Prospective study of blood and tibia lead in women undergoing surgical menopause.Despite the dramatic decline in environmental lead exposure in the 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. during the past couple of decades, concern has been expressed regarding mobilization during menopause of existing lead stored in bone. To investigate whether bone lead concentrations decrease and blood lead levels increase, we conducted a prospective study of 91 women who were scheduled to undergo a bilateral oophorectomy bilateral oophorectomy Gyneology The removal of two or more ovaries. See TAH-BSO. for a benign condition at Mount Sinai Hospital Mount Sinai Hospital can refer to:
New York City City (pop., 2000: 8,008,278), southeastern New York, at the mouth of the Hudson River. The largest city in the U.S. during October 1994 through April 1999. We excluded women who were younger than 30 years of age or who were postmenopausal post·men·o·paus·al adj. Of or occurring in the time following menopause. postmenopausal Change of life Gynecology adjective Referring to the time in ♀ when menstrual periods stop for ≥ 1 yr at the time of the surgery. We observed a small but significant increase in median blood lead levels between the baseline visit and the 6-month visit (0.4 [micro]g/dL, p < 0.0001), particularly for women who were not on estrogen replacement therapy estrogen replacement therapy n. Abbr. ERT The administration of estrogen, especially in postmenopausal women, to relieve symptoms and conditions associated with estrogen deficiency, such as hot flashes and osteoporosis. (0.7 [micro]g/dL, p = 0.008). No significant change was observed in blood lead values between 6 and 18 months postsurgery, nor was there evidence of significant changes in tibia tibia: see leg. lead concentrations during the follow-up period. These findings do not point to substantial mobilization of lead from cortical bone cortical bone n. See cortical substance. during menopause. Key words: blood lead, bone turnover, estrogen replacement therapy, lead mobilization, tibia lead. Environ Health Perspect 112:1673-1678 (2004). doi:10.1289/ehp.7005 available via http://dx.doi.org/[Online 7 September 2004] ********** Although there has been a substantial decline in lead exposure in the United States during the past couple of decades (Pirkle et al. 1994), mobilization of existing lead stored in bone potentially represents an important endogenous source of exposure. Specifically, it has been hypothesized that lead may be mobilized from skeletal stores during conditions of high bone turnover, such as during menopause (Silbergeld et al. 1988). Approximately 90-95% of the total body burden of lead is retained in bone (Barry 1975; Barry and Mossman 1970), where the half-life can be several decades (Borjesson et al. 1997; Gerhardsson et al. 1993; Nilsson et al. 1991; Price et al. 1992; Rabinowitz et al. 1976). During menopause, calcium and other minerals are mobilized from bone (Pounds 1984; Bronner 1992; O'Flaherty 1992; Simons 1993). Lead is covalently bound in the mineral matrix, apparently in close chemical association with calcium and phosphate (Wittmers et al. 1988). Furthermore, lead is concentrated selectively according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. the type of bone, with higher accumulations in trabecular as opposed to cortical bone (Wittmers et al. 1988; Inskip et al. 1992; Lindquist et al. 1981). It has been estimated that up to 50% of trabecular bone trabecular bone n. See spongy bone. and 30% of cortical bone is lost during a woman's lifetime, particularly during the early menopausal years (Lindquist et al. 1981; Heaney et al. 1978; Riggs and Melton 1986). Lead is mobilized from the bone into the blood compartment. Lead in blood can then be transferred to soft tissues, including the central nervous system, where it could affect cognitive and motor functions (Landrigan et al. 1982; Ryan et al. 1987). Age-adjusted data from the second National Health and Nutrition Examination Survey (NHANES NHANES National Health and Nutrition Examination Survey (US CDC) II, 1976-1980; Silbergeld et al. 1988), the Hispanics HANES (HHANES HHANES Hispanic Health And Nutrition Examination Survey , 1982-1984; Symanski and Hertz-Picciotto 1995), and NHANES III NHANES III Third National Health & Nutrition Examination Survey Public health A population-based survey conducted by the National Center for Health Statistics, designed to assess the health and nutritional status of the noninstitutionalized Americans (1988-1994; Nash et al. 1998) showed higher blood lead levels among postmenopausal women compared with premenopausal pre·me·no·paus·al adj. Of or relating to the years or the stage of life immediately before the onset of menopause. premenopausal adjective women. Similarly, blood lead levels were higher in postmenopausal women compared with premenopausal women in a subsample sub·sam·ple n. A sample drawn from a larger sample. tr.v. sub·sam·pled, sub·sam·pling, sub·sam·ples To take a subsample from (a larger sample). of the Nurses Health Study (Korrick et al. 2002) and two studies in Mexico City Mexico City Spanish Ciudad de México City (pop., 2000: city, 8,605,239; 2003 metro. area est., 18,660,000), capital of Mexico. Located at an elevation of 7,350 ft (2,240 m), it is officially coterminous with the Federal District, which occupies 571 sq mi (Garrido Latorre et al. 2003; Hernandez-Avila et al. 1998). However, these studies were all based on cross-sectional data Cross-sectional data in statistics and econometrics is a type of one-dimensional data set. Cross-sectional data refers to data collected by observing many subjects (such as individuals, firms or countries/regions) at the same point of time, or without regard to differences in time. , and only two investigations (Garrido Latorre et al. 2003; Korrick et al. 2002) had any information on bone lead concentrations. This investigation represents a longitudinal study longitudinal study a chronological study in epidemiology which attempts to establish a relationship between an antecedent cause and a subsequent effect. See also cohort study. with repeated measures of blood and tibia lead and bone mineral density bone mineral density n. See bone density. bone mineral density A measurement of bone mass, expressed as the amount of mineral–in grams divided by the area scanned in cm2. See Bone densitometry. (BMD BMD In currencies, this is the abbreviation for the Bermudian Dollar. Notes: The currency market, also known as the Foreign Exchange market, is the largest financial market in the world, with a daily average volume of over US $1 trillion. ) measurements among