Evidence of reproductive endocrine effects in women with occupational fuel and solvent exposures. (Articles).

Hydrocarbons (HCs) found in fuels and solvents are ubiquitous in the environment, yet we know little about their effects on the endocrine system endocrine system (ĕn`dəkrĭn), body control system composed of a group of glands that maintain a stable internal environment by producing chemical regulatory substances called hormones. . The objective of this study was to assess the potential reproductive endocrine effects of low-dose HCs encountered by female U.S. Air Force personnel with fuel (primarily JP-8 jet fuel) and solvent exposures (n = 63). We estimated the internal dose of HCs in fuels and solvents by measuring their levels in exhaled breath, including the sum of aliphatic aliphatic /al·i·phat·ic/ (al?i-fat´ik) pertaining to any member of one of the two major groups of organic compounds, those with a straight or branched chain structure.

al·i·phat·ic
adj. HCs ([C.sub.6][H.sub.14]-[C.sub.16][H.sub.34]) and the sum of aromatic HCs (benzene, ethylbenzene Ethylbenzene is an organic chemical compound which is an aromatic hydrocarbon. Its major use is in the petrochemical industry as an intermediate compound for the production of styrene, which in turn is used for making polystyrene, a commonly used plastic material. , toluene toluene (tōl`y

ēn') or methylbenzene (mĕth'əlbĕn`zēn), C₇H₈ , and m,p,o-xylenes). Adverse outcome measures included urinary endocrine markers that have been associated with nonconceptive (vs. conceptive) menstrual cycles in ovulatory o·vu·la·to·ry
adj.
Of, relating to, or characterizing ovulation. women: lower preovulatory luteinizing hormone lu·te·in·iz·ing hormone
n.
Abbr. LH A hormone produced by the anterior lobe of the pituitary gland that stimulates ovulation and the development of the corpus luteum in the female and the production of testosterone by the interstitial (LH) and mid-luteal phase pregnanediol 3-glucuronide (Pd3G) and estrone estrone /es·trone/ (es´tron) an estrogen isolated from pregnancy urine, human placenta, palm kernel oil, and other sources, also prepared synthetically; for properties and uses, see estrogen. 3-glucuronide, and higher follide phase Pd3G. We also obtained reproductive and exposure information from baseline questionnaires and daily diaries. Toluene was the most frequently found analyte in the breath, with values up to 52.0 ppb ppb
abbr.
parts per billion , and benzene breath levels were up to 97.5 ppb. Regression analysis In statistics, a mathematical method of modeling the relationships among three or more variables. It is used to predict the value of one variable given the values of the others. For example, a model might estimate sales based on age and gender. revealed that preovulatory LH levels were significantly lower (p = 0.007) among women whose total aliphatic HC levels were above the median. The relationship between elevated aliphatic HC exposure and lowered preovulatory LH levels in the present study suggests that compounds in fuels and some solvents may act as reproductive endocrine disruptors. Confirmation of these findings is needed, not only to determine if fuel and solvent exposure may impact other LH-dependent physiologic functions but also to examine effects of fuels and solvents on conception. Key words: epidemiology, estrogen, fuel, hydrocarbon, luteinizing hormone, military, progesterone progesterone (prōjĕs`tərōn'), female sex hormone that induces secretory changes in the lining of the uterus essential for successful implantation of a fertilized egg. , reproduction, solvent. Environ Health Perspect 110:805-811 (2002). [Online 25 June 2002]

http://ehpnet1.niehs.nih.gov/docs/2002/110p805-811reutman/abstract.html

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Evidence has accumulated that hydrocarbons (HCs) in fuels and solvents are reproductive toxicants. For example, reductions in female fertility have been identified in occupational groups exposed to organic solvents containing benzene (Cho et al. 2000), toluene (Plenge-Bonig and Karmaus 1999), and mixtures of solvents (Sallmen et al. 1995; Smith et al. 1997a). Fuels, solvents, and their constituent chemicals are ubiquitous exposures. Contact may occur during routine home or workplace activities, such as refueling automobiles, mowing mow¹
n.
1. The place in a barn where hay, grain, or other feed is stored.

2. A stack of hay or other feed stored in a barn. lawns, or painting, refinishing Refinishing in woodworking and decorative arts means fixing or redoing the finishing paint, varnish or other top coating of an object, from resanding to new paint and new varnish. The artisan or restorer is traditionally aiming for an improved or restored and renewed finish. , or degreasing. Among those occupational populations at risk of high-level exposures to fuels and solvents were farmers, mechanics, maintenance workers, printers, petroleum refinery workers, metal cleaners, painters, and aircraft maintenance personnel.

Approximately 116,000 women work for the U.S. Air Force (USAF) as officers, enlisted personnel, and civilians (Air Force Personnel Center, Randolph AFB AFB
abbr.
acid-fast bacillus

AFB Acid-fast bacillus, also 1. Aflatoxin B 2. Aorto-femoral bypass , 2000). Women have held jobs in the USAF that involve handling fuel, maintaining jets and ground vehicles, and working on the flight line. These jobs potentially expose women to fuels such as JP-8 (jet fuel) and diesel; a variety of solvents, including toluene and xylene xylene (zī`lēn) or dimethylbenzene (dī'mĕthəlbĕn`zēn), C₆H₄(CH₃)₂ ; and products of fuel combustion. Furthermore, gender differences in exposure, toxicokinetics, and physiologic responses may affect susceptibility to the potential effects of fuel and solvent exposure. Pharmacokinetic modeling revealed that women metabolize me·tab·o·lize
v.
1. To subject to metabolism.

2. To produce by metabolism.

3. To undergo change by metabolism.

metabolize

to subject to or be transformed by metabolism. 23-26% more benzene than do men under the same exposure conditions and therefore may have different responses to exposure than do men (Brown et al. 1998). Historically, over 3 billion gallons of jet fuel have been issued annually to the U.S. Department of Defense (Directorate of Resources Management 1999). The principal jet fuel used by the USAF, JP-8, is a mixture of petroleum distillates composed primarily of aliphatic and aromatic HCs in approximately a 6:1 ratio (Pleil et al. 2000; Smith et al. 1997b). Among the constituent HCs common to both JP-8 and other, more commonly used solvents are aliphatic HCs such as hexane hexane /hex·ane/ (hek´san) a saturated hydrogen obtained by distillation from petroleum.

hex·ane
n. and aromatic HCs such as toluene and xylenes (ATSDR ATSDR Agency for Toxic Substances & Disease Registry 1993; Ikeda 1992; Lemasters et al. 1997). Fuel and solvents may be encountered separately or as mixtures during job activities such as aircraft maintenance.

The purpose of this study was to assess the potential effects of fuel and solvent exposure on menstrual cycle function. We monitored specific endocrine end points that are predictive of conceptive menstrual cycles (Baird et al. 1999) as subclinical subclinical /sub·clin·i·cal/ (sub-klin´i-k'l) without clinical manifestations.

sub·clin·i·cal
adj.
Not manifesting characteristic clinical symptoms. Used of a disease or condition. markers of female reproductive dysfunction to identify early, subtle reproductive effects of low-dose exposures to solvents and fuels.

