Exposures to the Kuwait oil fires and their association with asthma and bronchitis among Gulf War veterans. (Articles).Military personnel deployed to the Persian Gulf War Persian Gulf War or Gulf War (1990–91) International conflict triggered by Iraq's invasion of Kuwait in August 1990. Though justified by Iraqi leader Saddam Hussein on grounds that Kuwait was historically part of Iraq, the invasion was presumed to be have reported a variety of symptoms attributed to their exposures. We examined relationships between symptoms of respiratory illness Noun 1. respiratory illness - a disease affecting the respiratory system respiratory disease, respiratory disorder adult respiratory distress syndrome, ARDS, wet lung, white lung - acute lung injury characterized by coughing and rales; inflammation of the present 5 years after the war and both self-reported and modeled exposures to oil-fire smoke that occurred during deployment. Exposure and symptom information was obtained by structured telephone interview in a population-based sample of 1,560) veterans who served in the Gulf War. Modeled exposures were exhaustively developed using a geographic information system geographic information system (GIS) Computerized system that relates and displays data collected from a geographic entity in the form of a map. The ability of GIS to overlay existing data with new information and display it in colour on a computer screen is used primarily to to integrate spatial and temporary records of smoke concentrations with troop movements ascertained from global positioning systems Global Positioning System: see navigation satellite. Global Positioning System (GPS) Precise satellite-based navigation and location system originally developed for U.S. military use. records. For the oil-fire period, there were 600,000 modeled data points with solar absorbance absorbance /ab·sor·bance/ (-sor´bans) 1. in analytical chemistry, a measure of the light that a solution does not transmit compared to a pure solution. Symbol . 2. used to represent smoke concentrations to a 15-km resolution. Outcomes included respiratory symptoms (asthma, bronchitis bronchitis (brŏnkī`tĭs), inflammation of the mucous membrane of the bronchial tubes. It can be caused by viral or bacterial infections or by allergic reactions to irritants such as tobacco smoke. ) and control outcomes (major depression, injury). Approximately 94% of the study cohort were still in the gulf theater during the time of the oil-well fires, and 21% remained there more than 100 days during the fires. There was modest correlation between self-reported and modeled exposures (r = 0.48, p < 0.05). Odds ratios for asthma, bronchitis, and major depression increased with increasing self-reported exposure, In contrast, there was no association between the modeled exposure and any of the outcomes. These findings do not support speculation that exposures to oil-fire smoke caused respiratory symptoms among veterans. Key Words: air pollution, asthma, chronic bronchitis chronic bronchitis n. Inflammation of the bronchial mucous membrane, characterized by cough, hypersecretion of mucus, and expectoration of sputum over a long period of time and associated with increased vulnerability to bronchial infection. , exposure modeling, geographical information systems Geographical Information System - Geographic Information System , oil-well fires, Persian Gulf War. Environ Health Perspect 110:1141-1146 (2002). [Online 25 September 2002] http://ehpnet1.niehs.nih.gov/docs/2002/110p1141-1146lange/abstract.html ********** The media, Gulf War veterans, and some scientists have suggested that illnesses observed among veterans after the war are attributable to deployment-related exposures (1). Gulf War veterans have reported a higher prevalence of symptoms than contemporaneous con·tem·po·ra·ne·ous adj. Originating, existing, or happening during the same period of time: the contemporaneous reigns of two monarchs. See Synonyms at contemporary. soldiers not deployed to the war for many illnesses, including bronchitis and asthma (2-10). Principal respiratory exposures that occurred during the war include combustion products, chemical agent-resistant coating paint, sand, and smoke emanating from oil-well fires within Kuwait. The oil-fire smoke came from some 600 burning wells that were ignited in February 1991 by Iraqi forces as they retreated. These burning wells produced a composite smoke plume of gaseous gas·e·ous adj. 1. Of, relating to, or existing as a gas. 2. Full of or containing gas; gassy. constituents, acid aerosols, volatile organic compounds volatile organic compound Environment Any toxic cabon-based (organic) substance that easily become vapors or gases–eg, solvents–paint thinners, lacquer thinner, degreasers, dry cleaning fluids , metal compounds, polycyclic aromatic hydrocarbons polycyclic aromatic hydrocarbon n. Any of a class of carcinogenic organic molecules that consist of three or more rings containing carbon and hydrogen and that are commonly produced by fossil fuel combustion. , and particulate matter particulate matter n. Abbr. PM Material suspended in the air in the form of minute solid particles or liquid droplets, especially when considered as an atmospheric pollutant. Noun 1. that was visible over a large area of southwest Asia Southwest Asia or Southwestern Asia (largely overlapping with the Middle East) is the southwestern portion of Asia. The term Western Asia is sometimes used in writings about the archeology and the late prehistory of the region, and in the United States subregion (11). Gaseous constituents were predominantly carbon dioxide carbon dioxide, chemical compound, CO2, a colorless, odorless, tasteless gas that is about one and one-half times as dense as air under ordinary conditions of temperature and pressure. and sulfur dioxide sulfur dioxide, chemical compound, SO2, a colorless gas with a pungent, suffocating odor. It is readily soluble in cold water, sparingly soluble in hot water, and soluble in alcohol, acetic acid, and sulfuric acid. ; the particulate matter mostly consisted of salts, organic compounds, soot soot, black or dull brown deposit of fine powder resulting from incomplete combustion of fuel of high carbon content, e.g., coal, wood, and oil. It consists chiefly of amorphous carbon and tarry substances that cause it to adhere to surfaces. (elemental carbon), and sulfates. The particle diameters were in the respirable respirable /res·pir·a·ble/ (re-spir´ah-b'l) 1. suitable for respiration. 2. small enough to be inhaled. res·pi·ra·ble adj. 1. Fit for breathing, as air. range, mostly between 0.1 [micro]m and 0.8 [micro]m (12). Relatively few data have been available regarding the impact of oil-fire smoke on the subsequent health of the veterans. During the fires, veterans who reported the closest proximity to the fires reported the greatest number of respiratory symptoms (13). However, there was little measurable evidence of adverse effects in exposed animals. Cats captured in proximiliy to oil fires had little indication of histologic his·tol·o·gy n. pl. his·tol·o·gies 1. The anatomical study of the microscopic structure of animal and plant tissues. 2. The microscopic structure of tissue. effects in their airway airway /air·way/ (-wa) 1. the passage by which air enters and leaves the lungs. 