women undergoing surgically induced menopause. In addition to assessing whether there was any evidence of increased endogenous lead exposure as a result of the surgical menopause surgical menopause Gynecology Cessation of native estrogenic activity after bilateral oophorectomy in a premenopausal woman , we aimed to evaluate the effects of BMD, estrogen replacement therapy (ERT ERT abbr. estrogen replacement therapy Estrogen replacement therapy (ERT) A treatment in which estrogen is used therapeutically during menopause to alleviate certain symptoms such as hot flashes. ), serum ferritin ferritin /fer·ri·tin/ (-i-tin) the iron-apoferritin complex, one of the chief forms in which iron is stored in the body. fer·ri·tin n. , and endogenous estrogen levels on changes in blood and bone lead measurements. Materials and Methods The study population was recruited from women [greater than or equal to] 30 years of age who had a surgical admission or discharge diagnosis of a bilateral oophorectomy for a benign condition at Mount Sinai Hospital during October 1994 through April 1999. Excluded were women with 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. neurologic or psychiatric diseases and any medical condition that could affect bone homeostasis homeostasis Any self-regulating process by which a biological or mechanical system maintains stability while adjusting to changing conditions. Systems in dynamic equilibrium reach a balance in which internal change continuously compensates for external change in a feedback . Also excluded were women who were taking corticosteroids Corticosteroids Definition Corticosteroids are group of natural and synthetic analogues of the hormones secreted by the hypothalamic-anterior pituitary-adrenocortical (HPA) axis, more commonly referred to as the pituitary gland. , thyroid hormone Thyroid hormone Any of the chemical messengers produced by the thyroid gland, including thyrocalcitonin, a polypeptide, and thyroxine and triiodothyronine, which are iodinated thyronines. See Hormone, Thyrocalcitonin, Thyroid gland, Thyroxine replacement, or antiseizure medications. Women who had had no menses menses /men·ses/ (men´sez) the monthly flow of blood from the female genital tract. men·ses n. within the previous 6 months or fewer than nine menstrual periods within the past year were considered to be postmenopausal and were therefore not included. The final study population comprised 91 premenopausal or perimenopausal perimenopausal adjective Referring to a period of a ♀'s life–age 45 to 55-ish–in which menstrual periods become irregular; perimenopause is immediately before, during and after menopause. See Menopause. women. The study protocol included a baseline visit before or shortly after surgery and follow-up assessments at 6 and 18 months after surgery. At the baseline visit, a structured questionnaire was administered; 25 cc blood was obtained for blood lead, serum ferritin, and hormone analysis; tibia lead concentration was determined via [sup.109]Cd-based K shell X-ray fluorescence X-ray fluorescence (XRF) is the emission of characteristic "secondary" (or fluorescent) X-rays from a material that has been excited by bombarding with high-energy X-rays or gamma rays. (XRF XRF X-Ray Fluorescence XRF X-Ray Flash XRF Cross Reference XRF Extended Recovery Facility (IBM) XRF Extended Reliability Feature XRF Cross Reference File XRF External Reference ) analyses; and BMD was measured by dual energy X-ray absorptiometry Dual energy X-ray absorptiometry (DXA, previously DEXA) is a means of measuring bone mineral density (BMD). Two X-ray beams with differing energy levels are aimed at the patient's bones. (DXA DXA Dual Energy X-Ray Absorptiometry (radiology) DXA Direct Exchange Activity ). The 6-month visit included all of the preceding measures except for the BMD assessment. The 18-month assessment was identical to the baseline evaluation. The research protocol was approved by the institutional review board of Mount Sinai Hospital, and written informed consent was obtained from all patients. An attempt was made to obtain the baseline assessment of each patient before surgery. This was often not feasible because of the short lead time for the surgical admission and the fact that the decision to perform a bilateral as opposed to a unilateral oophorectomy Oophorectomy Definition Oophorectomy is the surgical removal of one or both ovaries. It is also called ovariectomy or ovarian ablation. If one ovary is removed, a woman may continue to menstruate and have children. was frequently not made until during the procedure. As a result, 58.2% had a baseline assessment before surgery, and 41.8% had the baseline assessment within 2-29 days after the procedure. Information on covariates, such as sociodemographic characteristics; height and weight; occupational and environmental exposures; medical, gynecologic gynecologic /gy·ne·co·log·ic/ (gi?ne-) (jin?e-kah-loj´ik) pertaining to the female reproductive tract or to gynecology. , and obstetrical obstetrical, obstetric pertaining to or emanating from obstetrics. obstetrical anesthesia an anesthetic procedure designed especially for patients undergoing cesarean operation or intrauterine manipulation of the fetus. history, and use of medications including ERT; physical activity, cigarette smoking, and alcohol consumption, was obtained from the questionnaire. Serum ferritin levels, which are indicative of iron stores, were determined at each visit because there is some evidence that high ferritin levels are associated with lower blood lead concentrations (Baghurst et al. 1987). Estradiol levels were assessed as an indicator of endogenous estrogen levels. Levels of follicle-stimulating hormone follicle-stimulating hormone (FSH): see gonadotropic hormone. , which is a marker of reproductive senescence senescence /se·nes·cence/ (se-nes´ens) the process of growing old, especially the condition resulting from the transitions and accumulations of the deleterious aging processes. se·nes·cence n. , were also assessed to verify that the patients were not postmenopausal at the time of the surgery. Blood lead was determined using graphite furnace atomic absorption Graphite furnace atomic absorption spectrometry (GFAAS) (also known as Electrothermal Atomic Absorption Spectrometry (ETAAS)) is a type of spectrometry that uses a graphite-coated furnace to vaporize the sample. spectrophotometry spectrophotometry Branch of spectroscopy dealing with measurement of radiant energy transmitted or reflected by a body as a function of wavelength. The measurement is usually compared to that transmitted or reflected by a system that serves as a standard. with Zeeman