Blood lead is a predictor of homocysteine levels in a population-based study of older adults.Lead and homocysteine Homocysteine Definition Homocysteine is a naturally occurring amino acid found in blood plasma. High levels of homocysteine in the blood are believed to increase the chance of heart disease, stroke, Alzheimer's disease, and osteoporosis. are both associated with cardiovascular disease Cardiovascular disease Disease that affects the heart and blood vessels. Mentioned in: Lipoproteins Test cardiovascular disease and cognitive dysfunction. We evaluated the relations among blood lead, tibia tibia: see leg. lead, and homocysteine levels by cross-sectional analysis Cross-sectional analysis Assessment of relationships among a cross-section of firms, countries, or some other variable at one particular time. of data among subjects in the Baltimore Memory Study, 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. of 1,140 randomly selected residents in Baltimore, Maryland "Baltimore" redirects here. For the surrounding county, see Baltimore County, Maryland. For other uses, see Baltimore (disambiguation). Baltimore is an independent city located in the state of Maryland in the United States. , who were 50-70 years of age. Tibia lead was measured by [sup.109]Cd 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. . The subject population had a mean [+ or -] SD age of 59.3 [+ or -] 5.9 years and was 66.0% female, 53.9% white, and 41.4% black or African American African American Multiculture A person having origins in any of the black racial groups of Africa. See Race. . Mean [+ or -] SD blood lead, tibia lead, and homocysteine levels were 3.5 [+ or -] 2.4 [micro]g/dL, 18.9 [+ or -] 12.5 [micro]g/g, and 10.0 [+ or -] 4.1 [micro]mol/L, respectively. In unadjusted analysis, blood lead and homocysteine were moderately correlated (Pearson's r = 0.27, p < 0.01). After adjustment for age, sex, race/ethnicity, educational level, tobacco and alcohol consumption, and body mass index using multiple linear regression Linear regression A statistical technique for fitting a straight line to a set of data points. , results revealed that homocysteine levels increased 0.35 [micro]mol/L per 1.0 [micro]g/dL increase in blood lead (p < 0.01). The relations of blood lead with homocysteine levels did not differ in subgroups distinguished by age, sex, or race/ethnicity. Tibia lead was modestly correlated with blood lead (Pearson's r = 0.12, p < 0.01) but was not associated with homocysteine levels. To our knowledge, these are the first data to reveal an association between blood lead and homocysteine. These results suggest that homocysteine could be a mechanism that underlies the effects of lead on the cardiovascular and central nervous systems, possibly offering new targets for intervention to prevent the long-term consequences of lead exposure. Key words: blood lead, 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. , homocysteine, tibia lead. doi: 10.1289/ehp.7369 available via http://dx.doi.org/ [Online 7 September 2004] ********** As a result of centuries of human use, lead is omnipresent om·ni·pres·ent adj. Present everywhere simultaneously. [Medieval Latin omnipres in the environment. Commercial use of this substance continues even though its toxic effects have been recognized since ancient times (Nriagu 1983), and more recent studies report health effects associated with lower and lower lead doses (Canfield can·field n. Games A form of solitaire. [After Richard Albert Canfield (1855-1914), American gambler.] Noun 1. et al. 2003; Glenn et al. 2003; Nash et al. 2003; Schwartz et al. 2000). Lead is not rapidly cleared from the body; the biologic residence time of lead in blood is measured in days, whereas the biologic residence time of lead in bone is on the order of years to decades (Hu et al. 1998). In occupational and general population samples, low blood lead levels have been associated with increased blood pressure and elevated risk of hypertension, effects that may be progressive (Cheng et al. 2001; Glenn et al. 2003; Nash et al. 2003); increased circulatory circulatory /cir·cu·la·to·ry/ (ser´ku-lah-tor?e) 1. pertaining to circulation, particularly that of the blood. 2. containing blood. cir·cu·la·to·ry n. 1. and cardiovascular mortality (Lustberg and Silbergeld 2002); and progressive declines in 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 over time, even years after cessation of occupational exposure (Schwartz et al. 2000, 2002, in press). One of the key remaining problems in the research of lead toxicity is that the mechanisms for these effects are not well understood. Interestingly, homocysteine is also associated with cardiovascular disease and cognitive dysfunction (Dufouil et al. 2003; Homocysteine Collaboration 2002). Homocysteine is an independent risk factor for vaso-occlusive disease; elevated levels of homocysteine increase the risk of heart disease, stroke, and peripheral vascular disease Peripheral Vascular Disease Definition Peripheral vascular