2. a device for securing unobstructed respiration. respiratory epithelium Respiratory epithelium is a type of epithelium found lining the upper and lower respiratory tracts, where it serves to moisten and protect the airways. It also functions as a barrier to potential pathogens and foreign objects, preventing infection by action of the (14). Hamsters instilled with particles from the fires showed no signs of acute toxicity acute toxicity Pharmacology Illness caused by a single exposure to a toxic substance (15). Risk assessment methodology suggests minimal potential for adverse health effects among veterans who were located in the smoke plume (16). Epidemiologic study epidemiologic study A study that compares 2 groups of people who are alike except for one factor, such as exposure to a chemical or the presence of a health effect; the investigators try to determine if any factor is associated with the health effect of the exposure to oil-fire smoke, like most other exposures of the Gulf War, has been limited by availability of objective exposure information. In this analysis, we hypothesized that self-reported symptoms of respiratory illnesses after the war may have been related to modeled and self-reported exposures to the oil-fire smoke. The self-reported exposure and illnesses came from a well-designed, population-based study of Gulf War veterans originally from Iowa at enlistment (5). These veterans were interviewed by telephone 5 years after the war to assess exposures, current symptoms, prevalent conditions, and health status. Modeled exposures were developed using a geographic information system to integrate spatial and temporal records of both smoke concentrations, which were modeled upon atmospheric data and satellite imagery Satellite imagery consists of photographs of Earth or other planets made from artificial satellites. History The first satellite photographs of Earth were made August 14, 1959 by the US satellite Explorer 6. , and of military units, which were collected using global positioning systems. Methods Study population and survey methods. All human subjects protocols were reviewed and approved by the University of Iowa Not to be confused with Iowa State University. The first faculty offered instruction at the University in March 1855 to students in the Old Mechanics Building, situated where Seashore Hall is now. In September 1855, the student body numbered 124, of which, 41 were women. Investigative Review Board. The study population (5) included all individuals identified from military records maintained by the Defense Manpower Data Center The Defense Manpower Data Center (DMDC) serves under the Office of the Secretary of Defense to collate personnel, manpower, training, financial, and other data for the Department of Defense. (Monterey, CA) who met three criteria: a) any military service between 2 August 1990 and 31 July 1991, b) Iowa listed as the "home state of record," and c) military service within the Gulf War theater (i.e., Iraq, Kuwait, Saudi Arabia Saudi Arabia (sä  `dē ərā`bēə, sou`–, sô–), officially Kingdom of Saudi Arabia, kingdom (2005 est. pop. , Oman, Bahrain, Qatar, United
Arab Emirates United Arab Emirates, federation of sheikhdoms (2005 est. pop. 2,563,000), c.30,000 sq mi (77,700 sq km), SE Arabia, on the Persian Gulf and the Gulf of Oman. , Persian Gulf Persian Gulf, arm of the Arabian Sea, 90,000 sq mi (233,100 sq km), between the Arabian peninsula and Iran, extending c.600 mi (970 km) from the Shatt al Arab delta to the Strait of Hormuz, which links it with the Gulf of Oman. , Red Sea, and the Gulf of Oman Noun 1. Gulf of Oman - an arm of the Arabian Sea connecting it with the Persian GulfArabian Sea - a northwestern arm of the Indian Ocean between India and Arabia ). Of the 8,089 individuals who met these criteria, a stratified stratified /strat·i·fied/ (strat´i-fid) formed or arranged in layers. strat·i·fied adj. Arranged in the form of layers or strata. random sample of 2,421 subjects was selected and contacted for study participation. The response rate was 78.3% (n = 1,896). Structured telephone interviews conducted 5 years after the war were used to collect demographics, exposures, and health information from each study participant (5). Demographic data included sex, age at deployment, race (white, black/other), military rank (enlisted/officer), type of service (Reserve or Guard, Active duty), smoking status (never, former, or current), and level of preparedness for the war. Self-reported exposure was assessed using the question "While you were in the Persian Gulf, were you exposed to [smoke from oil wall fires]?" (Yes, No, Don't know Don't know (DK, DKed) "Don't know the trade." A Street expression used whenever one party lacks knowledge of a trade or receives conflicting instructions from the other party. ). Those who answered "yes" were further queried about duration of exposure: "About how many days were you exposed? Consider any part of a day as 1, so we would like to know the total days you were exposed. Would you say 5 days or less, 6 to 30 days, or 31 days or more?" Using information gained in interviews with key informants, we developed a measure of predeployment military preparedness based on responses to six questions. These questions addressed how well the veteran's training and fitness prepared him or her for accomplishing assigned tasks. The number of positive responses to these six items indicated the veteran's level of preparedness. An individual having four or fewer positive responses was classified as having a low level of preparedness; all other individuals were classified as having a high level of preparedness. The items used for this variable were the following: In August, 1990 had you a) passed your last physical training test? b) met the weight standards for your height? (Yes, No, Don't Know). Given what the military expected of you during August 1990 to July 1991, did you feel that c) you were qualified in your common tasks? D) you were adequately trained for your specialty? e) your physical condition was adequate for your specialty? F) you were prepared to deal with the combination of challenges associated with your military service? (Yes, No, Don't Know). Measures of health included symptoms of asthma and of bronchitis assessed using questions from the American Thoracic Society American Thoracic Society (ATS ), established in 1905, is an independently incorporated, international, educational and scientific society, serving its 18,000 members world-wide who are dedicated in respiratory and critical care medicine. Questionnaire (17). Injury and symptoms of major depression, measures that have little or no biologically-plausible relationship to oil-fire exposure, were included to serve as control health outcomes. Subjects were asked whether symptoms bothered them not at all, a little, moderately, quite a bit, or extremely. A case of asthma symptoms was defined a priori a priori In epistemology, knowledge that is independent of all particular experiences, as opposed to a posteriori (or empirical) knowledge, which derives from experience. as a response of moderately or greater to at least one of the following symptoms in the past month: a) Has your chest sounded wheezy or whistling when you did not have a cold or flu? b) Have you had an attack of wheezing that has made you feel short of breath? c) Has there been an occasion when you had tightness of the chest when walking up stairs or running or walking quickly on flat ground? A case of bronchitis symptoms was defined a priori as a response of moderately or greater to both of the following symptoms in the past month: a) Have you been bothered by a cough when you did not have a