Logistic regression analysis was next used to predict odds of FM-L at

post-attack follow-up. At the first step (see Table 2), demographic

factors which had shown an association (P<0.10) with follow-up FM-L

status were entered into the analysis: age, education, income, race

(coded white vs other). Status of baseline FM-L (present/absent) was

also entered. At the next step, MDD-L and exposure to one or more

attack-related events were entered into the model. At the final step,

the interaction of MDD-L and event exposure was added.

As shown in Table 2, both baseline FM-L and age were independent

predictors of FM-L at post-attack follow-up. At step 2, we find that a

history of MDD-L is a significant predictor of post-attack FM-L but

exposure to one or more terrorism-related events is not. At the third

and final step, the interaction between prior MDD-L and event exposure

does not approach significance and does not support the hypothesis that

the combined effect of stress and depression triggers FM-L illness.

To determine whether post-attack onsets or offsets rather than symptom

change in general could be a function of stress, depression or their

interaction, we next divided the sample according to the presence or

absence of FM-L at baseline. As shown in Table 3A, none of the factors

in the model predicted the offset of FM-L for those women who had FM-L

at baseline. Comparing Table 3A and B, we find that the full-sample

relationship between prior MDD-L and post-attack FM-L represents a near

doubling of the odds of onset of post-attack FM-L due to MDD-L in those

who had no FM-L at baseline. Specifically, among these new onset cases

of FM-L, 50% had MDD-L at baseline. In contrast, of those who continued

to have a negative FM-L screening diagnosis at post-attack assessment,

39.1% had MDD-L at baseline.

Since it was not clear whether the association between new onsets of

FM-L and MDD-L was a function of the general comorbidity between MDD-L

and FM-L at any point in time, logistic regression was used to predict

pre-attack lifetime MDD-L as a function of having no FM-L at either

assessment, stable FM-L at both assessments, or FM-L at follow-up

assessment only. After controlling for demographic factors in the first

step, a dummy variable representing presence of FM-L at followup only

was entered. At the last step, dummy variables representing FM-L

stability and FM-L at either baseline or follow-up assessment were

added. As shown in Table 4, although there was a significant association

between new onset of FM-L at follow-up (step 2), this relationship was

entirely accounted for by the association between MDD-L and FM-L at

either assessment period (step 3).

4. Discussion

In general, pain symptoms increased in a 56-month period after the World

Trade Center terrorist attacks. The increase in four-quadrant pain

consistent with a diagnosis of fibromyalgia (FM-L) was not significant.

In contrast to media reports, we found a significant decrease in

participants' report of physician care-seeking for pain following the

attacks. The general increase in pain symptoms other than FM-L was not

paralleled by an increase in another somatic complaint, fatigue.

Specifically, symptoms of fatigue decreased significantly following the

attacks, and frequency of chronic fatigue-like illness did not change.

Analyses did not support the hypothesis of an interaction between

specific terrorism-related stressful exposures and prior major

depression-like symptoms in increasing odds of FM-L. Although prior

major depression appeared to be an independent risk factor for

post-attack FM-L onset, additional analyses determined that the power of

MDD-L to predict new onset between baseline and follow-up was not any

greater than the extent of comorbidity between these two symptom

patterns at baseline.

Others have interpreted the ability of prior psychological symptoms to

predict subsequent fibromyalgia-like pain in the community as a sign

that unexplained pain may be a somatization of distress (Magni and

McBeth). However, unless it can be shown that prior psychological

symptoms predict pain over and above their comorbidity at a single time

point, such a conclusion may be unwarranted. In the absence of such a

finding, depression as a predictor of new pain onset may be more

parsimoniously interpreted as depression that has developed as a

reaction to pain symptoms which exacerbate and remit over time.

In the rare study identifying first-onset cases of pain symptoms, a

clearer causal inference between prior psychological status and pain may

be possible. One such study to date (Von Korff et al., 1993) suggests

that the role of prior depression as a risk factor for subsequent

regional pain may differ as a function of pain site, finding that

depression predicted new onset of headache and chest pain but not back

pain. In contrast, a recent British birth cohort study ( Power et al.,

2001) found that psychological distress 10 years earlier was a predictor

of new low back pain onset. In both studies, questions remain about the

certainty with which the absence of a lifetime back pain diagnosis can

be made at baseline. Resolution of such questions is important, in order

to rule out the possibility that psychological symptoms at baseline are

still reactive to prior pain experience.