disease is a narrowing of blood vessels that restricts blood flow. It mostly occurs in the legs, but is sometimes seen in the arms. and, perhaps through vascular mechanisms, cognitive dysfunction (Bautista et al. 2002; Dufouil et al. 2003; Homocysteine Collaboration 2002; Prins et al. 2002; Ravaglia et al. 2003; Wald et al. 2002). Vascular damage by homocysteine may occur through impaired vascular endothelial endothelial /en·do·the·li·al/ (-the´le-al) pertaining to or made up of endothelium. Endothelial A layer of cells that lines the inside of certain body cavities, for example, blood vessels. and smooth muscle cell function (Rodrigo et al. 2003). The mechanisms of this impairment may involve inhibition of nitric oxide nitric oxide or nitrogen monoxide, a colorless gas formed by the combustion of nitrogen and oxygen as given by the reaction: energy + N2 + O2 → 2NO; m.p. −163.6°C;; b.p. −151.8°C;. synthesis, increased oxidative stress oxidative stress, n an imbalance of the prooxidant antioxidant ratio in which too few antioxidants are produced or ingested or too many oxidizing agents are produced. , proliferation of vascular smooth muscle Vascular smooth muscle refers to the particular type of smooth muscle found within, and composing the majority of the wall of blood vessels. Vascular smooth muscle contracts or relaxes to both change the volume of blood vessels and the local blood pressure, a mechanism that cells, and altered elasticity of the vascular wall (Rodrigo et al. 2003). Despite the similarities in these health effects, the relation of homocysteine and lead dose has not been previously examined. Herein, we report associations of blood lead, tibia lead, and homocysteine in a population-based study of persons 50-70 years of age in Baltimore, Maryland. Participants were selected from the general population, and most are without occupational lead exposure. Materials and Methods Study design. The Baltimore Memory Study, one of the National Institutes of Health's disparities initiative grants, is a multilevel mul·ti·lev·el adj. Having several levels: a multilevel parking garage. Adj. 1. multilevel - of a building having more than one level cohort study A cohort study is a form of longitudinal study used in medicine and social science. It is one type of study design. In medicine, it is usually undertaken to obtain evidence to try to refute the existence of a suspected association between cause and disease; failure to refute of risk factors for cognitive decline in Baltimore city residents of targeted neighborhoods. The methods are described elsewhere (Schwartz et al. 2004). The selected neighborhoods were chosen to provide areas with a broad range of 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. and large numbers of both whites and African Americans. A cross-sectional analysis of first-visit data was performed. Subject selection and recruitment. Sampling and recruitment have been previously described (Schwartz et al. 2004). In brief, individual dwellings in the study area were linked to telephone numbers, and households with telephones were randomly selected for recruitment. Eligibility was then determined on 2,351 subjects (50-70 years of age, living at selected household, lived in Baltimore at least 5 years), and of these subjects, 60.8% were scheduled for an enrollment visit. Of the 1,403 scheduled for an appointment, 1,140 (81.3%) were enrolled and subsequently tested. The study was approved by the Committee for Human Research of the Johns Hopkins Bloomberg School of Public Health The Johns Hopkins Bloomberg School of Public Health is part of Johns Hopkins University in Baltimore, Maryland, U.S. It was the first institution of its kind in the world. Founded in 1916 by William H. Welch and John D. . All participants provided written, informed consent before testing and were paid $50 for their participation. Data collection. All data were collected at the study clinic by trained research assistants. A structured interview included the following information: demographics, socioeconomic status (household income, household assets, occupational status, and educational attainment Educational attainment is a term commonly used by statisticans to refer to the highest degree of education an individual has completed.[1] The US Census Bureau Glossary defines educational attainment as "the highest level of education completed in terms of the ), medical history, smoking and alcohol history, and lead history. First and second visits were conducted between May 2001 and September 2002, and October 2002 and February 2004, respectively. A trained phlebotomist phle·bot·o·mist n. 1. One who practices phlebotomy. 