Materials and Methods

Study population. The study population consisted of female USAF employees. We obtained approval from the University of Cincinnati The University of Cincinnati is a coeducational public research university in Cincinnati, Ohio. Ranked as one of America’s top 25 public research universities and in the top 50 of all American research universities,^[2] and the USAF prior to initiation of recruitment. We recruited potential participants for initial interviews by phone and in person at 10 USAF bases. Eligibility criteria included age between 18 and 42 years and requirements that the subject had not used hormonal medications, oral contraceptives Oral Contraceptives Definition

Oral contraceptives are medicines taken by mouth to help prevent pregnancy. They are also known as the Pill, OCs, or birth control pills. , or hormone replacement for 3 months; had not used an intrauterine device intrauterine device (IUD), variously shaped birth control device, usually of plastic, which is inserted into the uterus by a physician. The IUD may contain copper or levonorgestrel, a progestin (a hormone with progesteronelike effects; see progesterone). during the past 3 months; had no surgery, other than tubal Tubal (t

`bəl), in the Bible, son of Japheth. ligation ligation /li·ga·tion/ (li-ga´shun) the application of a ligature.

tubal ligation sterilization of the female by constricting, severing, or crushing the uterine tubes. , on reproductive tissues; had not been pregnant or breast-feeding breast-feeding /breast-feed·ing/ (brest´fed?ing) nursing; the feeding of an infant at the mother's breast. for 3 months; had not been diagnosed with any of the following: chronic pelvic inflammatory disease pelvic inflammatory disease (PID), infection of the female reproductive organs, usually resulting from infection with the bacteria that cause chlamydia or gonorrhea. ; endometriosis endometriosis (ĕn'dəmē'trē-ō`sĭs), a condition in which small pieces of the endometrium (the lining of the uterus) migrate to other places in the pelvic area. ; vaginal, cervical, uterine uterine /uter·ine/ (u´ter-in) pertaining to the uterus.

u·ter·ine
adj.
Of, relating to, or in the region of the uterus. , or ovarian cancer ovarian cancer

Malignant tumour of the ovaries. Risk factors include early age of first menstruation (before age 12), late onset of menopause (after age 52), absence of pregnancy, presence of specific genetic mutations, use of fertility drugs, and personal history of breast ; systemic lupus erythematosus Systemic Lupus Erythematosus Definition

Systemic lupus erythematosus (also called lupus or SLE) is a disease where a person's immune system attacks and injures the body's own organs and tissues. Almost every system of the body can be affected by SLE. ; hypopituitarism Hypopituitarism Definition

Hypopituitarism is loss of function in an endocrine gland due to failure of the pituitary gland to secrete hormones which stimulate that gland's function. The pituitary gland is located at the base of the brain. ; Cushing's syndrome Cushing's Syndrome Definition

Cushing's syndrome is a relatively rare endocrine (hormonal) disorder resulting from excessive exposure to the hormone cortisol. ; sarcoidosis Sarcoidosis Definition

Sarcoidosis is a disease which can affect many organs within the body. It causes the development of granulomas. Granulomas are masses resembling little tumors. They are made up of clumps of cells from the immune system. ; pituitary pituitary /pi·tu·i·tary/ (pi-too´i-tar?e)
1. hypophysial.

2. pituitary gland; see under gland.

anterior pituitary adenohypophysis. tumor; acute hepatitis acute hepatitis Clinical medicine Liver inflammation of abrupt onset, which may be due to a viral infection–eg HAV or toxins Clinical Low-grade fever, anorexia, N&V, fatigue, malaise, headache, photophobia, pharyngitis, cough; later, dark urine, light ; HIV HIV (Human Immunodeficiency Virus), either of two closely related retroviruses that invade T-helper lymphocytes and are responsible for AIDS. There are two types of HIV: HIV-1 and HIV-2. HIV-1 is responsible for the vast majority of AIDS in the United States. or AIDS; cirrhosis of the liver Cirrhosis of the liver
A type of liver disease, most often caused by chronic alcohol abuse. It is characterized by scarring of the liver, which leads to an increase in the blood pressure in the portal veins.

Mentioned in: Bleeding Varices ; hypothyroidism hypothyroidism: see thyroid gland. ; hyperthyroidism hyperthyroidism: see thyroid gland. ; multiple sclerosis; tuberculosis; or diabetes. We targeted nonsmokers; however, we also included a small subset of smokers (n = 8). Of the civilian and active military women employed at the 10 USAF bases who were contacted, 335 were preliminarily eligible during recruitment screening. Of these women, 51% (n = 170) provided informed consent and participated by maintaining daily diaries and collecting daily urine samples, and were confirmed as eligible during the baseline interview.

Initial participant interview and diary collection. During the initial interview, we explained the study procedures, eligibility criteria, and the voluntary nature of participation to the potential participants and we obtained informed consent. Next, we administered the baseline questionnaire to collect information about their work, socioeconomic status socioeconomic status,
n the position of an individual on a socio-economic scale that measures such factors as education, income, type of occupation, place of residence, and in some populations, ethnicity and religion. , pregnancy, lifestyle, major life events (Horowitz et al., 1977), and reproductive and menstrual histories. Results of the menstrual history are reported elsewhere (Gordley et al. 2000). We provided instructions for collecting daily urine samples and for completing daily diaries starting the day after the initial interview. We also measured weight and height.

We asked participants to immediately begin maintaining their diaries daily and to continue through the end of their second postinterview menstrual period. The diary requested menstrual, psychosocial, lifestyle, work, chemical and physical exposures, and sample collection information. We measured job strain within the diaries using an abbreviated adaptation of the Job Content Questionnaire developed by Karasek et al. (1998). Participants mailed their diaries to investigators upon completion.

Initial interview and daily diary information abstracted to construct potential covariates for preliminary analyses included age, income group, marital status marital status,
n the legal standing of a person in regard to his or her marriage state. , education, race, body weight, body mass index (BMI BMI body mass index.

BMI
abbr.
body mass index

Body mass index (BMI)
A measurement that has replaced weight as the preferred determinant of obesity. = weight in kilograms / height in square meters), alcoholic beverage alcoholic beverage

Any fermented liquor, such as wine, beer, or distilled liquor, that contains ethyl alcohol, or ethanol, as an intoxicating agent. When an alcoholic beverage is ingested, the alcohol is rapidly absorbed in the stomach and intestines because it does not consumption, coffee and caffeine consumption, cigarettes smoked, second-hand smoke second-hand smoke Passive smoking, see there exposure; episodes of illness and/or fever > 101[degrees]F, major life events, job strain, hours worked, Shifts worked, miles run and walked, hours slept, physical activity at home and work, exposure to cold temperatures, and fuel and solvent exposure.

Endocrine data analyses. We collected first morning urine samples daily concurrent to maintaining the diaries. Participants stored the samples in home freezers; samples contained 7% glycerol glycerol, glycerin, glycerine, or 1,2,3-propanetriol (prō`pāntrī'ŏl), CH₂OHCHOHCH₂OH, colorless, odorless, sweet-tasting, syrupy liquid. to prevent loss of hormonal activity (Kesner et al. 1995). Participants shipped frozen samples with freezer packs to the National Institute for Occupational Safety and Health National Institute for Occupational Safety and Health,
n.pr an institute of the Centers for Disease Control and Prevention that is responsible for assuring safe and healthful working conditions and for developing standards of safety and health. (NIOSH NIOSH National Institute for Occupational Safety & Health, see there

NIOSH Recommendations for Safety & Health Standards

Agent NIOSH REL*/OSHA PEL^† Health effects ) laboratory by next-day courier. We stored samples in the laboratory at -80[degrees]C until assayed.

We ascertained menstrual periods from the participants' daily records of vaginal bleeding Vaginal bleeding refers to bleeding in females that are either a physiologic response during the non-conceptional menstrual cycle or caused by hormonal or organic problems of the reproductive system. based on a modification of a previously described menstrual algorithm (Hornsby 1991). The first day of the menstrual cycle was the first of 2 consecutive days of bleeding, only one of which could be spotting. We counted 1-2 day interruptions in bleeding (nonbleeding or spotting) that occurred after day 2 of the period together with bleeding days as part of the menses menses /men·ses/ (men´sez) the monthly flow of blood from the female genital tract.

men·ses
n. . Menses were preceded and followed by 3 or more consecutive days of nonbleeding or spotting. We contacted participants with missing diary menstrual bleeding entries immediately regarding menses dates and accepted reported menses dates up to 14 days retrospectively.

We used urinary endocrine measurements and menses dates to derive the four key endocrine end points using established algorithms (Baird et al. 1999; Baird 1999). Baird et al. (1999) reported that nonconception during ovulatory cycles is associated with elevated levels of follicular fol·lic·u·lar
adj.
1. Relating to, having, or resembling a follicle or follicles.

2. Affecting or growing out of a follicle or follicles. pregnanediol 3-glucuronide (Pd3G) and reduced levels of preovulatory luteinizing hormone (LH), midluteal Pd3G, and possibly midluteal estrone 3-glucuronide ([E.sub.1]3G). Therefore, we selected these end points 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. for analysis.

We assayed the major urinary metabolites Metabolites
Substances produced by metabolism or by a metabolic process.