Given that participants were interviewed at only two points in time, it

is possible that increases in selected pain symptoms over a 6-month

period are reflective of the natural history of such complaints in an

aging population rather than indicating that such symptoms are uniquely

elevated during a period of endemic stress. Prevalence of four-quadrant

pain and fibromyalgia have been shown to be higher in older cohorts

(White and Wolfe) and incidence has been shown to increase over time

within a single cohort ( Burton; MacFarlane and Waxman).

Terrorism-related events failed to increase odds of presenting with

fibromyalgia-like symptoms, even when participants had a pre-attack

history of depression-like symptoms. Since the entire nation was, to

some extent, traumatized by the events of September 11, specific events

may have had somewhat reduced salience and exposure to all possible

terrorism-related events was not assessed. Similarly, the magnitude of

the potential synergism between events and depression in increasing odds

of post-attack fibromyalgia-like symptoms may have been attenuated by

the unique context in which the attacks had a broad and pervasive impact

on individuals who were not formally or directly exposed to

terrorism-related events. It is also possible that terrorism-related

events might have a greater impact in environments in which multiple,

unpredictable events occur over long periods, as is true for large

cities in Israel. Nevertheless, in other analyses not detailed here, we

determined that both the number of events and presence of at least one

terrorism-related event was related significantly to other follow-up

measures not relevant to this report, i.e. self-reported depressed mood,

anhedonia, symptoms of PTSD, and global self-reported stress severity.

The failure of terrorism-related events to bear a significant

relationship to FM-L symptoms suggests that FM-L symptoms are less

related to external stressors than are clearly psychological symptoms.

Given that the initial sampling frame for the first wave of data

collection was restricted to women, the post-attack follow-up sample

also failed to recruit men. Since women differ from men on both general

symptom expression and pain processing (Barsky; Fillingim and Rollman),

these findings may not apply to men in the community. Nevertheless,

women are at increased risk for both depression ( Weissman and Weissman)

and fibromyalgia ( White and Wolfe), factors which would be thought to

increase risk of pain in the face of major stressors.

A limitation to this study is its reliance on self-reported symptoms of

four-quadrant pain as an approximation of standardized assessment for

fibromyalgia. While such self-reports are reasonably efficient screening

tools for fibromyalgia (White et al., 1999a), differences exist ( White

et al., 1999b) among individuals who meet full American College of

Rheumatology (ACR) criteria for fibromyalgia ( Wolfe et al., 1990) (i.e.

four-quadrant pain combined with 11 or more tender points on palpation),

and those who also have four-quadrant pain but who do not meet the

tender point criterion. Specifically, pain severity, post-activity

fatigue and weakness are more common among those meeting full ACR

criteria than among those with four-quadrant pain alone ( White et al.,

1999b). In addition to a false positive rate in women of about 25%, (

White et al., 1999a) preliminary data from our laboratory ( Janal et

al., 2002) also indicate that the highly structured four-quadrant pain

screening questions miss 1015% of true cases of fibromyalgia.

Nevertheless, there is no reason to believe that the predictive value of

the screening instrument changes from pre- to post-attack assessments.

Thus, while the screening questions are unlikely to predict absolute

rates of fibromyalgia, the relative value of the screen is likely to be

constant over time. Therefore, the change in FM-L rates over time are

likely to reflect similar change in rates of true fibromyalgia.

Another potential limitation to this study is its reliance on

dichotomous measures of terrorist event exposure, MDD-like symptoms, and

FM-like symptoms. While this methodology was largely dictated by

measurement constraints associated with the conduct of a large community

survey, more intensive assessments of all these factors, yielding

continuously scored and potentially more sensitive measures, might have

yielded larger effects. Similarly, and especially given the secondary

focus on fatigue, we limited our assessment of CF-like symptoms to only

three questions. Use of a standardized but longer fatigue screening

scale such as that developed by et al. (1999) might have yielded

different conclusions about changes in chronic fatigue-like symptoms

between assessment periods.