background correction (model 4100ZL; Perkin Elmer, Norwalk, CT) using the method of Parsons (1992) at the Mount Sinai Lead Laboratory. The lead laboratory was certified by the Occupational Safety and Health Administration Occupational Safety and Health Administration (OSHA), U.S. agency established (1970) in the Dept. of Labor (see Labor, United States Department of) to develop and enforce regulations for the safety and health of workers in businesses that are engaged in interstate (OSHA OSHA n. Occupational Safety and Health Administration, a branch of the US Department of Labor responsible for establishing and enforcing safety and health standards in the workplace. ) and participated in two proficiency testing programs for blood lead (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. and the Wisconsin State Laboratory of Hygiene and College of American Pathologists This article or section needs sources or references that appear in reliable, third-party publications. Alone, primary sources and sources affiliated with the subject of this article are not sufficient for an accurate encyclopedia article. ). OSHA certification requires that proficiency tests See aptitude tests. come within 6 [micro]g/dL of the target value (or all-method mean) if that value is < 40 [micro]g/dL or within 15% of the target (or all-method mean) if the value is > 40 [micro]g/dL. During a 1-year period while these samples were being analyzed, the accuracy was within 5% or on average < 0.2 [micro]g/dL deviation from target values for 48 proficiency test samples (analyzed in masked fashion) across a wide range of values (0-100 [micro]g/dL). A subsample of triplet triplet /trip·let/ (trip´let) 1. one of three offspring produced at one birth. 2. a combination of three objects or entities acting together, as three lenses or three nucleotides. 3. samples (baseline, 6-month, and 18-month specimens) was run on the same day in the same laboratory batch for 37 women. The bone lead measurements were performed on the anterior, mid-diaphysis of the left tibia, which consists primarily of cortical bone. BMD was measured for left radius/ulna, left hip femoral femoral /fem·o·ral/ (fem´or-al) pertaining to the femur or to the thigh. fem·o·ral adj. Of or relating to the femur or thigh. neck, left hip trochanter trochanter /tro·chan·ter/ (tro-kan´ter) a broad, flat process on the femur, at the upper end of its lateral surface (greater t.), or a short conical process on the posterior border of the base of its neck (lesser t.) . , whole left leg (which included both the tibia and the femur femur (fē`mər): see leg. ), lumbar spine Lumbar spine The segment of the human spine above the pelvis that is involved in low back pain. There are five vertebrae, or bones, in the lumbar spine. Mentioned in: Low Back Pain , and whole body. The measurements were obtained with a Hologic QDR QDR Quadrennial Defense Review (US DoD) QDR Quad Data Rate (Memory Technology) QDR Quality Deficiency Report QDR Quality, Durability and Reliability (Toyota Motor Company) 2000 DXA densitometer A device that calibrates the relative strength of a color using complementary filters. Contrast with colorimeter. (Hologic, Bedford, MA) at the Bone Densitometry bone densitometry (bōnˑ den·si·t Laboratory at Mount Sinai Hospital. The scans were analyzed according to computer software protocols for each site provided by the manufacturer. The XRF method sometimes produces negative results for low bone lead concentrations. This is because the method produces an unbiased (Todd et al. 2002) point estimate of the true concentration that oscillates, because of measurement uncertainty, around the true bone lead concentration. Other researchers (Hu et al. 1998; Kim et al. 1995) have examined the retention of the negative values in the analyses of data from epidemiologic studies and have recommended the retention of all data because alternative procedures (e.g., setting the negative values to zero or to half the value of the detection limit) introduce bias. It is not possible to assign a specific detection limit to the XRF measurements. Each lead X ray (and the coherent scatter) peak of each in viva bone lead measurement spectrum has a detection limit (defined in any one of a number of ways). There is therefore no single spectrum-based detection limit value for an individual bone lead measurement. Furthermore, there is an "instrumental detection limit," which is usually superior to the more realistic method detection limit. In addition, there is a "system performance level" (Todd et al. 1993) and other detection limit definitions described by the International Union on Pure and Applied Chemistry Pure and Applied Chemistry (abb. Pure Appl. Chem.) is the official journal for the International Union of Pure and Applied Chemistry. It is published monthly and contains recommendations and reports, and lectures from symposia. (Todd et al. 2001, 2002). The XRF measurement uncertainty could be used to establish a degree of confidence in the lead concentration, but those uncertainties have been shown to underestimate the standard deviation In statistics, the average amount a number varies from the average number in a series of numbers. (statistics) standard deviation - (SD) A measure of the range of values in a set of numbers. of repeated measurements (Todd et al. 2001). Nevertheless, most of the tibia lead levels in this study could be described as at or near the method detection limit. Because tests of normality showed that the blood lead and tibia lead values were not normally distributed (Shapiro-Wilk's test, p < 0.0001 and < 0.03, respectively), medians are presented. The distributions of blood and tibia lead levels were evaluated by Wilcoxon rank sum test or, if there were more than two categories, the Kruskal-Wallis test. Covariates that were either categorical or continuous were assessed by chi-square or Student's t-test A t test is any statistical hypothesis test in which the test statistic has a Student's t distribution if the null hypothesis is true. History The t , respectively. Relationships between BMD and blood or tibia lead concentrations were evaluated by Spearman's correlation coefficient Correlation Coefficient A measure that determines the degree to which two variable's movements are associated. The correlation coefficient is calculated as: . Changes in blood and bone lead levels from baseline to 6 months, baseline to 18 months, and from 6 to 18 months were evaluated by the Wilcoxon signed rank test. Changes in blood and tibia lead levels adjusted for covariates were evaluated with multiple linear regressions. Results The study population consisted of 91 premenopausal