cold or flu? b) Have you been congested Or did you bring up mucous or phlegm when you did not have a cold or flu? We screened for the outcome of major depression using questions from the PRIME MD (18). A case with symptoms of major depression was defined using a previously validated definition of at least one of the following two problems nearly every day for the past 2 weeks: a) Having had either little interest or pleasure in doing things, or b) feeling down, depressed, or hopeless and reporting of at least five of the following symptoms nearly every day for the past 2 weeks: feeling tired; lacking in energy; trouble falling asleep; difficulty in concentrating; poor appetite; moving or speaking so slowly that other people have noticed; feeling bad about yourself; fidgety more than usual; or feeling like hurting yourself. An injury case was defined as an individual who reported sustaining an injury in the past 3 months that was serious enough to seek medical advice or to cut down on usual activities for more than half a day (19). The injury questions were derived from the planned revisions to the National Health Interview Survey (20). Exposure modeling. Modeling each individual's exposure to oil-fire smoke was a multi-step process that included identifying the potential exposure period for each individual; identifying the military unit to which each individual was assigned; identifying the daily locations of each unit; identifying the daily locations and concentrations of smoke plumes; and integrating military unit and smoke concentration locations. Self-reported dates of Gulf War service and the duration of the oil fires (10 February 1991-15 October 1991) were used to define the potential exposure period for each individual. Subjects without known dates of war service were excluded (n = 9). Military records of unit assignments [approximately equal to] 120 personnel per unit) were maintained by the Defense Manpower Data Center and came from two data collection mechanisms: regular submissions and last submissions. Regular submissions were established for peacetime operations and reflect assignments on the first day of each month. Last submissions were generated by a postwar collaboration of military representatives. They reflect assignments immediately before departure from the war. We used these records to identify a single unit to which each individual was assigned during his or her potential exposure period. For most (85%) individuals, both submission types were in agreement. For submission types not in agreement, we used the last submission. Individuals without a known unit were excluded (n = 54). Military records of unit locations came from a post-war effort of the Armed Services The Constitution authorizes Congress to raise, support, and regulate armed services for the national defense. The President of the United States is commander in chief of all the branches of the services and has ultimate control over most military matters. Center for Research of Unit Records (Fort Belvoir Fort Belvoir is a United States military installation and a census-designated place (CDP) in Fairfax County, Virginia, United States. The population was 7,176 at the 2000 census. , VA). They organized and digitized handwritten hand·write tr.v. hand·wrote , hand·writ·ten , hand·writ·ing, hand·writes To write by hand. [Back-formation from handwritten.] Adj. 1. records of locations that were ascertained from global positioning devices during the war. We used these records to obtain a single daily location for each unit. Units with multiple locations on a given day were split into subgroups or assumed to be in transit. Subgroups were identified by the presence of the same multiple locations on at least 3 consecutive days for a given unit. Modeled exposures were calculated for each subgroup. The subgroup with the highest exposure was used for the entire unit if the coefficient of variation Coefficient of Variation A measure of investment risk that defines risk as the standard deviation per unit of expected return. (100% x standard deviation/mean) for all exposures was less than 20%. If the coefficient of variation exceeded 20%, all individuals in the unit were excluded (n = 63). We used the previous known location of a unit for those days that were missing location data (16.5% of data) because this generally meant that the unit was stationary. Individuals in units missing more than 50% of daily locations were excluded (n = 210). For quality assurance of our assumptions and record processing, the daily locations for a 10% random sample of units (24,893) were mapped and visually examined to ensure data completeness and to identify anomalous locations. Locations were considered anomalous if they were inconsistent with known military activities of the period (e.g., pre-war preparation, ground war, and troop departure). Only 11 of the 24,893 locations examined were identified as anomalous. The daily (24-hr average) concentration of oil-fire smoke at all locations were modeled by the National Oceanic and Atmospheric Administration Noun 1. National Oceanic and Atmospheric Administration - an agency in the Department of Commerce that maps the oceans and conserves their living resources; predicts changes to the earth's environment; provides weather reports and forecasts floods and hurricanes and Air Resources Laboratory (Silver Spring, MD) to 15-km resolution (21,22). Briefly, a hybrid, single-particle Lagrangian integrated trajectories model was used to predict the atmospheric advection ad·vec·tion n. 1. The transfer of a property of the atmosphere, such as heat, cold, or humidity, by the horizontal movement of an air mass: and diffusion of the smoke based on the average number of burning wells, the initial height of smoke release, and daily meteorology meteorology, branch of science that deals with the atmosphere of a planet, particularly that of the earth, the most important application of which is the analysis and prediction of weather. . Model building was validated with satellite imagery and by atmospheric and ground-based measurements. Smoke concentrations were a representation of the solar absorbance (natural log [solar energy solar energy, any form of energy radiated by the sun, including light, radio waves, and X rays, although the term usually refers to the visible light of the sun. at earth surface/maximum solar energy available]) between 2 and 4,000 m due to the smoke. For the oil-fire period, there were 600,000 modeled data points with solar absorbance values ranging from 0.01 to 4.0. We used these data points to categorize cat·e·go·rize tr.v. cat·e·go·rized, cat·e·go·riz·ing, cat·e·go·riz·es To put into a category or categories; classify. cat exposure using two approaches: number of days above a low threshold of smoke concentration and number of days above a high threshold of smoke concentration. The threshold levels Noun 1. threshold level - the intensity level that is just barely perceptible intensity, intensity level, strength - the amount of energy transmitted (as by acoustic or electromagnetic radiation); "he adjusted the intensity of the sound"; "they measured the were set without available precedent and without intuition regarding a level that would adequately balance sensitivity and specificity. Thus, we selected a priori threshold levels including the 50th percentile percentile, n the number in a frequency distribution below which a certain percentage of fees will fall. E.g., the ninetieth percentile is the number that divides