The failure to demonstrate increases in fibromyalgia-like symptoms 56

months following a major disaster does not rule out the possibility of

more immediate or fleeting elevations in such symptoms. Similarly, our

failure to demonstrate increased care-seeking does not rule out the

possibility that temporary increases may have occurred or that a subset

of careseekers had greatly increased the frequency of their treatment

visits within a shorter or longer-term period. What these data do

indicate is that predicted increases in fibromyalgia-like symptoms and

care-seeking were not detectable in a large community sample of women,

nearly 6 months after the terrorist attacks. Were such differences to

have been detected after 6 months, they would have more significance

than immediate symptom increases, from both a public health and,

potentially, etiological perspective.

Given that women in the community with FM-like symptoms may differ from

women seeking treatment for FM, our findings may diverge from other

studies which conclude that stress and psychiatric factors (Bansevicius;

; Sherman; Van and Winfield) may play a role in FM. Stress may play

a different role in exacerbation of FM-like symptoms in the community

than in the development or exacerbation of a chronic pain syndrome for

which a subset of sufferers ultimately seek treatment.

Finally, the failure of prior depressive symptomatology to predict

subsequent fibromyalgia-like pain symptoms beyond the extent

attributable to their comorbidity at any time point, raises doubts about

the extent to which fibromyalgia-like symptoms are triggered by stress

and depression. Future research may yet support an alternative

hypothesis that the comorbidity of depression and fibromyalgia is a

function of the stress of living with medically unexplained pain.

Acknowledgements

This study was supported by NIH Grant # R01 DE13486 (S1). The authors

thank Dr Bruce Dohrenwend for his helpful discussions regarding

terrorism-related event assessment.

Tables

Table 1. Changes in pain, pain-related care-seeking, and fatigue prior

to and following the September 11

terrorist attacks (weighted n=1312)

------------------------------------------------------------------------

---------------------------------

Symptom/syndrome or care-seeking behavior % 'Yes' at % 'Yes' at %

'Yes' at % 'No' at P value

baseline follow-up

baseline baseline

but 'No' at but 'Yes'

follow-up follow-up

------------------------------------------------------------------------

---------------------------------

'Widespread' pain 25.4 28.9

14.9 18.9 0.012

Pain in muscles, bones, or joints 36.9 40.3

21.9 26.0 0.028

Fibromyalgia-like syndrome (FM-L) 10.5 11.8

6.6 7.9 0.218

Saw doctor for pain 23.1 16.5

16.4 9.2 0.000

Taken any medication or treatment for pain 26.4 24.1

16.7 14.2 0.108

Problem with a lot of tiredness or fatigue 40.3 37.2

23.0 19.0 0.033

Chronic fatigue-like (CF-L) 6.1 5.7

3.9 3.5 0.675

------------------------------------------------------------------------

---------------------------------

Table 2. Logistic regression predicting fibromyalgia-like (FM-L)

syndrome at post-attack follow-up from

demographic factors, prior depression, the combined effect of

attack-related events and Baseline

Major Depression-like syndrome (MDD-L) (weighted n=1312)^a

------------------------------------------------------------------------

---------------------------------

Variables in model Step 1 Step 2

Step 3

------------------------

------------------------ ------------------------

Adjusted OR 95% CI Adjusted OR 95%

CI Adjusted OR 95% CI

------------------------------------------------------------------------

---------------------------------

Age (decades) 1.27** 1.09,1.50 1.32**

1.11,1.55 1.31** 1.11,1.55

Education (years) 0.93 0.86,1.01 0.93

0.85,1.00 0.93 0.85,1.00

Income (US $20,000 blocks) 0.95 0.84,1.09 0.97

0.85,1.11 0.97 0.85,1.11

Race (white=1 vs. other=0) 0.79 0.51,1.21 0.78

0.51,1.21 0.79 0.51,1.21

Baseline FM-L 8.03*** 5.22,12.37 7.39***

4.78,11.45 7.42*** 4.79,11.49

MDD-L + 1.58*

1.07,2.32 1.41 0.83,2.38

Terrorist event + 1.18

0.80,1.75 1.03 0.58,1.83

Interaction of MDD-L and

1.28 0.59,2.78

terrorist event

------------------------------------------------------------------------

---------------------------------

^a * P<0.05, ** P<0.01, *** P<0.001.