and perimenopausal women [greater than or equal to] 30 years of age who were scheduled to undergo a bilateral oophorectomy for a benign condition at Mount Sinai Hospital during October 1994 through April 1999. Among the 91 women who enrolled in the study, 71 completed the 6-month visit and 63 completed the 18-month visit. The age distribution of the 91 women was as follows: 15.4% 30-44 years of age, 53.9% 45-49 years of age, and 30.8% 50-54 years of age. With respect to race/ethnicity, 52.8% were white, 16.5% were African American African American Multiculture A person having origins in any of the black racial groups of Africa. See Race. , 9.9% were Hispanic, and 2.3% were Asian. The participants were generally well educated: almost 70% had received college or higher education. Regarding reproductive characteristics, 67.4% had previously been pregnant and 56.2% had previously delivered a live birth. The proportion of women who reported ERT use was 78.9% at 6 months postsurgery and 77.8% at 18 months. The proportion of ERT users who were taking a dose of 0.625 mg was 83.9% at the 6-month follow-up and 74.5% at the 18-month assessment. Among the users, 80.8% had stayed on ERT for the period between the surgery and the 6-month visit, and 53.0% had remained on ERT during the period between surgery and the 18-month visit. Current smokers comprised 18.7% of the women, and 50.5% reported consuming one or more alcoholic drinks per week. Those who were lost to follow-up were less well educated (p = 0.02) and had a marginally higher 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. ; p = 0.06) than did those who completed the follow-up visits. Other characteristics did not differ between the two groups. Furthermore, there was no significant difference in blood lead levels at baseline for those who were lost to follow-up compared with those who remained in the study, although the former group had a somewhat higher blood lead level (3.1 [micro]g/dL vs. 2.4 [micro]g/dL; p = 0.23). The median blood lead (2.5 [micro]g/dL; range, 0.3-11.7 [micro]g/dL) and tibia lead (6.0 [micro]g/g bone mineral; range, -22.2 to 36.4 [micro]g/g) levels were low at baseline. The median blood lead levels were not significantly different for those who had the blood drawn before (2.2 [micro]g/dL) as opposed to after the surgery (2.6 [micro]g/dL, p = 0.65). There were no significant differences in median blood lead levels or changes in the blood lead levels over time when the triplicate samples that were analyzed in the same batch were compared with the samples analyzed in separate batches. Table 1 presents the median blood lead and tibia lead levels according to selected sociodemographic and lifestyle characteristics. A significant positive association was observed between number of alcoholic drinks per week and median blood lead level. There was some suggestion that blood lead levels increased with age, decreased with increasing BMI, and were lower for women who had never smoked and those who were on ERT at 6 months, but none of these results was statistically significant. The blood lead levels for the four racial/ethnic groups were similar. No association was seen for parity (data not shown). With respect to tibia lead, significant positive associations were observed both for current cigarette smoking and the number of alcoholic drinks per week. Tibia lead levels tended to increase with age, as expected, and tended to be lower for those on ERT at 6 months. The tibia lead levels were slightly higher for African Americans and Hispanics compared with whites or Asians. Assessment of other potential lead-related variables such as occupations, hobbies, and residential characteristics (e.g., peeling paint) revealed no significant findings, although women who reported a hobby involving potential lead exposure, such as making jewelry or stained glass, had slightly higher blood lead levels than did those who had no such hobby (Table 2). The increased blood lead levels for those who exercised on a regular basis (> 1 hr/week) is difficult to understand, because bone turnover is generally less in women who exercise (Wolff et al. 1999). Women who had ever used herbal medicines had a borderline significant elevated blood lead level. Apart from the higher tibia lead levels among women who reported a history of hyperthyroidism hyperthyroidism: see thyroid gland. , no other significant findings were observed with respect to characteristics potentially related to tibia lead levels. As expected, significant negative declines from the baseline to the 18-month BMD assessments were seen for the lumbar spine (paired t-test, p < 0.0001), the left hip femoral bone (p = 0.004), and the left hip trochanter (p = 0.005). The decline was particularly marked for the lumbar spine for those who had not been taking ERT, but a significant decrement To subtract a number from another number. Decrementing a counter means to subtract 1 or some other number from its current value. at this site did occur even for those who had used ERT (p = 0.003). There was only a slight and 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) drop in the left whole-leg BMD between the baseline and 18-month follow-up assessment, which was limited to those who were not on ERT. However, because bone lead was measured in the left tibia, adjustment for BMD was only based on the left leg. No significant correlations (based on the Spearman spear·man n. A man, especially a soldier, armed with a spear. correlation coefficient) were seen between left-leg BMD and blood lead values either at baseline or the 18-month follow-up or the change in blood lead levels. With respect to the correlation with tibia lead concentrations, there was a significant positive relationship between the left-leg BMD at baseline and the change in tibia lead between 0 baseline and 6 months ([r.sub.s] = 0.31, p = 0.02) but no correlation at the 18-month follow-up. Table 3 shows the median blood and tibia lead levels at baseline and at the 6-month and 18-month follow-up visits. Two women had no blood lead &terminations at baseline, and seven women did not have a tibia lead assessment at baseline. The sample sizes for the 6-month and 18-month assessments are also given in Table 3. Because not all women participated in the 6-month and 18-month follow-up assessments, changes in individual blood and tibia lead levels are of greater relevance. Table 4 summarizes the median changes over the follow-up period. It may be seen that median blood lead levels increased significantly during the first 6 months but did not change significantly between 6 and 18 months postsurgery. Although the increase during the first 6 