the distribution of fees into the lower 90% and the upper 10%, or that fee level value of all data points (i.e., absorbance [greater than or equal to] 0.032), and the 95th percentile value of all data points (i.e., absorbance [greater than or equal to] 0.77). We used a geographic information system to assign exposure values to individuals in three steps. First, a map of the Gulf War theater was divided into 15-km square grid boxes; next, locations of military units and of smoke concentrations for each day were placed on this map; then if a military unit and a smoke concentration shared a grid box, that smoke concentration was attributed to individuals of the unit (Figure 1). Software packages used included Oracle (version 7; Orade Corporation, 1996, Redwood Shores, CA) for data set management; MicroStation95 (version 5; Bentley Systems Bentley Systems, Incorporated, provides software for the "Design, construction and operation of the world's infrastructure". The company’s software serves the building, plant, civil, and geospatial vertical markets in the areas of architecture, engineering, construction (AEC) Inc., 1995, Exton, PA) for cartographic car·tog·ra·phy n. The art or technique of making maps or charts. [French cartographie : carte, map (from Old French, from Latin charta, carta, paper made from papyrus output; Relation Interface System Shared Component (version 5; Intergraph Corporation, 1996, Huntsville, AL) to link the data set and cartographic output; and Modular GIS Environment (version 6, Intergraph) to perform the geographic analysis. [FIGURE 1 OMITTED] Analysis. We used Spearman spear·man n. A man, especially a soldier, armed with a spear. correlation (SAS (1) (SAS Institute Inc., Cary, NC, www.sas.com) A software company that specializes in data warehousing and decision support software based on the SAS System. Founded in 1976, SAS is one of the world's largest privately held software companies. See SAS System. version 8; SAS Institute SAS Institute Inc., headquartered in Cary, North Carolina, USA, has been a major producer of software since it was founded in 1976 by Anthony Barr, James Goodnight, John Sall and Jane Helwig. , Cary, NC) to assess the relationship between modeled and self-reported measures of exposure. The [alpha]-level was set at 0.05, and all p-values are two tailed. Multivariate The use of multiple variables in a forecasting model. logistic regression In statistics, logistic regression is a regression model for binomially distributed response/dependent variables. It is useful for modeling the probability of an event occurring as a function of other factors. models were used to assess the relationships between exposures and health outcomes while accounting for demographic covariates. Backward stepwise stepwise incremental; additional information is added at each step. stepwise multiple regression used when a large number of possible explanatory variables are available and there is difficulty interpreting the partial regression elimination of covariates was used to create parsimonious par·si·mo·ni·ous adj. Excessively sparing or frugal. par  si·mo models. For
regression models that included self-reported exposure, we used the four
percentiles of the response exposure levels (none, 1-5 days, 6-30 days,
> 31 days). For regression models that included modeled exposure,
exposure data were categorized cat·e·go·rize tr.v. cat·e·go·rized, cat·e·go·riz·ing, cat·e·go·riz·es To put into a category or categories; classify. cat into quartiles. Results The prevalence of self-reported symptoms among the study population (n = 1,560) of veterans 5 years after the Gulf War was 8.3% for asthma, 4.7% for bronchitis, 24.7% for injury, and 8.6% for major depression. Of the demographic and behavioral characteristics examined, smoking history and level of preparedness for the war were the characteristics most related to symptoms for respiratory illnesses (Table 1). Current smokers had more than twice the prevalence of symptoms of asthma and of bronchitis than never-smokers. Veterans with a low level of preparedness for the war had a 50% higher prevalence of symptoms of asthma and had nearly triple the prevalence of symptoms of bronchitis than veterans with a high level of preparedness for the war. There was a wide range in the amount of exposure to oil-fire smoke across the study population (Table 2). Nearly 6% of the deployed sample left the Gulf War theater before the fires began. Conversely, 21% of the sample was in the Gulf War theater more than 100 days during the fires. For the modeled exposure measure, the interquartile ranges (i.e., 25th and 75th percentiles) of exposures were 8 and 28 days exceeding the low threshold concentration and were 0 and 6 days above the high threshold. One-fourth of the sample reported no oil-well fire exposure and one-fourth reported more than 31 days of exposure. Of the demographic and behavioral characteristics examined, military rank (officers > enlisted) and service (reserve or guard > active duty) were the characteristics most related to self-reported level of exposure (Table 2). There was moderate correlation (Spearman r between 0.40 and 0.48, p < 0.05) between the self-reported exposure and the low and high threshold (respectively) modeled measures of exposure to oil-well fire smoke. The correlation was linear (every increase in self-reported exposure corresponded to an increase in modeled exposure) but was not homogeneous (there was a wide distribution of individual modeled exposures per level of self-reported exposure; Figure 2). [FIGURE 2 OMITTED] There was no evidence of any association between the modeled measure of exposure to oil-fire smoke and symptoms of either asthma or bronchitis (Figure 3). Results were similar for modeled measures at high and low thresholds; however, only the high threshold is shown. The risk of illness did not increase with magnitude of exposure. Compared to the sample quartile Quartile A statistical term describing a division of observations into four defined intervals based upon the values of the data and how they compare to the entire set of observations. Notes: Each quartile contains 25% of the total observations. having the lowest exposure, the other three quartiles of greater exposure had similar (all odds ratios near 1.0, range 0.77-1.26) risk of asthma and bronchitis symptoms. Also, any differences in risk between the quartiles were not statistically significant (all 95% confidence intervals confidence interval, n a statistical device used to determine the range within which an acceptable datum would fall. Confidence intervals are usually expressed in percentages, typically 95% or 99%. over-lapped 1.0). Additionally, the risk of asthma and bronchitis symptoms across the quartiles. paralleled the risk for the two outcome measures, injury and major depression, that served as negative controls (Figure 3). [FIGURE 3 OMITTED] In contrast to the modeled exposures, there was a significant association between the self-reported measure of exposure to oil-fire smoke and symptoms of both asthma and bronchitis (Figure 3). The risk of these outcomes increased with increasing magnitude of exposure. Compared to the sample percentile having the lowest exposure, subjects with greater exposure had higher risk for symptoms of asthma (range of odds ratios, 1.77-2.83) and of bronchitis (range of odds ratios, 2.14-4.78). Most of these differences were statistically significant (i.e., the lower bounds of the 95% confidence interval exceeded 