Mentioned in: Interactions of estradiol estradiol /es·tra·di·ol/ (es?trah-di´ol) (es-tra´de-ol) the most potent estrogen in humans; pharmacologically, it is often used in the form of its esters (e.g., e. cypionate, e. and progesterone (i.e., [E.sub.1]3G and Pd3G) using competitive, double-antibody time-resolved fluoroimmunoassays (Kesner et al. 1994b). We assayed urinary LH using a commercial noncompetitive, two-site, time-resolved immunofluorometric assay (Kesner et al. 1998, 1994a). Detailed characteristics of these assays, including specificity, sensitivity, and precision, are described in their respective references (Jaffe 1886; Kesner et al. 1994a, 1994b, 1998). We measured creatinine creatinine /cre·at·i·nine/ (kre-at´i-nin) an anhydride of creatine, the end product of phosphocreatine metabolism; measurements of its rate of urinary excretion are used as diagnostic indicators of kidney function and muscle mass. spectrophotometrically (Jaffe 1886) and divided each urinary endocrine value by the creatinine concentration to adjust for urine dilution. We measured all samples for each participant in the same assay. Intra-assay and interassay coefficients of variation for urinary endocrine measurements were, respectively, 6.2% and 4.6% for LH, 15.4% and 10.1% for [E.sub.1]3G, 11.6% and 8.4% for Pd3G, and 0.97% and 3.4% for creatinine.

Internal dose exposure measures. We previously demonstrated that relatively low internal doses of aromatic HCs in solvents could be measured with greater sensitivity in breath than in blood or urine (Lemasters et al. 1999a). Therefore, we estimated internal doses of aliphatic and aromatic HCs from solvents and fuels in mixed-exhaled breath samples collected from 63 participants. To estimate analyte levels in the vessel-rich tissue compartment, we collected a breath sample during the initial interview, 1.4 hr (SD = 2.2), on average, after participants left the work site (Pellizzari et al. 1992) on the second to fifth consecutive workday. For one additional participant with no workday sample, we substituted a Monday (first workday) sample as a proxy measurement for this analysis (total n = 63). We collected breath samples through desiccant desiccant /des·ic·cant/ (des´i-kant)
1. promoting dryness.

2. an agent that promotes dryness.

des·ic·cant
n. filters into Tedlar bags (SKC SKC Salish Kootenai College (Pablo, MT)
SKC Sky Clear (Meteorology)
SKC St Kevin's College (Melbourne, Victoria-Australia)
SKC Chief Storekeeper Inc., Eighty Four, PA) and then suctioned them into sorbent sorbent /sor·bent/ (sor´bent) an agent that sorbs; see absorbent and adsorbent.

sorbent

an agent that sorbs. charcoal tubes 1.5 hr (SD = 1.4), on average, after collection.

In the laboratory, we concentrated breath sample analytes by thermal desorption Thermal desorption is an environmental remediation technology that utilizes heat to increase the volatility of contaminants such that they can be removed (separated) from the solid matrix (typically soil, sludge or filter cake). of the sorbent tube Sorbent tubes are the most widely used collection media for sampling hazardous gases and vapors in air. They were developed by the US National Institute for Occupational Safety and Health (NIOSH) for air quality testing of workers. contents onto the charcoal bed of a Tekmar 3000 Purge and Trap (Tekmar-Dohrmann, Mason, OH). We then flash-heated the collected analytes to 225[degrees]C and released to the heated nickel transfer line under a constant back-pressure. We directly connected the transfer line to the column (DB-VRX, J&W Scientific, Folsom, CA) with a zero dead volume union. We analyzed the material with a Hewlett-Packard Model 5890 Series 2 gas chromatograph gas chromatograph
n.
An instrument used in gas chromatography to separate a sample of a volatile substance into its components. (Hewlett-Packard, Wilmington, DE), equipped with a flame ionization detector A flame ionization detector (FID) is a type of detector used in gas chromatography. Principle
The Flame Ionization Detector (FID) is one of the many methods by which to analyze materials coming off of gas chromatography column. optimized for detection of aromatic HCs, including benzene, toluene, ethylbenzene, and m,p,o-xylenes (BTEX BTEX Benzene, Toluene, Ethylbenzene, and Xylenes (volatile organic compounds) ). We performed quantitation using a Hewlett-Packard Model 3396 Integrator and an EZ Chrom data system (Scientific Software Inc., Pleasanton, CA).

We analyzed the samples in two batches and quantified aliphatic [C.sub.6][H.sub.14]-[C.sub.16][H.sub.34] ([C.sup.6]-[C.sub.16]) and aromatic (BTEX) HC levels as area under the curve (AUC AUC

area under curve ) for all 63 samples. We calculated sample concentrations for AUC corresponding to 0.5 ppb, although any individual sample had a 1% statistical chance that background could have been at the 1 ppb level. We derived conversion factors for transforming the EZ Chrom output from AUC to parts per billion of each BTEX analyte from calibration samples for all study samples (n = 63). These conversion factors demonstrated adequate linearity for the aromatic analytes; goodness of fit Goodness of fit means how well a statistical model fits a set of observations. Measures of goodness of fit typically summarize the discrepancy between observed values and the values expected under the model in question. Such measures can be used in statistical hypothesis testing, e. ranged from an [r.sup.2] of 0.88-0.98 based on 10, 25, and 50 ppb calibration samples. We examined the total BTEX exposure variable as a continuous parts per billion variable and as a dichotomous di·chot·o·mous
adj.
1. Divided or dividing into two parts or classifications.

2. Characterized by dichotomy.

di·chot variable above and below the median parts per billion value in statistical analyses. After publication of a report describing JP-8 volatile fraction "fingerprint compounds" (Pleil et al. 2000), we began deriving parts per billion conversion factors for aliphatic HCs and obtained parts per billion values for a subset of study samples (n = 22). We developed a standard gas in the laboratory to create conversion factors for the aliphatic HCs; goodness of fit was adequate ([r.sup.2], 0.87-0.99 at 10, 25, and 50 ppb) for all analytes except dodecane ([C.sub.12]; [r.sup.2] = 0.10) and tetradecane ([C.sub.14]; [r.sup.2] = 0.55). Therefore, we converted aliphatic HC levels (except [C.sub.12] and [C.sub.14]) to parts per billion for the second analysis batch of 22 samples. We used only AUC measurements, not parts per billion, in the statistical analysis of aliphatic HCs for the 63 breath samples; we used the aliphatic HC parts per billion levels only to present range of exposure. We dichotomized the total AUC for aliphatic HCs for each of the two analysis batches (above or below the median AUC for each batch) and then combined the two batches into a single dichotomous aliphatic HC variable. Because [C.sub.6]-[C.sub.16] measurements were only available in parts per billion units for a convenience sample of 22 participants, we did not explore analysis with a combined breath exposure variable (aliphatic HCs + BTEX).

For quality control, we collected duplicate breath samples in immediate succession from 13 participants. We analyzed these sampies and compared the duplicate measurements. Intra- and interparticipant sample coefficients of variation for exhaled breath measurements in parts per billion were, respectively, 3.6% and 0.0% for benzene, 1.8% and 0.8% for toluene, 5.1% and 0.0% for ethylbenzene, 3.5% and 0.0% for m,p-xylene, and 1.2% and 1.0% for o-xylene. We assigned the duplicate, end-of-shift breath sample levels from the 13 participants to the same aliphatic HC and BTEX exposure groups (high/low) approximately 70% of the time, indicating relatively high comparability among samples.

Statistical analysis. We conducted statistical analyses of the potential relationship between endocrine outcomes (preovulatory LH, follicular Pd3G, midluteal Pd3G, and midluteal [E.sub.1]3G) and exposure variables on two groups of participants: a) the 100 participants with endocrine and recorded diary data and b) for 63 of the 100 participants with breath analysis data. For the bivariate bi·var·i·ate
adj.
Mathematics Having two variables: bivariate binomial distribution.