months was greater for women who were not on ERT, both women with and without ERT experienced significant increases. Similar changes were observed for the tibia lead concentrations for all women, but none of the changes was statistically significant. The tibia lead changes according to ERT status are more difficult to interpret. There was a marginal decline in tibia lead concentrations between 6 and 18 months for women who took ERT, but not for those who did not take ERT. It should be noted that some of these results may reflect the different sample sizes. Assessment of Spearman correlation coefficients between the change in blood lead and tibia lead showed a borderline significant result for the change in blood lead and tibia lead between baseline and 18 months ([r.sub.s] = -0.26, p = 0.05). The [r.sub.s] for the change in blood and tibia lead between 6 and 18 months was 0.22 (p = 0.10). Because the correlations went in the opposite directions, these findings are not easily interpretable. Multiple regression Multiple regression The estimated relationship between a dependent variable and more than one explanatory variable. analysis was used to further explore the significant increase in blood lead levels between baseline and 6 months postsurgery. Variables that were considered included blood lead at baseline, alcohol consumption, estradiol and serum ferritin levels at 6 months, tibia lead adjusted for BMD of the left leg at baseline, and change in tibia lead between baseline and 6 months adjusted for BMD. The results are summarized in Table 5. The [r.sup.2] for this model was 0.22. It may be seen that the endogenous level of estradiol at 6 months, the BMD-adjusted tibia lead level at baseline, and the change in BMD-adjusted tibia lead level between baseline and 6 months were significant predictors of the change in blood lead between baseline and 6 months. Blood lead at baseline was not significant but was included in the model because exclusion of this variable resulted in a borderline significance for estradiol (p = 0.06). No significant interaction was observed between ERT use and baseline tibia lead level adjusted for BMD in this model (p = 0.38). Discussion Despite the dramatic decline in environmental lead exposure that has occurred in the United States since the 1980s, certain subgroups, such as poor inner-city residents and minorities, remain more likely to have elevated levels of blood lead. Pregnant and lactating lac·tate 1 intr.v. lac·tat·ed, lac·tat·ing, lac·tates To secrete or produce milk. [Latin lact women (Gulson et al. 2003; Tellez-Rojo et al. 2002) and those undergoing menopause (Nash et al. 1998) have been identified as additional groups who may be at risk for increased blood lead levels because of potential lead mobilization during conditions of high bone turnover. To date, however, there are no published prospective studies that have assessed blood lead, bone lead, and BMD changes during these conditions. Possible increases in levels of blood lead during menopause are of concern because studies of adults have shown neurocognitive deficits (Muldoon et al. 1994; Payton et al. 1998) and increased blood pressure (Nash et al. 2003; Symanski and Hertz-Picciotto 1995) even at relatively low blood lead levels. Our data suggest a slight but significant increase in blood lead between baseline and 6 months after a bilateral oophorectomy. This increase was evident both for those on ERT and those who were not on ERT, although the increase was greater for the latter group. No significant changes in blood lead levels were seen between 6 and 18 months postsurgery. With respect to tibia lead concentrations, there was some suggestion of an increase between baseline and the 6-month follow-up for those who were not on ERT therapy and a decline between 6 and 18 months for those who were on ERT therapy. Thus, these findings do not point to any substantial lead mobilization during menopause. The fact that close to 80% of the women were on ERT postsurgery may explain the findings because ERT reduces bone resorption (Prestwood et al. 2000). Alternatively, current bone lead concentrations may be sufficiently low to result in the release of only small amounts of lead into the bloodstream. Previous studies on the effects of ERT on blood and tibia lead levels are not entirely consistent. A small cross-sectional study cross-sectional study n. See synchronic study. cross-sectional study, n the scientific method for the analysis of data gathered from two or more samples at one point in time. of blood lead concentrations among postmenopausal women either on ERT or calcium supplementation calcium supplementation Metabolism The addition of Ca2+ to the diet, usually in the form of calcium carbonate found that ERT may reduce the release of lead from bone (Webber et al. 1995). However, this was evident only for cortical (tibia) and not trabecular (calcaneus calcaneus /cal·ca·ne·us/ (kal-ka´ne-us) pl. calca´nei [L.] heel bone; the irregular quadrangular bone at the back of the tarsus. calca´nealcalca´nean cal·ca·ne·us or cal·ca·ne·um n. ) bone, even though trabecular bone is thought to be more sensitive to estrogen declines than is cortical bone. Furthermore, ERT had no effect on blood lead concentrations in the latter study. Analysis of a subgroup from the Nurses' Health Study Nurses' Health Study Cardiology A large cohort study that evaluated the effect of exogenous HRT on the risk of cardiovascular disease. See Estrogen replacement therapy, Osteoporosis. (Korrick et al. 2002) found higher blood lead levels in postmenopausal women who were not taking estrogens Estrogens Hormones produced by the ovaries, the female sex glands. Mentioned in: Acne, Polycystic Ovary Syndrome estrogens (es´trōjenz), n. than either premenopausal women or postmenopausal women who were using ERT. Bone lead was positively associated with blood lead only among postmenopausal women who were not using ERT, and this was true both for trabecular (patella patella (pətĕl`ə): see kneecap. ) and cortical (tibia) bone lead. A Mexican cross-sectional osteoporosis-screening study reported that trabecular bone lead (patella) was an important predictor of blood lead in postmenopausal women both for those with a natural or surgical menopause (Garrido Latorre et al. 2003). Users of ERT also had lower blood lead levels than did nonusers in this study. In contrast, another Mexican study found significantly higher blood lead values in women with a natural compared with a surgical menopause but no difference according to ERT use (Hernandez-Avila et al. 2000). Analysis of NHANES III data for 1988-1994 showed lower blood lead levels among postmenopausal