1.0). However, the risk also increased with greater magnitude of exposure for injury and for major depression, the two control outcomes (Figure 3). Discussion We previously reported that Gulf War veterans had a greater prevalence of self-reported symptoms of asthma (2.3 more cases per 100) and of bronchitis (2.3 more cases per 100) than comparable contemporaneous military personnel who did not serve in the war (5). The difference in prevalence between those with and without Gulf War service may be explained, in part, by observations in the current study. We observed statistically significant associations between the prevalence of self-reported symptoms for respiratory illnesses and self-reported exposure to oil-fire smoke within a population-based sample of Gulf War veterans. However, these symptoms were not associated with exposures estimated from the integration of subject location data and oil-fire smoke plume data. We postulate postulate: see axiom. that associations observed between self-reported exposures and respiratory health outcomes may be due to recall bias (i.e., unequal reporting of exposure between sick and healthy people). Recall bias may also explain the observation of a significant relationship between the self-reported exposures to oil-fire smoke and major depression (Figure 3); a relationship with little biologic plausibility. Most soldiers who had direct engagement with the enemy were*in Iraq and in regions upwind of the oil-fire plumes most of the time (Figure 1). Thus, smoke-exposed individuals were less likely to have experienced psychologically traumatic situations. One explanation for the relationship between smoke exposure and depression is that those meeting the case definition for major depression may have been prone to symptom reporting and reporting of higher exposures due to somatization somatization /so·ma·ti·za·tion/ (so?mah-ti-za´shun) the conversion of mental experiences or states into bodily symptoms. so·ma·ti·za·tion n. or personality factors. Supporting this explanation is evidence of an apparent "media effect" in studies of factors influencing participation in Gulf War Registries (7). Because of the strong possibility of recall bias, significant relationships between self-reported exposure and the respiratory illnesses may be without clinical relevance. It is noteworthy that those soldiers with a low level of military preparedness more frequently reported asthma, bronchitis, injury, and major depression. They also reported more days of exposure to oil-fire smoke. However, exposure modeling revealed no difference in exposure between those with high and low levels of military preparedness. This was also true for guard/reserve compared to active duty service. A soldier who is physically less well prepared for war may have had a greater concern for smoke exposure, and this may have been reflected as an exaggerated recall of exposures. Although modeled exposures were not subject to recall bias, they were subject to measurement error. Errors in modeled exposures were likely to be inherited from the different types of source data (i.e., unit locations, meteorology, and military attributes) collected for purposes other than modeling of smoke exposure. These secondary data came from the effort of literally thousands of people who used unknown levels of quality assurance. Another likely source of error in the modeled exposures were assumptions made in modeling. One major assumption was that an individual remained with his or her unit (i.e., the level of exposure assessment) for the entire exposure period. Unfortunately, no data are available with which to validate this assumption. The effect of errors from the source data and assumptions is likely to be nondifferential misclassification (i.e., the amount of misclassified exposure does not depend on disease status), which usually biases results toward the null hypothesis null hypothesis, n theoretical assumption that a given therapy will have results not statistically different from another treatment. null hypothesis, n (23). Hence, the observation of no relationship between modeled exposure and respiratory illnesses (Figure 3) could be attributed to nondifferential misclassification. Despite potential errors in both the modeled and self-reported measures of exposure, the two measures were, at least to some extent, reflective of a true measure of exposure. There are no available criteria to directly measure the amount of error in our measures of exposure. However, there was modest correlation observed between these two independent measures of exposure (Figure 2). Potential errors in the classification of disease status were an additional concern. A recent nested case-control study A nested case-control study is a type of study design where new case controls are applied into cohorts which were defined before the study begins. Compared with case-control study, nested case-control study can reduce 'recall bias' and temporal ambiguity, and compared with was conducted on our study population to assess the validity of the self-reports of asthma used in this study (24). This study compared asthma symptoms, pulmonary function, and bronchial hyperresponsiveness bronchial hyperresponsiveness Exaggerated bronchial constriction most common in asthma, in response to nonspecific provocation, inhalation of various bronchoconstrictors, but also to physical challenges–eg, exercise, dry or cold air, hypertonic or hypotonic aerosols among three groups of veterans (n = 97): Gulf War veterans who self-reported asthma, Gulf War veterans who did not self-report asthma, and veterans not serving in the Gulf War who self-reported asthma. This study served to validate the self-reporting of asthma in the original survey with objective measures of respiratory health. However, this condusion is complicated by the fact that there was a significantly higher rate of current or past smoking in the asthma group with Gulf War service versus the nonasthma controls. The exposures in this sample of 1,560 Gulf War veterans are likely to be generalizable gen·er·al·ize v. gen·er·al·ized, gen·er·al·iz·ing, gen·er·al·iz·es v.tr. 1. a. To reduce to a general form, class, or law. b. To render indefinite or unspecific. 2. to the nearly 700,000 personnel that were deployed to the Persian Gulf. As illustrated in Figure 1, the locations of individuals in our study within the Gulf War theater were representative of the entire military. There was no evidence of a location bias, and the distribution of exposures among this study population is similar to the distribution of all Gulf War veterans who served during the period when the oil wells were burning. Additionally, there were similar self-reports of exposures between this sample and veterans in the VA National Study of Gulf War veterans (25). The use of satellite sensing data and geographic information systems for retrospective exposure modeling is novel. Thus, we sought evidence to further validate this approach. Ground-based area samples of total suspended particulate matter and sulfur dioxide were taken at the time of oil-well fires and compared to the modeled concentrations (21). These samples were taken near industrial sites as part of routine air pollution monitoring programs. Ground-level measurements of sulfur dioxide near the industrial sites showed reasonable agreement with the modeled concentrations when the background from the industrial sources was subtracted (21). Area sampling was conducted for particulate matter with a 50% cut-off