Adj. 1. analysis of data from the women who reported diary and baseline questionnaire information (n = 100), we defined exposure using three reported exposure variables: a) mean weekly hours reported as smelling or having skin contact with fuels, b) mean weekly hours reported as smelling or having skin contact with solvents, and c) job category (exposed vs. nonexposed) based on self-report during the initial interview and review of job titles, job codes, and descriptions by USAF industrial hygiene personnel. Variables used to characterize the internal dose of HCs measured in the 63 breath samples were aliphatic [C.sub.6]-[C.sub.16] (AUC) and BTEX (parts per billion), each dichotomized above and below their respective medians.

Square root transformation optimally transformed the hormonal outcomes. The variable selection strategy for regression analysis involved examining bivariate associations between each of the four endocrine end points (transformed and nontransformed) and other potential covariates. We assessed covariates that approached significance (p [less than or equal to] 0.15) with at least one endocrine level in unadjusted analysis bivariately as potential confounders with fuel and BTEX exposure variables. We retained those approaching marginal significance (p < 0.15) with exposure variables for regression models in subsequent analyses. Potential interactions between breath exposure variables and alcoholic beverages

Main article: Alcoholic beverage

Fermented beverages

Beer
Ale
Barleywine
Bitter ale

, and breath exposure variables and race did not approach significance. When intercorrelation between candidate covariates was present, or when two or more covariates represented similar constructs, we used the variable with the most significant association with the outcome(s).

Covariates retained for regression models containing reported hours of fuel or solvent exposure included: age at interview (years), BMI, race (white, nonwhite non·white
n.
A person who is not white.

nonwhite adj. ), alcoholic beverages (number of drinks per day per kilogram body weight), coffee consumption (estimated mean milligrams of caffeine per day from coffee), caffeine consumption (mean milligrams total caffeine estimated from mean ounces of coffee, tea, and soda recorded per day in diary), running (mean miles run per day), sleep (mean hours per day), any episodes of illness and/or fever > 101[degrees]F (yes/no), maximum weekly job strain score (high vs. low), and currently smoking cigarettes (yes/no). We conducted separate regression analyses for each reported exposure variable, and we forced each exposure variable to remain in the final model. We conducted multiple regression Multiple regression

The estimated relationship between a dependent variable and more than one explanatory variable. analysis of each endocrine outcome separately using 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, with significant (p [less than or equal to] 0.05) covariates retained in the final models.

Covariates retained for regression models containing breath analyte exposure variables dichotomized about the median for aliphatic ([C.sub.6]-[C.sub.16]) and BTEX included illness and/or fever > 101[pounds sterling]F, alcoholic beverages, maximum job strain, race group, and age. We conducted multiple regression analysis of each endocrine outcome as described above, with both breath exposure variables forced to remain in the regression models.

Results

Of the 170 women who completed the baseline questionnaire, 100 participants provided completed daily diaries and urine samples. Fifty-three women did not return either daily diaries and/or urine samples, and 13 women returned samples that were inadequate to evaluate the four key endocrine end points. We excluded four participants retrospectively because of pregnancies (two), oral contraceptive oral contraceptive
n.
A pill, typically containing estrogen or progesterone, that prevents conception or pregnancy. Also called birth control pill. use (one), and symptomatic endometriosis (one) that were reportedly present during sample collection. Breath samples to yield exposure data were also available for 63 of these 100 compliant participants. Compensation for time and inconvenience was $50 for daily diaries, $25 for urine samples, and $25 for breath samples.

Demographic and reproductive characteristics. Table 1 describes demographic and reproductive history reproductive history Obstetrics A set of 4 numbers that may be used to define a woman's obstetric Hx–eg, 4-3-2-1, would mean 4 term infants delivered, 3 preterm infants, 2 abortions, 1 child currently living characteristics for the 100 eligible participants who provided questionnaires, diaries, and daily urine samples and for the 63 participants with breath sample data. In both groups, the average age of respondents was approximately 31 years. In both groups, respondents were predominantly white, military, and married, had children, had attended some college, and had annual household incomes of at least $30,000, and most had no history of irregular menses or dysmenorrhea dysmenorrhea

Pain or cramps before or during menstruation. In primary dysmenorrhea, caused by endocrine imbalances, severity varies widely. Irritability, fatigue, backache, or nausea may also occur. within 3 months of the interview. Characteristics of the low-versus high-exposure groups for C6-C16 and for BTEX also were similar, and none of these differences was statistically significant.

Internal dose (breath) analysis. Tables 2 and 3 present individual [C.sub.6]-[C.sub.16] and BTEX HCs measured in postshift breath samples, grouped by low (n = 32) versus high (n = 31) analysis categories. Mean internal doses for the high BTEX category were highest for m,p-xylene (37.3 ppb), followed by benzene (13.0 ppb), o-xylene (11.3 ppb), toluene (9.0 ppb), and ethylbenzene (3.0 ppb). When we combined the high- and low-BTEX groups, toluene was the most frequently detected among the BTEX analytes, present in 71.4% of all breath samples, with levels ranging from below detection to 52.0 ppb. Xylenes were detectable in roughly one-half of all samples with m,p-xylene (57.1%) and o-xylene (47.6%), followed in frequency by benzene (30.2%) and ethylbenzene (22.2%).

Within the high C6-C16 category (n = 22), the mean internal dosage for decane dec·ane
n.
Any of various liquid isomers, C₁₀H₂₂, of the methane series.

decane (159.1 ppb) was highest, followed by hexane (51.4 ppb), heptane hep·tane
n.
A volatile, colorless, highly flammable liquid hydrocarbon, C₇H₁₆, obtained in the fractional distillation of petroleum and used as a standard in determining octane ratings, as an anesthetic, and as a solvent. (35.4 ppb), undecane (28.7 ppb), nonane Non´ane

n. 1. (Chem.) One of a group of metameric hydrocarbons C9H20 of the paraffin series; - so called because of the nine carbon atoms in the molecule. (4.5 ppb), and octane oc·tane
n.
1. Any of various isomeric paraffin hydrocarbons with the formula C₈H₁₈, found in petroleum and used as a fuel and solvent.

2. An octane number. (0.6 ppb). Both decane and hexane were virtually ubiquitous, and heptane was present in most (63.6%) of the samples in the high and low [C.sub.6]-[C.sub.16] groups. Many samples also contained octane, nonane, and undecane in both high and low [C.sub.6]-[C.sub.16] groups. This convenience sample of 22 contained a higher proportion of women reportedly in exposed jobs (40%) than did the larger group of 63 (23%) and therefore was most representative of a more highly exposed setting.

Endocrine assessment. Mean levels of the four study endocrine end points for all the 100 participants who provided both diaries and concurrent daily hormonal data during the study menstrual cycle were similar above and below the median for each of the reported exposure variables. Furthermore, we found no significant (p [less than or equal to] 0.05) difference in endocrine levels between self-reported exposed versus nonexposed participants when examined bivariately or in multivariable regression models including potential confounders and covariates.

Figure 1 illustrates mean endocrine levels across the menstrual cycle for participants' high and low aliphatic HC ([C.sub.6]-[C.sub.16]) levels and highlights the four study end points. Table 4 presents mean urinary levels of these four end points by low and high breath levels of [C.sub.6]-[C.sub.16] and BTEX, the primary exposure variables. Mean preovulatory LH levels were significantly lower in participants with high breath [C.sub.6]-[C.sub.16] (15.4 vs. 22.6 mIU LH/mg creatinine; p = 0.01) and BTEX (15.8 vs. 22.0 mIU LH/mg creatinine; p = 0.03) in the bivariate analysis. The difference between the high- and low-BTEX groups also approached significance in bivariate analysis for midluteal Pd3G (8.5 vs. 12.0 [micro]g/mg creatinine; p = 0.06).

[FIGURE 1 OMITTED]

We modeled each of the four endocrine outcomes in separate multiple regressions (Table 5). To aid in interpretation, we obtained values reported for regression coefficients in Table 5 by applying the same models with nontransformed outcomes. High versus low exposure to [C.sub.6]-[C.sub.16] HCs was inversely related ([beta] = -7.34; p = 0.007) to preovulatory LH adjusted for age ([beta] = 0.49; p = 0.05) and exposure to BTEX. C6-C16 and BTEX categories were not significantly associated with changes in midluteal [E.sub.1]3G, or with follicular or midluteal Pd3G levels.