Table 3. Logistic regression predicting fibromyalgia-like (FM-L)

syndrome at post-attack follow-up from

demographic factors, prior depression, and the combined effect

of attack-related events and

Baseline Major Depression-like syndrome (MDD-L), for (A)

participants with baseline FM-L

(weighted N=579) and ( for participants without baseline FM-L

(weighted N=733)^a

------------------------------------------------------------------------

---------------------------------

Variables in model Step 1 Step 2

Step 3

------------------------

------------------------ ------------------------

Adjusted OR 95% CI Adjusted OR 95%

CI Adjusted OR 95% CI

------------------------------------------------------------------------

---------------------------------

(A)

Age (decades) 0.94 0.68,1.31 0.95

0.68,1.33 0.95 0.68,1.34

Education (years) 1.02 0.88,1.18 1.02

0.88,1.18 1.02 0.88,1.18

Income (US $20,000 blocks) 0.79 0.61,1.02 0.77

0.60,1.01 0.77 0.59,1.01

Race (white=1 vs. other=0) 1.41 0.62,3.24 1.46

0.63,3.37 1.49 0.64,3.48

MDD-L + 0.85

0.39,1.85 0.67 0.24,1.90

Terrorist event + 1.37

0.64,2.93 1.00 0.30,3.31

Interaction of MDD-L and

1.70 0.36,7.91

Terrorist event

(

Age (decades) 1.39*** 1.16,1.68 1.45***

1.19,1.76 1.44*** 1.19,1.75

Education (years) 0.90* 0.82,1.00 0.89*

0.81,0.99 0.89 0.81,0.99

Income (US$ 20,000 blocks) 1.04 0.89,1.22 1.06

0.90,1.25 1.06 0.90,1.25

Race (white=1 vs other=0) 0.62 0.37,1.03 0.62

0.37,1.04 0.62* 0.37,1.03

MDD-L + 1.89**

1.20,2.97 1.78 0.97,3.26

Terrorist event + 1.12

0.71,1.78 1.04 0.53,2.04

Interaction of MDD-L and

1.15 0.46,2.85

Terrorist event

------------------------------------------------------------------------

---------------------------------

^a * P<0.05, ** P<0.01, *** P<0.001.

Table 4. Logistic regression predicting major depression-like (MDD-L)

symptoms at pre-attack baseline

from demographic factors, FM-L at either baseline or follow-up,

FM-L change between baseline and

follow-up, and onset of FM-L at follow-up (weighted n=1312)^a

------------------------------------------------------------------------

---------------------------------

Variables in model Step 1 Step 2

Step 3

------------------------

------------------------ ------------------------

Adjusted OR 95% CI Adjusted OR 95%

CI Adjusted OR 95% CI

------------------------------------------------------------------------

---------------------------------

(A)

Age (decades) 0.095 0.86,1.05 0.94

0.85,1.03 0.91 0.82,1.01

Education (years) 1.04 0.99,1.10 1.05

0.99,1.10 1.05 1.00,1.11

Income (US $20,000 blocks) 0.84*** 0.77,0.91 0.83***

0.77,0.91 0.84*** 0.77,0.92

Race (white=1 vs. other=0) 1.06 0.80,1.40 1.08

0.81,1.43 1.08 0.81,1.43

FM-L onset at follow-up 1.66*

1.07,2.59 0.74 0.39,1.43

FM-L change between baseline

1.08 0.51,2.29

and follow-up

FM-L at either baseline or

2.33** 1.31,4.13

follow-up

------------------------------------------------------------------------

---------------------------------

^a * P<0.05, ** P<0.01, *** P<0.001.

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