cut-off Anesthesiology The point at which elongation of the carbon chain of the 1-alkanol family of anesthetics results in a precipitous drop in the anesthetic potential of these agents–eg, at > 12 carbons in length, there is little anesthetic activity, efficiency at an aerodynamic diameter Drug particles for pulmonary delivery are typically characterized by aerodynamic diameter rather than geometric diameter. The velocity at which the drug settles is proportional to the aerodynamic diameter, da. of 10 [micro]m (P[M.sub.10]) at various troop encampments by the U.S. Army Environmental Hygiene Agency (16). The level of carbon within a relatively small number of particulate matter samples was identified. The median fraction of the mass that was carbon was 13%, and the range was 3-47%. Much of the particulate matter was thought to be windblown sand. This variation in the carbon content of the P[M.sub.10] precluded meaningful comparison between modeled exposures and these ground-based samples. The modeled solar absorbance measures reflect the aerosol concentrations in the column from 2 to 4,000 m and not just those at breathing height where the exposures occur. For this reason the model incorporated the effects of vertical mixing on concentration (21). The model was also used to generate measures of exposure for a host of pollutants pollutants see environmental pollution. at 2 m (total suspended particulates, criteria pollutants, and elements such as vanadium vanadium (vənā`dēəm), metallic chemical element; symbol V; at. no. 23; at. wt. 50.9415; m.p. about 1,890°C;; b.p. 3,380°C;; sp. gr. about 6 at 20°C;; valence +2, +3, +4, or +5. Vanadium is a soft, ductile, silver-grey metal. that were being released from the burning oil wells) and for the solar absorbance between 2 and 4,000 m. We chose the solar absorbance to be representative of all available modeled exposures. Solar absorbance was highly correlated the other modeled exposures. For example, the correlation between solar absorbance and cumulative total suspended particulates at 2 m was r = 0.94. The solar absorbance variable is logarithmic logarithmic pertaining to logarithm. logarithmic relationship when the logs of two variables plotted against each other create a straight line. . Thus, the high threshold that was used in this analysis (absorbance > 0.77) is well above the 0.01 value observed before the fires or in areas outside the plume. Among the, 1,560 Gulf War veterans in this study, the prevalence of symptoms of asthma was 9.6% for guard or reserve and 7.1% for active duty. These are slightly higher values than reported for the overall Iowa Gulf War Study (n = 1,896; guard or reserve = 9.4%; active duty = 6.7%) (5). The prevalence of symptoms of bronchitis was 6.2% for guard or reserve and 3.2% for active duty, the same as our overall deployed group. Data from the 1996 National Health Interview Survey representing the U.S. civilian population provided prevalence estimates of 5.7% for physician-diagnosed asthma and 4.5% for chronic bronchitis among person 18-44 years of age (26). Although these are lower than the prevalence estimates in our study sample, direct comparisons are difficult because the case definitions were different. In conclusion, assessment of the relationship between exposure to the oil-fire smoke and symptoms of respiratory illnesses 5 years later among Gulf War veterans is made difficult by limitations inherent to retrospective exposure assessment. The two independent measures of exposure, self-reported and modeled, were moderately correlated. Notably, we found no association of any outcomes with modeled exposure and an association for a control outcome of major depression with self-reported exposure. These findings taken together do not support speculation that exposures to oil-fire smoke have led to respiratory symptoms among Gulf War veterans.
Table 1. Prevalence of symptoms for illness outcomes among Gulf
War-deployed veterans in the Iowa Gulf War Study (n = 1,560) 5 years
post-conflict on the basis of the stratification variables, smoking
status, and level of preparedness.
Illness outcomes (%)
Characteristic No. Asthma Bronchitis Injury
All 1,560 8.3 4.7 24.4
Sex
Men 1,455 8.3 4.7 24.7
Women 105 8.6 3.8 19.0
Age in war (years)
[less than or equal to] 25 880 7.4 4.1 26.1
> 25 680 9.6 5.4 22.1
Race
White 1,499 8.4 4.8 24.3
Other 61 6.6 1.6 26.2
Military rank
Enlisted 132 8.7 4.9 24.4
Officer 1,428 4.5 2.3 23.5
Smoking history
Never 689 4.9 3.0 21.8
Former 345 7.5 5.5 25.8
Current 526 13.3 6.3 26.8
Military service
Guard or reserve 769 9.6 6.2 24.8
Active duty 791 7.1 3.2 23.9
Level of preparedness
Low (a) 236 11.9 10.2 28.0
High 1,324 7.7 3.7 23.7
Illness outcomes (%)
Characteristic Major depression
All 8.6
Sex
Men 8.5
Women 9.5
Age in war (years)
[less than or equal to] 25 8.6
> 25 8.5
Race
White 8.3
Other 14.8
Military rank
Enlisted 9.0
Officer 3.8
Smoking history
Never 7.4
Former 9.6
Current 9.5
Military service
Guard or reserve 9.4
Active duty 7.8
Level of preparedness
Low (a) 21.2
High 6.3
(a) Score of 0-4 out of 6 points possible for the six questions on
level of preparedness prior to deployment, assessed at the time of the
interview, 1995-1996.
Table 2. Days of exposure above the modeled threshold level and
prevalence of self-reported exposure to smoke from the oil-well fires
among Gulf War veterans in the Iowa Gulf War Study (n = 1,560).
Modeled exposure (days above
threshold) (a)
Characteristic High Low
All 1 (0-6) 15 (8-28)
Sex
Men 1 (0-6) 15 (8-29)
Women 0 (0-5) 14 (8-23)
Age in war (years)
[less than or equal to] 25 0 (0-6) 17 (8-30)
> 25 1 (0-5) 14 (7-23)
Race
White 1 (0-5) 15 (8-28)
Other 3 (0-10) 23 (12-34)
Military rank
Enlisted 0 (0-5) 15 (8-28)
Officer 1 (0-7) 18 (8-30)
Smoking history
Never 1 (0-6) 16 (8-29)
Former 1 (0-7) 16 (8-27)
Current 0 (0-4) 13 (6-28)
Military service
Guard or reserve 3 (0-10) 16 (9-29)
Active duty 0 (0-3) 15 (2-27)
Level of preparedness
Low (b) 1 (0-6) 16 (8-28)
High 1 (0-5) 15 (8-28)
Self-reported exposure (%)
Characteristic None 1-5 days 6-30 days
All 27.3 16.9 30.0
Sex
Men 27.1 16.9 30.6
Women 30.5 17.1 22.9
Age in war (years)
[less than or equal to] 25 29.3 17.5 29.2
> 25 24.8 16.2 31.2
Race
White 27.4 16.8 29.9
Other 24.6 19.7 32.8
Military rank
Enlisted 28.0 16.9 30.0
Officer 19.7 17.4 30.3
Smoking history
Never 26.8 18.8 29.3
Former 24.9 14.4 29.0
Current 29.6 16.1 31.7
Military service
Guard or reserve 13.5 19.9 32.3
Active duty 40.8 14.0 27.8
Level of preparedness
Low (b) 24.8 13.2 31.6
High 27.8 17.6 29.8
Self-reported exposure (%)
Characteristic [greater than or equal to] 31 days
All 25.7
Sex
Men 25.4
Women 29.5
Age in war (years)
[less than or equal to] 25 24.0
> 25 27.9
Race
White 25.8
Other 23.0
Military rank
Enlisted 25.1
Officer 32.6
Smoking history
Never 25.1
Former 31.7
Current 22.6
Military service
Guard or reserve 34.3
Active duty 17.4
Level of preparedness
Low (b) 30.3
High 24.9
(a) Median (25th-75th percentile). The low threshold of smoke
concentration (solar absorbance [greater than or equal to] 0.032) was
the 50th percentile value of all data points. The high threshold (solar
absorbance [greater than or equal to] 0.77) was the 95th percentile
value of all data points. The exposure variable was days of exposure to
conditions of attenuation of solar energy due to oil-fire smoke between
2 and 4,000 m altitude. (b) Score of 0-4 out of 6 points possible for
the six questions on level of preparedness prior to deployment,
assessed at the time of the interview, 1995-1996.