Illness and/or fever > 101[degrees]F was associated with elevated midluteal [E.sub.1]3G ([beta] = 8.93; p = 0.01). Other potential covariates and confounders were not associated (p [greater than or equal to] 0.05) with any of the hormonal outcomes after adjustment. When analyzed as continuous variables, neither total BTEX nor toluene, a component of BTEX, was significandy (p [less than or equal to] 0.05) associated with any of the hormonal levels. However, toluene approached significance ([beta] = -0.19; p = 0.058) with preovulatory LH in a model together with [C.sub.6]-[C.sub.16] ([beta] = -7.17; p = 0.01) and age ([beta] = 0.51; p = 0.04).

Discussion

We selected four urinary endocrine end points (preovulatory LH, midluteal [E.sub.1]3G, follicular Pd3G, and midluteal Pd3G) based on heuristic A method of problem solving using exploration and trial and error methods. Heuristic program design provides a framework for solving the problem in contrast with a fixed set of rules (algorithmic) that cannot vary.

1. evidence that they are jointly predictive of the probability of conception in women within a given ovulatory menstrual cycle (Baird et al. 1999). We found that preovulatory LH in urine was lower in healthy, reproductive-age women who had higher internal doses of aliphatic HCs in exhaled breath. Although we performed multiple statistical tests, the association between LH and aliphatic HCs remained significant (p [less than or equal to] 0.013) after we applied a Bonferroni correction In statistics, the Bonferroni correction states that if an experimenter is testing n independent hypotheses on a set of data, then the statistical significance level that should be used for each hypothesis separately is 1/n for the four separate hormone models.

In an examination of ovulatory cycles, Baird et al. (1999) reported that nonconceptive versus conceptive cycles had urinary preovulatory mean LH levels of 13.4 versus 15.2 mIU/mg creatinine, respectively. Our high versus low aliphatic HC exposure groups had urinary LH levels of 15.4 versus 22.6 mIU/mg creatinine, respectively. Although we used the same assay to measure LH in both of these studies, they are not directly comparable quantitatively. The urine samples from the present study contained 7% glycerol to preserve LH immunoreactivity (Kesner et al., 1995), whereas those used by Baird et al. (1999) had been stored frozen for many years without preservative preservative

Any of numerous chemical additives used to prevent or slow food spoilage caused by chemical changes (e.g., oxidation, mold growth) and maintain a fresh appearance and consistency. Antimycotics (e.g. . So although qualitative comparisons are valid within Baird et al.'s study, the LH values in that study are expected to be lower than those in the present study. Because these preovulatory LH levels cannot be directly compared, whether the lower levels seen among women in the high aliphatic HC exposure group were sufficiently low to affect conception is unclear. We did not design the present study to detect conceptions, and it did not have the power to do so. Studies designed to detect potential effects of aliphatic HC exposure on the ability to conceive and maintain pregnancies are indicated.

The mechanism by which aliphatic HCs could lower LH levels is unknown. LH levels could potentially be lowered by effects on the pituitary gland pituitary gland, small oval endocrine gland that lies at the base of the brain. It is sometimes called the master gland of the body because all the other endocrine glands depend on its secretions for stimulation (see endocrine system). , hypothalamus hypothalamus (hī'pəthăl`əməs), an important supervisory center in the brain, rich in ganglia, nerve fibers, and synaptic connections. It is composed of several sections called nuclei, each of which controls a specific function. , or extrahypothalamic central nervous system inputs. Evidence derived from animal experiments demonstrates that exposure to high doses of aromatic HCs alters levels of hypothalamic hypothalamic

pertaining to the hypothalamus.

hypothalamic hormones
see hypothalamus.

hypothalamic-pituitary-adrenocortical axis neurotransmitters Neurotransmitters
Chemicals within the nervous system that transmit information from or between nerve cells.

Mentioned in: Bulimia Nervosa, Impotence, Pain, Withdrawal Syndromes , including noradrenaline noradrenaline /nor·adren·a·line/ (nor?ah-dren´ah-lin) norepinephrine.

noradrenaline (nōrˈ· and dopamine dopamine (dōp`əmēn), one of the intermediate substances in the biosynthesis of epinephrine and norepinephrine. See catecholamine.

dopamine

One of the catecholamines, widely distributed in the central nervous system. (Andersson et al. 1980, 1981), which are involved in regulating pituitary hormone secretions. Andersson et al. (1980) reported that toluene-exposed mice had increased hypothalamic noradrenaline and dopamine with a concomitant nonsignificant non·sig·nif·i·cant
adj.
1. Not significant.

2. Having, producing, or being a value obtained from a statistical test that lies within the limits for being of random occurrence. (p > 0.05) decrease in LH secretion.

Few published studies have examined the effects of exposure to low levels of fuels and mixed solvents on the human neuroendocrine neuroendocrine /neu·ro·en·do·crine/ (-en´do-krin) pertaining to neural and endocrine influence, and particularly to the interaction between the nervous and endocrine systems.

neu·ro·en·do·crine
adj. system, although neurologic (ATSDR 1993; Grasso 1988; Knave Knave

of Hearts vowed he’d steal no more tarts. [Nurs. Rhyme: Baring-Gould, 152]

See : Reformed, The et al. 1979; Langman 1994; Smith et al. 1997b) and sensory-neural (Kaufman 1998; Morata et al. 1997) effects of solvents have been documented at low and high analyte levels. Subclinical and clinical central nervous system effects have been reported to manifest at ambient levels as low as 0.07-5 ppm (Langman 1994). The only human studies of the effects of HCs on gonadotropins, to our knowledge, were of toluene exposure (Luderer et al. 1999; Svensson et al. 1992a, 1992b). In the present study, breath toluene approached (p = 0.058), but did not reach, a significant inverse relationship A inverse or negative relationship is a mathematical relationship in which one variable decreases as another increases. For example, there is an inverse relationship between education and unemployment — that is, as education increases, the rate of unemployment with LH. However, significantly lowered LH levels have been reported among toluene-exposed male printers (Svensson et al. 1992b). This effect was reversed after a 4-week nonworking period, after which blood toluene levels dropped and follicle-stimulating hormone follicle-stimulating hormone (FSH): see gonadotropic hormone. and LH rebounded 37.5% and 29.9%, respectively (Svensson et al. 1992a). Results from these studies, mostly of men, are salient because LH controls the secretion of sex hormones in both genders. In women, LH is essential for ovulation ovulation /ovu·la·tion/ (ov?u-la´shun) the discharge of a secondary oocyte from a graafian follicle.ov´ulatory

o·vu·la·tion
n.
The discharge of an ovum from the ovary. and luteinization luteinization /lu·te·in·iza·tion/ (-in?i-za´shun) the process by which a postovulatory ovarian follicle transforms into a corpus luteum through vascularization, follicular cell hypertrophy, and lipid accumulation, the latter in some .

Although the primary exposure variables for these analyses were breath levels of the aliphatic and BTEX HCs in fuels and solvents, a secondary source of exposure information was self-report in participants' daily diaries and baseline questionnaires. Reported hours of exposure were consistent with job categories because women in fuel handling, flight line, and maintenance .jobs reported more hours of exposure than women in "nonexposed" jobs. However, reported hours of exposure were similar for women with low and high levels of aliphatic and BTEX HCs in exhaled breath. One explanation is that, although hours of exposure were similar across exposed and nonexposed job categories, the intensity of exposure was greater in exposed job categories. Accordingly, a higher percentage of women in exposed job categories were in the high breath aliphatic and BTEX groups. The discrepancy between reported and breath data could also be due, in part, to poor recall or directional recall bias. Underreporting of hours of exposure for women in contact with fuels at work could have resulted if workplace exposures were too low for participants to perceive, or if they became desensitized de·sen·si·tize
tr.v. de·sen·si·tized, de·sen·si·tiz·ing, de·sen·si·tiz·es
1. To render insensitive or less sensitive.