2. One who draws blood for analysis or transfusion. drew a 10-mL blood specimen into a red-top (no anticoagulant anticoagulant (ăn'tēkōăg`yələnt), any of several substances that inhibit blood clot formation (see blood clotting). ) tube, which was clotted, centrifuged, and stored at -20[degrees]C within 1 hr. Samples were transported to the Johns Hopkins Bloomberg School of Public Health and stored at -70[degrees]C. Serum homocysteine was measured by a commercial laboratory using fluorescence polarization immunoassay Immunoassay An assay that quantifies antigen or antibody by immunochemical means. The antigen can be a relatively simple substance such as a drug, or a complex one such as a protein or a virus. (Abbott AxSYM The Abbott Axsym is an immunochemical automated analyser made by Abbott Laboratories. It is used for serology tests and therapeutic drug monitoring, and uses antibodies to alter the deflection of polarised light. , Abbott Park, IL). The coefficients of variation for the quality control samples for three concentration levels were 3.64% (low range), 2.24% (mid range), and 2.32% (high range). Fasting was not requested of the subjects because study visits were scheduled at all times of the day for logistical reasons. The variability between fasting and nonfasting samples is not likely to exaggerate the association but instead would dampen it. Conditions that cause short-term fluctuations in homocysteine levels, such as protein intake, are not likely to be related to whole-blood lead levels. Homocysteine was measured from a sample obtained at the first study visit in most subjects; however, 254 subjects provided plasma only at the first visit so had serum obtained at the second visit for homocysteine measurement. Lead was measured in the metals laboratory of the Kennedy Krieger Institute (Baltimore, MD) from the first study visit whole-blood specimen using anodic an·ode n. 1. A positively charged electrode, as of an electrolytic cell, storage battery, or electron tube. 2. The negatively charged terminal of a primary cell or of a storage battery that is supplying current. stripping voltammetry (Schwartz et al. 2004). Tibia lead concentration was measured at the second study visit by [sup.109]Cd-induced K-shell X-ray fluorescence using previously reported methods (Todd 2000; Todd and McNeill 1993; Todd et al. 1992, 2000). In this population of older adults without occupational lead exposure, tibia lead, which has a biologic residence time of 25-30 years, should not have changed appreciably between the first and second study visits. Statistical methods. The main objectives of this analysis were a) to evaluate relations of blood lead and tibia lead levels with homocysteine, controlling for age, race/ethnicity, sex, and other potential confounding variables; and b) to evaluate whether these relations were modified by age, sex, or race/ethnicity. Of the 1,140 persons enrolled at the first visit, 78 subjects were missing homocysteine values; 10 were missing blood lead values; 7 missing information on alcohol consumption; 6 missing 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. ); and 1 each was missing information on education and tobacco use. A total of 1,022 (89.6%) subjects completed the second study visit, so 82 participants were missing tibia lead data. Thus, in analyses with blood lead and tibia lead, 1,037 and 955 subjects were included, respectively. Subjects with missing homocysteine data were not statistically different regarding blood lead, age, or race/ethnicity. To minimize the influence of large tibia lead values, tibia lead was log transformed before use in models. Negative values for tibia lead were converted to 0.1 before log transformation. Associations with tibia lead were also examined nonparametrically, using a percentile percentile, n the number in a frequency distribution below which a certain percentage of fees will fall. E.g., the ninetieth percentile is the number that divides the distribution of fees into the lower 90% and the upper 10%, or that fee level transformation for tibia lead; results did not differ from those using the log-transformed tibia lead and are not reported. We used multiple linear regression to examine the relations of blood lead with homocysteine levels, controlling for covariates. Models were first constructed including known homocysteine covariates (e.g., age, sex, and race/ethnicity); then, other potential confounding variables were included in a forward 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 fashion. Variables were retained in the final models if they were associated with homocysteine levels or significantly influenced the relation of blood or tibia lead with homocysteine (changed the lead coefficient by more than 10%). The final model included age, race/ethnicity, sex, educational level (four categories based on reported years of education and information on graduate equivalency equivalency the combining power of an electrolyte. See also equivalent. diploma, training for trades, and additional educational certificates), alcohol (four categories based on the number of alcoholic drinks per month, with a drink being defined as one beer, one glass of wine, one wine cooler, one cocktail, or one shot of liquor), smoking (four categories based on the number of cigarettes smoked per day), and BMI (kilograms per square meter Noun 1. square meter - a