REFERENCES AND NOTES (1.) Presidential Advisory Committee on Gulf War Veterans' Illnesses: Final Report, Washington, DC:U.S. Government Printing Office, December 1996. (2.) Centers for Disease Control and Prevention Centers for Disease Control and Prevention (CDC), agency of the U.S. Public Health Service since 1973, with headquarters in Atlanta; it was established in 1946 as the Communicable Disease Center. . Unexplained illness among Persian Gulf War veterans in an Air National Guard Unit: Preliminary Report--August 1990-March 1995. Mortal Morbid Weekly Rep 44:443-447 (1985). (3.) Stretch RH, Bliese PD, Marlowe DH. Physical symptomatology symptomatology /symp·to·ma·tol·o·gy/ (simp?to-mah-tol´ah-je) 1. the branch of medicine dealing with symptoms. 2. the combined symptoms of a disease. symp·to·ma·tol·o·gy n. of Gulf War-era service personnel from the states of Pennsylvania and Hawaii. Mil Med 160:131-136 (1995). (4.) U.S. Department of Defense. Comprehensive Clinical Evaluation clinical evaluation Medtalk An evaluation of whether a Pt has symptoms of a disease, is responding to treatment, or is having adverse reactions to therapy Program for Persian Gulf War Veterans: CCEP CCEP Canadian Centre for Emergency Preparedness CCEP Comprehensive Clinical Evaluation Program CCEP Commercial COMSEC Endorsement Program CCEP Canadian Certified Environmental Practitioner CCEP Child Care Executive Partnership (Florida) Report on 18,598 Participants. Washington, DC:U.S. Department of Defense, 1996. (5.) Iowa Persian Gulf Study Group. Self-reported illness and health status among gulf war veterans: A population-based study. J Am Med Assoc 277:238-245 (1987). (6.) Fukuda K, Nisenbaum R, Stewart G, Thompson WW, Robin L, Washko RM, Noah DL, Barrett DH, Herwaldt BL, Mawle ACT et al. Chronic multisymptom illness affecting Air Force veterans of the Gulf War. JAMA JAMA abbr. Journal of the American Medical Association 280:981-988 (1988). (7.) Gray GC, Hawksworth AW, Smith TC, Kang HK, Knoke JD, Gackstetter GD. Gulf War Veterans' Health Registries. Who is most likely to seek evaluation? Am J Epidemiol 148(4):343-349 (1998). (8.) Proctor SP, Heeren T, White RF, Wolfe J, Borgos MS, Davis JD, Pepper L, Clapp R, Sutker PB, Vasterling JJ, et al. Health status of Persian Gulf War veterans: self-reported symptoms, environmental exposures and the effect of stress. Int J Epidemiol 27:1000-1010 (1998). (9.) Unwin C, Blatchley N, Coker W, Ferry S, Hotopf M, Hull L, Ismail K, Palmer I, David A, Wessely S. Health of UK servicemen who served in Persian Gulf War. Lancet 353:169-178 (1999). (10.) Doebbeling BN, Clarke WR, Watson D, Torner JC, Woolson RF, Voelker MD, Barrett DH, Schwartz DA. Is there a Persian Gulf War syndrome? Evidence from a large, population-based survey of veterans and nondeployed controls. Am J Med 108(9):695-704 (2000). (11.) Hobbs PV, Radke LF. Airborne studies of the smoke from the Kuwait oil fires. Science 256:987-991 (1992). (12.) Cofer WR III, Stevens RK, Winstead EL, Pinto pinto Spotted horse, also called paint, piebald, skewbald, and other terms to describe variations in colour and markings. The American Indian ponies of the western U.S. were often pintos. Most pure-breed associations refuse to register horses with pinto colouring. JP, Sebacher DI, Abdulraheem MY, Al-Sahafi M, Mezurek MS, Rasmussen RA, Cahoon DR, et al. Kuwaiti oil fires The Kuwaiti oil fires were a result of the scorched earth policy of Iraqi military forces retreating from Kuwait in 1991 after conquering the country but being driven out by the military forces of the United States and other nations (see Gulf War). : Compositions of source smoke. J Geophys Res 97:14521-14525 (1992). (13.) Petruccelli BP, Goldenbaum M, Scott B, Lachiver R, Kanjarpane D, Elliott E, Francis M, McDiarmid MA, Deeter D. Health effects of the 1991 Kuwait oil fires: a survey of US army troops. J Occup Environ Med 41(6):433-439 (1999). (14.) Moeller RB Jr, Kalasinsky VF, Razzaque M, Centeno JA, Dick EJ, Abdal M, Petrov II, DeWitt TW, al-Attar M, Pletcher JM. Assessment of the histopathological lesions and chemical analysis of feral cats to the smoke from the Kuwait oil fires. J Environ Pathol Toxicol Oncol 13(2):137-149 (1994). (15.) Brain JD, Long NC, Wolfthal SF, Dumyahn T, Dockery DW. Pulmonary toxicity in hamsters of smoke particles from Kuwaiti oil fires. Environ Health Perspect 106(3):141-146 (1998). (16.) U.S. AEHA AEHA Army Environmental Hygiene Agency AEHA Army Environmental Health Agency AEHA Alaska Environmental Health Association AEHA Aeromedical Evacuation and Hospitalization Model (USAF) . Final Report Kuwait Oil Fire Health Assessment: 5 May-3 December 1991. Report No. 39.26-L192-92. Washington, DC:U.S. Army Environmental Hygiene Agency, 1994. (17.) Ferris BG. Epidemiology standardization project. Am Rev Respir Dis 118:1-53 (1978). (18.) Spitzer RL, Williams JBW JBW Junior Bantamweight (boxing) , Kroenke K, Linzer M, deGruy MD III, Hahn SR, Brody D, Johnson JG. Utility of a new procedure for diagnosing mental disorders mental disorders: see bipolar disorder; paranoia; psychiatry; psychosis; schizophrenia. in primary care: the PRIME-MD 1000 study. JAMA 272:1749-1756 (1904). (19.) Zwerling C, Torner JC, Clarke WR, Voelker MD, Doebbeling BN, Barrett DH, Merchant JA, Woolson RF, Schwartz DA. Self-reported postwar injuries among Gulf War veterans. Public Health Rep 115:346-349 (2000). (20.) CDC See Control Data, century date change and Back Orifice. CDC - Control Data Corporation . 