women who were current ERT users compared with past or never users (Nash et al. 1998). Two studies that also assessed BMD found no association between BMD and blood lead values (Garrido Latorre et al. 2003; Muldoon et al. 1994). With respect to other correlates of blood lead levels, positive associations have been reported with increasing age (Hernandez-Avila et al. 2000; Korrick et al. 2002; Muldoon et al. 1994; Weyermann and Brenner 1997), cigarette smoking (Muldoon et al. 1994; Weyermann and Brenner 1997), and alcohol consumption (Korrick et al. 2002; Muldoon et al. 1994; Weyermann and Brenner 1997). Alcohol consumption was significantly associated with increased blood lead levels in our data, and nonsignificant positive trends were evident for age and cigarette smoking. Use of herbal remedies has been previously linked to lead poisoning lead poisoning or plumbism (plŭm`bĭz'əm), intoxication of the system by organic compounds containing lead. (Centers for Disease Control and Prevention 1993; Markowitz et al. 1994). In the study by Muldoon et al. (1994) of women 65-74 years of age, moderate physical activity was related to decreased blood lead values, but more strenuous activity was associated with increased lead levels. We observed higher blood lead values among women who exercised > 1 hr/week, but our numbers were too small to detect a dose-response relationship. Only limited data are available on characteristics influencing bone lead concentrations. In a study of tibia lead concentrations, Kosnett et al. (1994) reported positive associations with age and cigarette smoking and a negative relationship with a history of lactation lactation Production of milk by female mammals after giving birth. The milk is discharged by the mammary glands in the breasts. Hormones triggered by delivery of the placenta and by nursing stimulate milk production. . Korrick et al. (2002) found that older age and lower parity were associated with higher tibia lead but only age was related to patella lead levels. We similarly found a significant positive association between tibia lead and cigarette smoking and a positive trend with age. In addition, alcohol consumption significantly increased bone lead concentration. A history of hyperthyroidism was also a significant predictor in our study. Hyperthyroidism, which can cause bone turnover (Goldman et al. 1994), would, however, be expected to be related to higher blood but not bone lead levels. Because there were significant declines in BMD for the lumbar spine, left hip femoral neck, and left hip trochanter (but not in the left leg or the radius/ulna), there is evidence of bone turnover in this study population. However, the possibility that a release of lead from bone with subsequent redeposition Noun 1. redeposition - deposition from one deposit to another deposition, deposit - the natural process of laying down a deposit of something cannot be discounted because tibia lead concentrations did not change significantly over the follow-up period. Nevertheless, tibia bone lead concentrations were adjusted for left-leg BMD in the final model. Another limitation of this study is the fact that the whole-leg BMD rather than just the tibial tibial pertaining to the tibia. tibial crest a longitudinal prominence on the cranial border of the proximal tibia. Its proximal end (tibial tubercle) has a growth plate separate from the proximal tibia; hyperflexion injuries to shaft BMD was measured. Because both the tibia and the femur primarily consist of cortical bone, measurement of the whole leg should not have had any major effect on our results. Conclusion We observed a small but significant increase in blood lead between the baseline assessment and the 6-month postsurgical visit, particularly for women who were not on ERT after the surgical menopause. However, no significant changes were observed for the period between 6 and 18 months, nor were there any significant changes in tibia lead concentrations postsurgery. Thus, these data do not support the hypothesis of substantial lead mobilization from cortical bone during menopause. We thank K. Paulate, J. Hutagalung, N. Ginde, and J. Tolman for their analysis of blood and bone lead levels for this study. This research was supported by grant P42 ES07384 from 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. . The authors declare they have no competing financial interests. Received 6 February 2004; accepted 7 September 2004. REFERENCES Baghurst PA, McMichael AJ, Vimpani GV, Robertson EF, Clark PD, Wigg NR. 1987. Determinants of blood lead concentrations of pregnant women living in Port Pirie and surrounding areas. Med J Aust 146:69-73. Barry PS. 1975. A comparison of concentrations of lead in human tissues. Br J Ind Med 32:119-139. Barry PS, Mossman DB. 1970. Lead concentrations in human tissues. Br J Ind Meal 27:339-351. Borjesson J, Mattsson S, Stromberg U, Gerhardsson L, Schutz A, Skerfving S. 1997. Lead in fingerbone: a tool for retrospective exposure assessment. Arch Environ Health 52:104-112. Brenner F. 1992. Bone and calcium homeostasis. Neurotoxicology 13:775-782. Centers for Disease Control and Prevention. 1993. Lead poisoning associated with use of traditional ethnic remedies. 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Factors influencing bone lead concentration in a suburban community assessed by noninvasive K X-ray fluorescence. JAMA JAMA abbr. Journal of the American Medical Association 271:197-203. Landrigan PJ, Baker EL Jr, Himmelstein JS, Stein GF, Weddig JP, Straub WE. 1982. Exposure to lead from the Mystic River Bridge: the dilemma of deleading. N Engl J Med 306:673-676. Lindquist O, Bengtsson C, Hansson T, Roos B. 1981. Bone mineral content in relation to age and menopause in middle-aged women. A study of bone density in lumbar vertebrae Lumbar vertebrae The vertebrae of the lower back below the level of the ribs. Mentioned in: Spinal Instrumentation by dual photon absorptiometry ab·sorp·ti·om·e·try n. A diagnostic technique for measuring bone mineral density in which an image of bone is produced from computerized analysis of absorption rates of photons directed in a focused beam at a body part. in a population sample of women. Scand J Clin Lab Invest 41:215-223. Markowitz SB, Nunez CM, Klitzman S, Munshi Munshi is a degree in South Asia, that is given after passing a certain course of basic reading, writing, and math etc. The advanced degree was Munshi Fazil or Munshi Fadhil. Munshi is also a title that a graduate of Munshi course is allowed to attach to his name. AA, Kim WS, Eisinger J, et al. 1994. Lead poisoning due to hai ge fen. The porphyrin content of individual erythrocytes