centare is 1/100th of an are centare, square metre area unit, square measure - a system of units used to measure areas ). We evaluated effect modification effect modification Epidemiology An interaction among multiple possible cause-and-effect relationships, where the estimate of the effect of one factor on a disease process depends on other factors in the study by including cross-product terms in the model (e.g., to evaluate effect modification by race/ethnicity, a cross-product of race/ethnicity and blood lead was included in the model). All statistical analyses were performed using Stata version 8.0 (Stata Corporation, College Station, TX). We checked final models for the assumptions of linear regression and model fit using influence diagnostic procedures, examination of residuals, and residual-residual plots. Results Study subjects were 66.0% female, 41.4% non-Hispanic black/African American, and 53.9% non-Hispanic white or white/Native American and had a mean (range) age of 59.3 (49-71) years. The mean [+ or -] SD blood lead and homocysteine levels were 3.5 [+ or -] 2.4 [micro]g/dL and 10.0 (4.1) [micro]mol/L, respectively (Table 1). Subjects had a wide range of educational levels, smoking habits, and alcohol habits; in unadjusted analysis, these were differentially associated with blood lead and homocysteine levels, evaluated in quartiles (Tables 1 and 2). Using blood lead and homocysteine as continuous measures, in unadjusted analysis, these were moderately correlated, with Pearson's r = 0.27 (p < 0.01). Blood lead and tibia lead levels were only modestly correlated [Pearson's r = 0.11, for the log transformed data (Figure 1), and r = 0.12 for the untransformed data; both p-values < 0.01]. [FIGURE 1 OMITTED] We next used multiple linear regression to evaluate predictors of homocysteine levels, controlling for covariates (Table 3, Figure 2). Controlling for age, sex, race/ethnicity, smoking habits, alcohol habits, and educational level, the results revealed that an increase of 1.0 [micro]g/dL in blood lead was associated with an increase of 0.35 [micro]mol/L in homocysteine levels (Figure 2; in the figure, but not the regression model, three large values for blood lead are removed so that the portion of the plot with the most data could be better visualized). Because sex was strongly associated with both homocysteine and lead levels, separate models were next repeated in men and women (Table 3). The association was larger in males, with a 1.0-[micro]g/dL increase in blood lead resulting in a 0.43-[micro]mol/L increase in homocysteine, compared with a 0.24-[micro]mol/L increase for females, but this difference did not achieve statistical significance. Finally, there was no effect modification by sex or race/ethnicity on relations on blood lead and homocysteine levels (data not shown). Tibia lead was not associated with homocysteine levels, and addition of tibia lead to the models with blood lead did not change model fit or other coefficients. [FIGURE 2 OMITTED] To evaluate whether time of day influenced homocysteine levels, homocysteine was grouped in consecutive 2-hr intervals based on time of phlebotomy Phlebotomy Definition Phlebotomy is the act of drawing or removing blood from the circulatory system through a cut (incision) or puncture in order to obtain a sample for analysis and diagnosis. . Control for time of day in the final regression model did not appreciably alter the association of blood lead and homocysteine levels. Additionally, because the first 254 subjects provided plasma, these subjects had blood redrawn at the second study visit to obtain serum. There was no difference in the mean homocysteine levels based on when the sample was obtained, and associations of blood lead with homocysteine did not vary by visit number. Discussion To our knowledge, this is the first study to examine relations of blood lead and tibia lead with homocysteine levels. We observed a significant association between blood lead and homocysteine in an older, community-dwelling, adult, population-based sample in a major U.S. urban area after controlling for age, sex, race/ethnicity, alcohol intake, cigarette smoking, educational level, and BMI. As previously observed, sex, age, and smoking a pack or more per day were predictors of homocysteine levels (Jacques et al. 2001). Blood lead may influence homocysteine levels at very low dose levels (Figure 2). Among study subjects, blood lead levels were generally < 15 [micro]g/dL, as expected in the general population. The study thus provides evidence of an association at low blood lead levels, but we were unable to characterize the association at higher blood lead levels. Although tibia lead was modestly associated with blood lead levels, it was neither a predictor of homocysteine levels nor a confounder con·found tr.v. con·found·ed, con·found·ing, con·founds 1. To cause to become confused or perplexed. See Synonyms at puzzle. 