2. Immunology To make (an individual) nonreactive or insensitive to an antigen. to the odor. Conversely, low levels of exposure may have been common and perceptible, with resultant over- or underestimation of self-reported hours of exposure among those with higher fuel and solvent contact. Mean breath aliphatic and aromatic levels among self-reported nonexposed participants in the present study were generally higher than for USAF workers with solvent and fuel contact in other studies (Lemasters et al. 1997; Pleil et al. 2000) and therefore may have been detectable by some participants. Median aliphatic HC levels among the women (n = 22) who provided breath samples and reported low fuel exposure were similar to those reported in the general U.S. population (TEAM study) (Wallace et al. 1996), except for decane, which was higher in our subgroup. Differences in reported exposure and breath analyte levels could also be attributed to using a single breath sample to represent typical exposure levels. This discrepancy could also be due to interindividual differences in analyte retention times; however, retention times are unlikely to differ systematically between the breath exposure groups.

Overrepresentation of women with concerns about their reproductive health Within the framework of WHO's definition of health[1] as a state of complete physical, mental and social well-being, and not merely the absence of disease or infirmity, reproductive health, or sexual health/hygiene in the final study population could have resulted in bias due to self-selection and nonresponse. We noted no apparent evidence of such bias-however. We observed no significant differences between women in exposed versus nonexposed jobs regarding the proportion of women who reported preexisting pre·ex·ist or pre-ex·ist
v. pre·ex·ist·ed, pre·ex·ist·ing, pre·ex·ists

v.tr.
To exist before (something); precede: Dinosaurs preexisted humans.

v.intr. reproductive symptoms (dysmenorrhea, irregular cycles, infertility), although only large differences in these nonhormone variables would be detectable statistically, given our small group sizes. Further, only one of the women reported having a reproductive condition (fibroids Fibroids
Benign tumors of muscle and connective tissue that develop within or are attached to the uterine wall.

Mentioned in: Menstrual Disorders ), and none reported endometriosis or polycystic polycystic /poly·cys·tic/ (-sis´tik) containing many cysts.

pol·y·cys·tic
adj.
Having or containing many cysts.

polycystic

containing many cysts. ovarian-syndrome. Self-reported conditions should be interpreted with caution because women are sometimes unaware of early, often subdinical, pregnancy losses and undiagnosed reproductive abnormalities. Prevalences of severe dysmenorrhea (31%) and abnormal (< 24 or > 35 days) cycle lengths (12%) were previously reported to be similar between the larger study group Of 170 participants and the general population (Gordley et al. 2000). The subset of 63 of the 170 participants had comparable prevalences of severe dysmenorrhea (37%) and abnormal cycle lengths (13%).

Gender differences in the effects of these HCs on the neuroendocrine system may be anticipated based on differences in the neuroendocrine axes and reproductive organs Reproductive organs
The group of organs (including the testes, ovaries, and uterus) whose purpose is to produce a new individual and continue the species.

Mentioned in: Choriocarcinoma , as well as differences in metabolism, storage, and excretion of lipophilic lipophilic,
adj/n the ability to dissolve or attach to lipids.

lipophilic (lipōfil´ik),
adj 1. showing a marked attraction to, or solubility in, lipids.
2. HCs (Brown 1998). The focus of the present investigation was on hormones that affect female fertility. Future studies should examine both men and women. Solvent exposure has been reported to decrease sperm motility Sperm motility describes the ability of sperm to move properly towards an egg. This can also be thought of as the 'quality' of the sperm, which is a factor in successful pregnancies, as opposed to the 'quantity'. (Lemasters et al. 1999b) and may increase the rate of sperm anomalies in men.

Conclusions

Internal dose of compounds in fuel is associated with reduced LH levels prior to ovulation in women of reproductive age. Several other caveats must be considered regarding interpretation of these results. The aliphatic and aromatic compounds we chose to represent exposure likely are also markers of exposure to the complex mixture of other compounds found in fuels, including additives and by-products of combustion. The design was cross-sectional, and exposures or endocrine measurements assessed during the study cycle may or may not represent past exposure and/or endocrine levels. However, if HC exposures chronically alter LH levels, this effect could impact LH-dependent processes and thereby compromise reproduction.

Table 1. Demographic and reproductive characteristics of participants
with endocrine data (n = 100) and with endocrine and breath data (n =
63/100) by aliphatic HC group.

                                              Endocrine data
Participant characteristic                      (n = 100)

Mean age at interview (years)               30.9 [+ or -] 6.2
                                               (18.0-41.0)
Mean age at menarche (years)                12.7 [+ or -] 1.5
                                                (9.0-17.0)
Race (%)
  White                                            64.0
  African American                                 30.0
  Hispanic                                          4.0
  Other                                             2.0
Education (%)
  High school and/or technical training            20.0
  Some college or associates degree                61.0
  Four year degree or more                         19.0
Family income (%) (b)
  < $15,000                                         9.1
  $15,000 < $30,000                                32.3
  [greater than or equal to] $30,000               58.6
Military personnel status (%)                      84.0
Marital status (%) (b)
  Currently married or partner                     61.6
  Widowed, divorced, or separated                  16.2
  Never married                                    23.2
One or more children (%)                           63.0
Irregular menses past 3 months (%)                 11.0
Dysmenorrhea past 3 months (%)                     30.0

                                              Endocrine and
                                           breath data (n = 63)

                                              Low aliphatic
Participant characteristic                     (n = 31) (a)

Mean age at interview (years)               30.5 [+ or -] 5.7
                                               (20.0-39.0)
Mean age at menarche (years)                12.8 [+ or -] 1.6
                                               (10.0-17.0)
Race (%)
  White                                            80.7
  African American                                 16.1
  Hispanic                                          0.0
  Other                                             3.2
Education (%)
  High school and/or technical training            19.4
  Some college or associates degree                64.5
  Four year degree or more                         16.1
Family income (%) (b)
  < $15,000                                        12.9
  $15,000 < $30,000                                35.5
  [greater than or equal to] $30,000               51.6
Military personnel status (%)                      87.1
Marital status (%) (b)
  Currently married or partner                     54.8
  Widowed, divorced, or separated                  12.9
  Never married                                    32.3
One or more children (%)                           64.5
Irregular menses past 3 months (%)                 16.1
Dysmenorrhea past 3 months (%)                     22.6

                                              Endocrine and
                                           breath data (n = 63)

                                              High aliphatic
Participant characteristic                     (n = 32) (a)

Mean age at interview (years)               31.7 [+ or -] 5.5
                                               (20.0-40.0)
Mean age at menarche (years)                12.8 [+ or -] 1.5
                                                (9.0-16.0)
Race (%)
  White                                            75.0
  African American                                 21.9
  Hispanic                                          3.1
  Other                                             0.0
Education (%)
  High school and/or technical training            18.8
  Some college or associates degree                59.4
  Four year degree or more                         21.9
Family income (%) (b)
  < $15,000                                         0.0
  $15,000 < $30,000                                34.4
  [greater than or equal to] $30,000               65.6
Military personnel status (%)                      71.9
Marital status (%) (b)
  Currently married or partner                     68.8
  Widowed, divorced, or separated                  15.3
  Never married                                    15.6
One or more children (%)                           75.0
Irregular menses past 3 months (%)                  6.3
Dysmenorrhea past 3 months (%)                     34.4

                                              Endocrine and
                                           breath data (n = 63)

                                                 Combined
Participant characteristic                       (n = 63)

Mean age at interview (years)               31.1 [+ or -] 5.6
                                               (20.0-40.0)
Mean age at menarche (years)                12.8 [+ or -] 1.5
                                                (9.0-17.0)
Race (%)
  White                                            77.8
  African American                                 19.0
  Hispanic                                          1.6
  Other                                             1.6
Education (%)
  High school and/or technical training            19.1
  Some college or associates degree                61.9
  Four year degree or more                         19.1
Family income (%) (b)
  < $15,000                                         6.4
  $15,000 < $30,000                                34.9
  [greater than or equal to] $30,000               58.7
Military personnel status (%)                      79.4
Marital status (%) (b)
  Currently married or partner                     61.9
  Widowed, divorced, or separated                  14.3
  Never married                                    23.8
One or more children (%)                           69.8
Irregular menses past 3 months (%)                 11.1
Dysmenorrhea past 3 months (%)                     28.6

Values shown for age variables are mean [+ or -] SD (range). Chi-square
tests were used except for age variables, which were examined using
t-tests.