Erythrocytes Red blood cells. Mentioned in: Bartonellosis erythrocytes (ē·rithˑ·rō·sīts), n.pl red blood cells. . JAMA 271:932-934. Muldoon SB, Cauley JA, Kuller LH, Scott J, Rohay J. 1994. Lifestyle and sociodemographic factors as determinants of blood lead levels in elderly women. Am J Epidemiol 139:599-608. Nash D, Magder L, Lustberg M, Sherwin RW, Rubin RJ, Kaufmann RB, et al. 2003. Blood lead, blood pressure, and hypertension in perimenopausal and postmenopausal women. JAMA 289:1523-1532. Nash D, Silbergeld E, Mager L, Stolley P. 1998. Menopause, hormone replacement therapy Hormone Replacement Therapy Definition Hormone replacement therapy (HRT) is the use of synthetic or natural female hormones to make up for the decline or lack of natural hormones produced in a woman's body. (HRT HRT abbr. hormone replacement therapy Hormone replacement therapy (HRT) Also called estrogen replacement therapy, this controversial treatment is used to relieve the discomforts of menopause. ), and blood lead levels among adult women from NHANES III, 1988-1994. Am J Epidemiol 147:S93. Nilsson U, Attewell R, Christoffersson JO, Schutz A, Ahlgren L, Skerfving S, et al. 1991. Kinetics of lead in bone and blood after end of occupational exposure. Pharmacol Toxicol 68:477-484. O'Flaherty EJ. 1992. Modeling bone mineral metabolism, with special reference to calcium end lead. Neurotoxicology 13:789-797. Parsons PJ. 2002. Monitoring human exposure to lead: an assessment of current laboratory performance for the determination of blood lead. Environ Res 57:149-162. Payton M, Riggs KM, Spire A III, Weiss ST, Hu H. 1998. Relations of bone and blood lead to cognitive function cognitive function Neurology Any mental process that involves symbolic operations–eg, perception, memory, creation of imagery, and thinking; CFs encompasses awareness and capacity for judgment : the VA Normative Aging Study. Neurotoxicol Teratol 20:19-27. Pirkle JL, Brody DJ, Gunter EW, Kramer RA, Paschal DC, Flegal KM, et al. 1994. The decline in blood lead levels in the United States. The National Health and Nutrition Examination Surveys (NHANES). JAMA 272:284-291. Pounds JG. 1984. Effect of lead intoxication intoxication, condition of body tissue affected by a poisonous substance. Poisonous materials, or toxins, are to be found in heavy metals such as lead and mercury, in drugs, in chemicals such as alcohol and carbon tetrachloride, in gases such as carbon monoxide, and on calcium homeostasis and calcium-mediated cell function: a review. Neurotoxicology 5:295-331. Prestwood KM, Gunness M, Muchmore DB, Lu Y, Wong M, Raisz LG. 2000. A comparison of the effects of raloxifene and estrogen on bone in postmenopausal women. J Clin Endocrinol Metab 85:2197-2202. Price J, Grudzinski AW, Craswell PW, Thomas BJ. 1992. Repeated bone lead levels in Queensland, Australia--previously a high lead environment. Arch Environ Health 47:256-262. Rabinowitz MB, Wetherill GW, Kopple JD. 1976. Kinetic analysis of lead metabolism in healthy humans. J Clin Invest 58:260-270. Riggs BL, Melton LJ III. 1986. Involutional osteoporosis. N Engl J Med 314:1676-1686. Ryan CM, Morrow L, Parkinson D, Bromet E. 1987. Low level lead exposure and neuropsychological neu·ro·psy·chol·o·gy n. The branch of psychology that deals with the relationship between the nervous system, especially the brain, and cerebral or mental functions such as language, memory, and perception. functioning in blue collar males. Int J Neurosci 36:29-39. Silbergeld EK, Schwartz J, Mahaffey K. 1988. Lead and osteoporosis: mobilization of lead from bone in postmenopausal women. Environ Res 47:79-94. Simons TJ. 1993. Lead-calcium interactions in cellular lead toxicity. Neurotoxicology 14:77-85. Symanski E, Hertz-Picciotto I. 1995. Blood lead levels in relation to menopause, smoking, and pregnancy history. Am J Epidemiol 141:1047-1058. Tellez-Rojo MM, Hernandez-Avila M, Gonzalez-Cossio T, Romieu I, Aro A, Palazuelos E, et al. 2002. Impact of breastfeeding on the mobilization of lead from bone. Am J Epidemiol 155:420-428. Todd AC, Landrigan PJ, Bloch P. 1993. Workshop on the X-ray fluorescence of lead in bone: conclusions, recommendations and summary. Neurotoxicology 14:145-154. Todd AC, Parsons P J, Carroll S, Geraghty C, Khan FA, Tang S, et al. 2002. Measurements of lead in human tibiae. A comparison between K-shell X-ray fluorescence and electrothermal e·lec·tro·ther·mal adj. 1. Of, relating to, or involving both electricity and heat. 2. Of or relating to the production of heat by electricity. atomic absorption spectrometry Absorption spectrometry A scientific procedure to determine chemical makeup of samples. Mentioned in: Herbalism, Traditional Chinese . Phys Med Biol 47:573-687. Todd AC, Parsons PJ, Tang S, Moshier EL. 2001. Individual variability in human tibia lead concentration. Environ Health Perspect 109:1139-1143. Webber CE, Chettle DR, Bowins RJ, Beaumont LF, Gordon CL, Song X, et al. 1995. Hormone replacement therapy may reduce the return of endogenous lead from bone to the circulation. Environ Health Perspect 103:1150-1153. Weyermann M, Brenner H. 1997. Alcohol consumption and smoking habits as determinants of blood lead levels in a national population sample from Germany. Arch Environ Health 52:233-239. Wittmers LE Jr, Aufderheide AC, Wallgren J, Rapp G Jr, Alich A. 1988. Lead in bone. IV. Distribution of lead in the human skeleton. Arch Environ Health 43:381-391. Wolff I, van Croonenborg JJ, Kemper HC, Kostense PJ, Twisk JW. 1999. The effect of exercise training programs on bone mass: a meta-analysis of published controlled trials in pre- and postmenopausal women. Osteoporos Int 9:1-12. Gertrud S. Berkowitz, Mary S. Wolff, Robert H. Lapinski, and Andrew C. Todd Department of Community and 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. , Mount Sinai School of Medicine
Mount Sinai School of Medicine is a medical school found in the borough of Manhattan in New York City. , New York New York, state, United States New York, Middle Atlantic state of the United States. It is bordered by Vermont, Massachusetts, Connecticut, and the Atlantic Ocean (E), New Jersey and Pennsylvania (S), Lakes Erie and Ontario and the Canadian province of , New York, USA Address correspondence to G.S. Berkowitz, Department of Community and Preventive Medicine, Mount Sinai School of Medicine, Box 1172, One Gustave L. Levy Place, New York, NY 10029-6574 USA. Telephone: (212) 241-8954. Fax: (212) 241-3475. E-mail: trudy.berkowitz@mssm.edu
Table 1. Baseline median blood and tibia lead levels according to
sociodemographic and lifestyle characteristics among 91 women with
a surgical menopause, Mount Sinai Hospital, 1994-1999.