1997 National Health Interview Survey (NHIS NHIS National Health Interview Survey NHIS New Hampshire International Speedway NHIS National Health Insurance Scheme (Ghana) NHIS National Health Insurance System ) Public Use Data Release: NHIS Survey Description, February 2000. Atlanta,GA:Centers for Disease Control and Prevention. Available: http://www.cdc.gov/nchs/nhis.htm [cited 31 August 2001]. (21.) Draxler RR, McQueen JT, Stunder BJB BJB Bank Julius Baer (Swiss bank) BJB Bond, James Bond BJB Boerenjeugdbond (Dutch) BJB Beton Jungle Bikers . An evaluation of air pollutant pol·lut·ant n. Something that pollutes, especially a waste material that contaminates air, soil, or water. exposures due to the 1991 Kuwait oil fires using a Lagranian model. Atmos Environ 28:2197-2210 (1904). (22.) McQueen JT, Draxler RR. Evaluation of model back trajectories of the Kuwait oil fires smoke plume using digital satellite data. Atmos Environ 28:2159-2174 (1994). (23.) Kelsey JL, Thompson WD, Evans AS. Methods in Observational Epidemiology. Oxford:Oxford University Press, 1986. (24.) Kline JN, Sprince NL, Woodman CL, Black DW, Reed SSL (Secure Sockets Layer) The leading security protocol on the Internet. Developed by Netscape, SSL is widely used to do two things: to validate the identity of a Web site and to create an encrypted connection for sending credit card and other personal data. Pfab DJ, Watt JA, Smith B, Barrett DH, Doebbeling BN, et al. Persian Gulf War veterans and asthma: Iowa Persian Gulf research project [Abstract]. Am J Respir Crit Care Med 163(5):A162 (2601). (25.) Kang HK, Mahan CM, Lee KY, Magee CA, Murphy FM. Illnesses among United States United States, officially United States of America, republic (2005 est. pop. 295,734,000), 3,539,227 sq mi (9,166,598 sq km), North America. The United States is the world's third largest country in population and the fourth largest country in area. veterans of the Gulf War: a population-based survey of 30,000 veterans. J Occup Environ Med 42(5):491-501 (2000). (26.) Adams PF, Hendershot GE, Morano MA. Current estimates from the National Health Interview Survey, 1996. National Center for Health Statistics National Center for Health Statistics (NCHS) is part of the Centers for Disease Control and Prevention (CDC), which is part of the United States Department of Health and Human Services. NCHS is the United States' principal health statistics agency. . Vital Health Stat 1999;10(200). Available: http://www.cdc.gov/nchs/data/ series/sr_10/sr10_260.pdf [cited 31 August 2001]. Jeffrey L. Lange, (1) David A. Schwartz, (2) Bradley N. Doebbeling, (2,3) Jack M. Heller, (4) and Peter S. Thorne (1) (1) Department of Occupational and Environmental Health, College of Public Health, and (2) Department of Internal Medicine, College of Medicine, University of Iowa, Iowa City, Iowa Iowa City is a city in Johnson County, Iowa, United States. It is the principal city of the Iowa City, Iowa Metropolitan Statistical Area which encompasses Johnson and Washington counties. , USA; (3) Department of Epidemiology, College of Public Health, University of Iowa, Iowa City, Iowa, USA and Iowa City Iowa City, city (1990 pop. 59,738), seat of Johnson co., E Iowa, on both sides of the Iowa River; founded 1839 as the capital of Iowa Territory, inc. 1853. Among its manufactures are foam rubber, animal feed, paper, and food products. The city is the seat of the Univ. Veterans Affairs Veterans Affairs is a term of the business that deals with the relation between a government and its veteran communities, usually administered by the designated government agency. Medical Center, Iowa City, Iowa, USA, (4) U.S. Army Center for Health Promotion & Preventive Medicine preventive medicine, branch of medicine dealing with the prevention of disease and the maintenance of good health practices. Until recently preventive medicine was largely the domain of the U.S. , Deployment Environmental Surveillance Program, Aberdeen Proving Ground Aberdeen Proving Ground (APG) is a United States Army facility located near Aberdeen, Maryland (in Harford County). The Army's oldest active proving ground, it was established on October 20, 1917, six months after the United States entered World War I. , Maryland, USA Address correspondence P.S. Thorne, College of Public Health, University of Iowa, 100 Oakdale Campus, 176 IREH, Iowa City, IA 52242-5000 USA. Telephone: (319) 335-4216. Fax: (319) 335-4006. E-mail: peter-thorne@uiowa.edu For their contributions we thank J. Merchant, J. Torner, R. Woolson, W. Clarke, and M. Voelker, at the University of Iowa; J. Kirpatrick, W. Wortman, C. Weir, J. Howard, and K. Campbell at USACHPPM USACHPPM United States Army Center for Health Promotion and Preventive Medicine ; and D. Barrett at the CDC. J.L. Lange is currently at the Army Medical Surveillance Activity, Washington, DC. D.A. Schwartz is currently at the Department of Internal Medicine, Duke University, Durham, NC. This study was supported by a cooperative agreement (U50/CCU711513) between the CDC ,National Center for Environmental Health and the Iowa Department of Public Health. P.S. Thorne received additional support from NIH/NIEHS P30 ES05605. Received 12 October 2001; accepted 28 March 2002. |
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