(a) No significant differences (p [less than or equal to] 0.05)
between above groups by low and high fuels category. (b) One
participant had missing information (n = 99).

Table 2. Breath levels (ppb) of aromatic HCs by analyte and exposure
group.

BTEX analyte                                        Low (n = 32)

Benzene ([C.sub.6][H.sub.6])
  Mean [+ or -] SD (median)                    0.5 [+ or -] 1.6 (ND)
  Range                                                ND-8.6
  Percent of samples                                    18.8
Toluene ([C.sub.6][H.sub.5]C[H.sub.3])
  Mean [+ or -] SD (median)                    1.3 [+ or -] 2.2 (0.1)
  Range                                                ND-7.5
  Percent of samples                                    50.0
Ethylbenzene ([C.sub.6][H.sub.5][C.sub.2][H.sub.5])
  Mean [+ or -] SD (median)                    1.0 [+ or -] 0.5 (ND)
  Range                                                ND-2.7
  Percent of samples                                     9.4
m,p-Xylene [[C.sub.6][H.sub.4][(C[H.sub.3]).sub.2]]
  Mean [+ or -] SD (median)                    0.8 [+ or -] 1.2 (ND)
  Range                                                ND-4.4
  Percent of samples                                    40.6
o-Xylene [[C.sub.6][H.sub.4][(C[H.sub.3]).sub.2]]
  Mean [+ or -] SD (median)                    1.0 [+ or -] 2.0 (ND)
  Range                                                ND-6.9
  Percent of samples                                    28.1
Total BTEX [[C.sub.6][H.sub.6]-[C.sub.6][H.sub.4][(C[H.sub.3]).sub.2]]
  Mean [+ or -] SD (median)                    3.8 [+ or -] 3.8 (2.9)
  Range                                               ND-11.7
  Percent of samples                                    81.3

BTEX analyte                                       High (n = 31)

Benzene ([C.sub.6][H.sub.6])
  Mean [+ or -] SD (median)                   13.0 [+ or -] 27.5 (ND)
  Range                                               ND-97.5
  Percent of samples                                    41.9
Toluene ([C.sub.6][H.sub.5]C[H.sub.3])
  Mean [+ or -] SD (median)                    9.0 [+ or -] 12.3 (5.1)
  Range                                               ND-52.0
  Percent of samples                                    93.5
Ethylbenzene ([C.sub.6][H.sub.5][C.sub.2][H.sub.5])
  Mean [+ or -] SD (median)                    3.0 [+ or -] 6.9 (ND)
  Range                                               ND-35.7
  Percent of samples                                    35.5
m,p-Xylene [[C.sub.6][H.sub.4][(C[H.sub.3]).sub.2]]
  Mean [+ or -] SD (median)                   37.3 [+ or -] 85.6 (3.8)
  Range                                               ND-400.9
  Percent of samples                                    74.2
o-Xylene [[C.sub.6][H.sub.4][(C[H.sub.3]).sub.2]]
  Mean [+ or -] SD (median)                   11.3 [+ or -] 15.0 (7.2)
  Range                                               ND-67.3
  Percent of samples                                    67.7
Total BTEX [[C.sub.6][H.sub.6]-[C.sub.6][H.sub.4][(C[H.sub.3]).sub.2]]
  Mean [+ or -] SD (median)                   73.5 [+ or -] 86.2 (32.4)
  Range                                              11.8-415.1
  Percent of samples                                   100.0

BTEX analyte                                       Total (n = 63)

Benzene ([C.sub.6][H.sub.6])
  Mean [+ or -] SD (median)                    6.6 [+ or -] 20.2 (ND)
  Range                                               ND-97.5
  Percent of samples                                    30.2
Toluene ([C.sub.6][H.sub.5]C[H.sub.3])
  Mean [+ or -] SD (median)                    5.1 [+ or -] 9.5 (1.5)
  Range                                               ND-52.0
  Percent of samples                                    71.4
Ethylbenzene ([C.sub.6][H.sub.5][C.sub.2][H.sub.5])
  Mean [+ or -] SD (median)                    1.5 [+ or -] 5.0 (ND)
  Range                                               ND-35.7
  Percent of samples                                    22.2
m,p-Xylene [[C.sub.6][H.sub.4][(C[H.sub.3]).sub.2]]
  Mean [+ or -] SD (median)                   18.7 [+ or -] 62.3 (0.8)
  Range                                               ND-400.9
  Percent of samples                                    57.1
o-Xylene [[C.sub.6][H.sub.4][(C[H.sub.3]).sub.2]]
  Mean [+ or -] SD (median)                    6.1 [+ or -] 11.7 (ND)
  Range                                               ND-67.3
  Percent of samples                                    47.6
Total BTEX [[C.sub.6][H.sub.6]-[C.sub.6][H.sub.4][(C[H.sub.3]).sub.2]]
  Mean [+ or -] SD (median)                   38.1 [+ or -] 69.6 (11.7)
  Range                                               ND-415.1
  Percent of samples                                    90.5

ND, nondetectable was assigned the value of zero for calculation of
means and SDs.

Table 3. Breath levels (ppb) of aliphatic HCs by analyte and exposure
group.

Aliphatic analyte                                  Low (n = 11)

Hexane ([C.sub.6][H.sub.14])
  Mean [+ or -] SD (median)                 17.6 [+ or -] 8.6 (19.6)
  Range                                              ND-28.5
  Percent of samples                                   90.9
Heptane ([C.sub.7][H.sub.16])
  Mean [+ or -] SD (median)                  3.7 [+ or -] 9.8 (0.3)
  Range                                              ND-33.0
  Percent of samples                                   63.6
Octane ([C.sub.8][H.sub.18])
  Mean [+ or -] SD (median)                  0.2 [+ or -] 0.4 (ND)
  Range                                               ND-1.2
  Percent of samples                                   18.2
Nonane ([C.sub.9][H.sub.20])
  Mean [+ or -] SD (median)                  5.3 [+ or -] 10.9 (ND)
  Range                                              ND-29.2
  Percent of samples                                   36.4
Decane ([C.sub.10][H.sub.22])
  Mean [+ or -] SD (median)                 34.6 [+ or -] 23.5 (28.4)
  Range                                             12.8-76.8
  Percent of samples                                  100.0
Undecane ([C.sub.11][H.sub.24])
  Mean [+ or -] SD (median)                  8.8 [+ or -] 14.6 (ND)
  Range                                              ND-45.0
  Percent of samples                                   36.4
Total [C.sub.6][H.sub.16]-[C.sub.11][H.sub.24]
  Mean [+ or -] SD (median)                 70.1 [+ or -] 31.3 (63.4)
  Range                                             28.6-128.0
  Percent of samples                                  100.0

Aliphatic analyte                                  High (n = 11)

Hexane ([C.sub.6][H.sub.14])
  Mean [+ or -] SD (median)                 51.4 [+ or -] 62.9 (35.9)
  Range                                             11.7-238.7
  Percent of samples                                  100.0
Heptane ([C.sub.7][H.sub.16])
  Mean [+ or -] SD (median)                 35.4 [+ or -] 75.3 (4.4)
  Range                                              ND-248.7
  Percent of samples                                   63.6
Octane ([C.sub.8][H.sub.18])
  Mean [+ or -] SD (median)                  0.6 [+ or -] 1.8 (ND)
  Range                                               ND-6.0
  Percent of samples                                   27.3
Nonane ([C.sub.9][H.sub.20])
  Mean [+ or -] SD (median)                  4.5 [+ or -] 9.1 (ND)
  Range                                              ND-27.0
  Percent of samples                                   45.4
Decane ([C.sub.10][H.sub.22])
  Mean [+ or -] SD (median)                159.1 [+ or -] 237.4 (14.8)
  Range                                             2.8-659.7
  Percent of samples                                  100.0
Undecane ([C.sub.11][H.sub.24])
  Mean [+ or -] SD (median)                 28.7 [+ or -] 68.9 (ND)
  Range                                              ND-226.7
  Percent of samples                                   36.4
Total [C.sub.6][H.sub.16]-[C.sub.11][H.sub.24]
  Mean [+ or -] SD (median)                279.6 [+ or -] 276.2 (170.8)
  Range                                             39.5-765.1
  Percent of samples                                  100.0