Blood lead
Median
Characteristic ([micro]g/dL) No. p-Value (a)
Age (years)
30-44 2.1 14
45-49 2.5 47
50-54 2.7 28 0.39
Race/ethnicity
White 2.6 55
African American 2.1 19
Hispanic 2.4 12
Asian 2.6 3 0.61
Education 2
Less than high school 3.4 9
High school graduate 2.5 12
Some college 2.0 19
College graduate 2.6 47 0.39
BMI (kg/[m.sup.2])
<25 2.6 43
25-29.9 2.2 24
>30.0 2.1 20 0.59
Cigarette smoking
Never 2.2 40
Ex-smoker 2.5 31
Current 3.4 15 0.14
Alcohol consumption (drinks/week)
0 1.9 42
1-6 2.6 35
>7 3.5 9 0.001
Coffee consumption
0 2.1 22
1-2 2.6 40
>3 2.7 15 0.63
ERT at 6 months
No 3.8 (b) 15
Yes 3.0 56 0.15 (c)
Tibia lead
Median
Characteristic ([micro]g/dL) No. p-Value (a)
Age (years)
30-44 2.4 12
45-49 5.7 46
50-54 7.6 26 0.32
Race/ethnicity
White 5.7 50
African American 7.5 18
Hispanic 7.2 13
Asian 6.0 3 0.44
Education
Less than high school 4.4 9
High school graduate 8.6 12
Some college 6.1 18
College graduate 5.6 45 0.33
BMI (kg/[m.sup.2])
<25 6.3 40
25-29.9 6.7 24
>30.0 4.5 20 0.49
Cigarette smoking
Never 4.4 39
Ex-smoker 7.1 28
Current 11.4 16 0.02
Alcohol consumption (drinks/week)
0 3.4 42
1-6 7.6 35
>7 9.5 9 0.03
Coffee consumption
0 3.3 23
1-2 7.5 38
>3 7.1 14 0.28
ERT at 6 months
No 10.4 (b) 15
Yes 5.8 55 0.11 (c)
(a) p-Value is based on the Kruskal-Wallis test, unless otherwise
indicated. (b) Median blood and tibia lead levels at 6 months after
oophorectomy. (c) p-Value is based on the Wilcoxon rank sum test.
Table 2. Baseline median blood and bone lead levels according
to other potential lead-related characteristics among 91 women
with a surgical menopause, Mount Sinai Hospital, 1994-1999.
Blood lead
Median
Characteristic ([micro]g/dL) No. p-Value (a)
Ever had lead-related hobby
No 2.1 40
Yes 2.6 44 0.12
History of hyperthyroidism
No 2.5 84
Yes 3.9 3 0.32
Physical exercise (> 1 hr/week)
No 2.1 28
Yes 2.6 56 0.04
Ever used herbal medicines
No 2.3 51
Yes 2.6 31 0.05
Bone lead
Median
Characteristic ([micro]g/dL) No. p-Value (a)
Ever had lead-related hobby
No 5.2 38
Yes 7.6 43 0.53
History of hyperthyroidism
No 5.7 80
Yes 13.1 4 0.02
Physical exercise (> 1 hr/week)
No 4.7 27
Yes 6.9 54 0.21
Ever used herbal medicines
No 6.6 50
Yes 4.8 29 0.95
(a) p-Value based on Wilcoxon rank sum test.
Table 3. Median blood and tibia lead levels at baseline, 6 months,
and 18 months after oophorectomy by ERT status among 91 women with
a surgical menopause, Mount Sinai Hospital, 1994-1999.
Blood lead
([micro]g/dL)
Follow-up period Median (range) No.
All women
Baseline 2.5 (0.3-11.7) 89
6 months postsurgery 3.2 (0.4-12.0) 71
18 months postsurgery 3.1 (0.5-9.1) 63
Women on ERT
6 months postsurgery 3.0 (0.4-12.0) 56
18 months postsurgery 3.1 (0.5-9.1) 49
Women not on ERT
6 months postsurgery 3.8 (1.3-11.6) 15
18 months postsurgery 3.2 (1.6-6.7) 14
Tibia lead
([micro]g/g)
Follow-up period Median (range) No.
All women
Baseline 6.1 (-22.2-36.4) 84
6 months postsurgery 6.8 (-14.2-29.0) 70
18 months postsurgery 5.8 (-15.4-24.2) 62
Women on ERT
6 months postsurgery 5.8 (-14.2-24.3) 55
18 months postsurgery 4.2 (-15.4-24.2) 46
Women not on ERT
6 months postsurgery 10.4 (-6.9-29.0) 15
18 months postsurgery 6.9 (-4.0-19.9) 16
Table 4. Median changes in blood and tibia lead levels during
the follow-up period by ERT status among 91 women with a
surgical menopause, Mount Sinai Hospital, 1994-1999.
Blood lead ([micro]g/dL)
Median change
Follow-up period (range) p-Value (a) No.
All women
0-6 months 0.4 (-2.0-9.6) <0.0001 71
6-18 months -0.1 (-7.6-3.9) 0.36 60
0-18 months 0.3 (-6.2-4.7) 0.06 63
Women on ERT postsurgery
0-6 months 0.3 (-2.0-4.4) 0.003 56
6-18 months -0.1 (-7.6-3.9) 0.62 46
0-18 months 0.2 (-6.2-4.7) 0.16 49
Women not on ERT
0-6 months 0.7 (-0.6-9.6) 0.008 15
6-18 months -0.2 (-2.6-2.1) 0.31 14
0-18 months 0.4 (-1.8-2.2) 0.21 14
Tibia lead ([micro]g/g)
Median change
Follow-up period (range) p-Value (a) No.
All women
0-6 months 1.8 (-33.3-26.3) 0.22 69
6-18 months -2.2 (-18.6-22.2) 0.16 58
0-18 months -0.4 (-34.0-31.3) 0.86 62
Women on ERT postsurgery
0-6 months 0.8 (-33.3-26.3) 0.59 55
6-18 months -2.8 (-18.6-22.2) 0.06 42
0-18 months 0.1 (-34.0-31.3) 0.86 46
Women not on ERT
0-6 months 5.0 (-10.5-19.7) 0.08 14
6-18 months 2.2 (-14.0-14.9) 0.72 16
0-18 months -0.8 (-22.4-7.4) 0.49 16
(a) p-Value is based on the Kruskal-Wallis test.
Table 5. Multivariate model of blood lead changes between
baseline and 6 months postsurgery among 91 women with a
surgical menopause, Mount Sinai Hospital, 1994-1999.
Parameter p-Value Partial
Variable estimate SE (a) [r.sup.2]
Intercept 1.36 0.58 0.02 --
Endogenous estradiol level -0.01 0.01 0.03 0.09
at 6 months
Blood lead at baseline -0.17 0.12 0.16 0.04
Tibia lead at baseline 0.07 0.03 0.008 0.13
adjusted for BMD (b)
Change in tibia lead at 0-6 0.06 0.02 0.01 0.12
months adjusted for BMD (b)
(a) Based on Student's t-test. (b) Tibia lead concentration
multiplied by mean left-leg BMD.
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