Aliphatic analyte                                 Total (n = 22)

Hexane ([C.sub.6][H.sub.14])
  Mean [+ or -] SD (median)                 34.5 [+ or -] 47.1 (25.9)
  Range                                              ND-238.7
  Percent of samples                                   95.4
Heptane ([C.sub.7][H.sub.16])
  Mean [+ or -] SD (median)                 19.5 [+ or -] 54.9 (0.6)
  Range                                              ND-248.7
  Percent of samples                                   63.6
Octane ([C.sub.8][H.sub.18])
  Mean [+ or -] SD (median)                  0.4 [+ or -] 1.3 (ND)
  Range                                               ND-6.0
  Percent of samples                                   22.7
Nonane ([C.sub.9][H.sub.20])
  Mean [+ or -] SD (median)                  4.9 [+ or -] 9.8 (ND)
  Range                                              ND-29.2
  Percent of samples                                   40.9
Decane ([C.sub.10][H.sub.22])
  Mean [+ or -] SD (median)                 96.9 [+ or -] 176.6 (23.9)
  Range                                             2.8-659.7
  Percent of samples                                  100.0
Undecane ([C.sub.11][H.sub.24])
  Mean [+ or -] SD (median)                 18.7 [+ or -] 49.7 (ND)
  Range                                              ND-226.7
  Percent of samples                                   36.4
Total [C.sub.6][H.sub.16]-[C.sub.11][H.sub.24]
  Mean [+ or -] SD (median)                174.9 [+ or -] 219.8 (66.6)
  Range                                             28.6-765.1
  Percent of samples                                  100

ND, nondetectable was assigned the value of zero for calculation of
means and SDs.

Table 4. Unadjusted endocrine outcomes: means
by breath aliphatic and BTEX HC exposure groups.

                                           Endocrine level
Endocrine outcome/
exposure                            Mean [+ or -] SD       Range

Preovulatory LH (mIU/mg Cr)
  Aliphatics *
    Low                            22.6 [+ or -] 12.0     4.8-55.3
    High                           15.4 [+ or -] 8.2      3.0-39.0
  BTEX **
    Low                            22.0 [+ or -] 12.2     4.3-55.3
    High                           15.8 [+ or -] 8.2      3.0-38.7
Follicular Pd3G ([micro]g/mg Cr)
  Aliphatics
    Low                             1.2 [+ or -] 0.7     0.01-2.7
    High                            1.2 [+ or -] 0.8     0.04-3.6
  BTEX
    Low                             1.2 [+ or -] 0.7      0.3-3.6
    High                            1.1 [+ or -] 0.8     0.01-3.5
Midluteal Pd3G ([micro]g/mg Cr)
  Aliphatics
    Low                            10.0 [+ or -] 6.3      0.1-24.5
    High                           10.5 [+ or -] 7.4      2.2-37.9
  BTEX (#)
    Low                            12.0 [+ or -] 8.1      0.3-37.9
    High                            8.5 [+ or -] 4.9      0.1-18.8
Midluteal [E.sub.1]3G (ng/mg Cr)
  Aliphatics
    Low                            27.2 [+ or -] 13.6     9.5-82.5
    High                           24.9 [+ or -] 13.1     2.1-58.8
  BTEX
    Low                            27.3 [+ or -] 13.4    11.7-82.5
    High                           24.8 [+ or -] 13.3     2.1-58.8

Cr, creatinine.

* Significance (p = 0.01) between high and low categories
in unadjusted, bivariate analysis (t-test). ** Significance
(p = 0.03) between high and low categories in unadjusted,
bivariate analysis (t-test). (#) Significance (p = 0.06)
between high and low categories in unadjusted bivariate
analysis (t-test).

Table 5. Results of multiple regression of each of the endocrine
outcomes.

                                                  Covariates (a)

Endocrine outcomes               Model (b)          Aliphatics

Preovulatory LH (n = 58)         F = 5.28    [beta] = -7.34 (2.60) (c)
                                 p = 0.003           p = 0.007
Follicular Pd3G (n = 62)         F = 0.46    [beta] = 0.04 (0.20)
                                 p = 0.64            p = 0.89
Midluteal Pd3G (n = 58)          F = 1.68    [beta] = 1.04 (1.79)
                                 p = 0.20            p = 0.51
Midluteal [E.sub.1]3G (n = 58)   F = 2.79    [beta] = -2.79 (3.18)
                                 p = 0.05            p = 0.34

                                    Covariates (a)

Endocrine outcomes                       BTEX

Preovulatory LH (n = 58)         [beta] = -4.61 (2.59)
                                       p = 0.10
Follicular Pd3G (n = 62)         [beta] = -0.10 (0.20)
                                       p = 0.34
Midluteal Pd3G (n = 58)          [beta] = -3.59 (1.79)
                                       p = 0.08
Midluteal [E.sub.1]3G (n = 58)   [beta] = -2.73 (3.38)
                                       p = 0.32

                                          Covariates (a)

Endocrine outcomes                       Age            Race group

Preovulatory LH (n = 58)         [beta] = 0.49 (0.24)       --
                                       p = 0.05
Follicular Pd3G (n = 62)                  --                --
Midluteal Pd3G (n = 58)                   --                --
Midluteal [E.sub.1]3G (n = 58)            --                --

                                              Covariates (a)

                                                         Al-     Job
Endocrine outcomes                  Illness/fever       cohol   strain

Preovulatory LH (n = 58)                  --             --       --
Follicular Pd3G (n = 62)                  --             --       --
Midluteal Pd3G (n = 58)                   --             --       --
Midluteal [E.sub.1]3G (n = 58)   [beta] = 8.93 (3.37)    --       --
                                       p = 0.01

(a) Aliphatics and BTEX were retained in each final model; other
covariates in the full models (age, maximum job strain, illness/fever
> 101[degrees]F, alcoholic beverages, race group) were not retained in
any of the final models because p > 0.05 (--); p-values were generated
from transformed models, and [beta]-values from untransformed models.
(b) Adjusted model [r.sup.2]: LH = 0.18, [E.sub.1]3G = 0.09; follicular
Pd3G = 0.00; midluteal Pd3G = 0.02. (c) SEs of the [beta]-values are
shown in parentheses.

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Address correspondence to S.R. Reutman, 104 Park Avenue, Elsmere, KY 41018 USA. Telephone: (859) 342-6959. E-mail: ereutman@hotmail.com

We thank E. Krieg Jr. (NIOSH) for data analysis assistance; we also thank USAF participants and collaborators and on-site bioenvironmental engineering History
Bioenvironmental Engineering is comprised of three general areas: radiation, industrial hygiene, and environmental protection. Each of these areas are regulated by the Federal Government to protect the health of the United States population. personnel.

This study was sponsored by the U.S. Army Defense Women's Health Women's Health Definition

Women's health is the effect of gender on disease and health that encompasses a broad range of biological and psychosocial issues. Research Program (award DAMD DAMD Duct Air Monitor Device 17-96-2-6015) and the National Institute of Environmental Health Sciences The National Institute of Environmental Health Sciences (NIEHS) is one of 27 Institutes and Centers of the National Institutes of Health (NIH),which is a component of the Department of Health and Human Services (DHHS). The Director of the NIEHS is Dr. David A. Schwartz. Center for Environmental Genetics (1P30ES06096).

Received 30 August 2001; accepted 7 February 2002.

Susan R. Reutman, (1) Grace Kawas LeMasters, (1) Edwin A. Knecht, (2) Rakesh Shukla Rakesh Chandra Shukla pronunciation (helpinfo) (born February 4, 1948, Kanpur, Uttar Pradesh) is a former Indian cricketer who played in one Test in 1982. , (1) James E. Lockey, (1) G. Edward Burroughs, (2) and James S. Kesner (2)

(1) Department of Environmental Health, University of Cincinnati, Cincinnati, Ohio “Cincinnati” redirects here. For other uses, see Cincinnati (disambiguation).
Cincinnati is a city in the U.S. state of Ohio and the county seat of Hamilton County. , USA; (2) National Institute for Occupational Safety and Health, Cincinnati, Ohio, USA

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