2. of its relation with blood lead. Tibia lead levels were obtained at the second study visit. Subjects who did not complete the second study visit were more likely to be African American (52.4 vs. 40.4%) and were slightly younger (58.5 vs. 59.4 years of age) compared with subjects who completed the visit, but there was no difference in blood lead levels. We do not believe these small differences account for the contrasting associations of blood and tibia lead levels with homocysteine. Tibia lead, a measure of cortical bone cortical bone n. See cortical substance. lead, is generally a less important source of blood lead levels than is lead in trabecular bone trabecular bone n. See spongy bone. , but is a good estimate of cumulative lead dose (Hu et al. 1998). The data suggest that bioavailable lead (i.e., blood lead) was a more important predictor of homocysteine levels than was cumulative lead dose (i.e., tibia lead). Lead and homocysteine are both associated with an increased risk of cardiovascular disease and, possibly through vascular system mechanisms, central nervous system disease. In epidemiologic studies epidemiologic study A study that compares 2 groups of people who are alike except for one factor, such as exposure to a chemical or the presence of a health effect; the investigators try to determine if any factor is associated with the health effect of central nervous system disease and cardiovascular outcomes, it is interesting to note that study results for lead parallel those for homocysteine. For example, in an occupational cohort of men with previous lead exposure (on average 18 years prior), the systolic blood pressure Systolic blood pressure Blood pressure when the heart contracts (beats). Mentioned in: Hypertension increased on average 0.64 mm Hg (SE = 0.25) for every SD increase in blood lead at baseline (Glenn et al. 2003). In a recent meta-analysis using data from 30 prospective or retrospective studies retrospective study, a study in which a search is made for a relationship between one phenomenon or condition and another that occurred in the past (e.g. , a 25% lower homocysteine level (~ 3 [micro]mol/L) was associated with an approximately 11% [odds ratio (OR) = 0.89; 95% confidence interval confidence interval, n a statistical device used to determine the range within which an acceptable datum would fall. Confidence intervals are usually expressed in percentages, typically 95% or 99%. (CI), 0.83-0.96] lower ischemic heart disease Ischemic heart disease Insufficient blood supply to the heart muscle (myocardium). Mentioned in: Myocarditis ischemic heart disease risk and a 19% (OR = 0.81; 95% CI, 0.69-0.95) lower stroke risk (Homocysteine Collaboration 2002). Another meta-analysis of 20 prospective studies found that for an increase in serum homocysteine of 5 [micro]mol/L, the OR for ischemic heart disease was increased (OR = 1.32; 95% CI, 1.19-1.45), as was the OR for stroke (OR = 1.59; 95% CI, 1.29-1.96) (Wald et al. 2002). Other studies support the similarities between the cardiovascular effects of lead and homocysteine (Bautista et al. 2002; Cheng et al. 2001; Kopp et al. 1988; Moller and Kristensen 1992; Nash et al. 2003; Pocock et al. 1988). Both lead and homocysteine also have similar associations with central nervous system outcomes [Agency for Toxic Substances and Disease Registry The United States Agency for Toxic Substances and Disease Registry, (ATSDR) is an agency for the U.S. Department of Health and Human Services that is directed by a congressional mandate to perform specific functions concerning the effect on public health of hazardous (ATSDR ATSDR Agency for Toxic Substances & Disease Registry ) 1999; Balbus-Kornfeld et al. 1995; Dufouil et al. 2003; Prins et al. 2002; Ravaglia et al. 2003; Schwartz et al. 2000, 2001]. There are suggestions that cognitive function is negatively affected by elevated levels of either lead or homocysteine. In a population-based study of 1,077 subjects, neurobehavioral test outcomes were lower in the upper quintile quin·tile n. 1. The astrological aspect of planets distant from each other by 72° or one fifth of the zodiac. 2. Statistics The portion of a frequency distribution containing one fifth of the total sample. of homocysteine levels compared with the lower four quintiles Quintiles Transnational Corp. is a contract research organization which serves the pharmaceutical, biotechnology and healthcare industries. History Quintiles was founded in 1982 by Dennis Gillings and as of 2007 it has 18,000 employees. (Prins et al. 2002). The mean [+ or -] SD homocysteine level of this population was 11.5 [+ or -] 4.1 [micro]mol/L, with the medians of the quintiles being 7.57, 9.12, 10.54, 12.47, and 16.34 [micro]mol/L, respectively. Comparison of the mean adjusted difference in test scores for subjects in the homocysteine upper quintile versus lower quintiles (looked at dichotomously di·chot·o·mous adj. 1. Divided or dividing into two parts or classifications. 2. Characterized by dichotomy. di·chot ) revealed a decrement To subtract a number from another number. Decrementing a counter means to subtract 1 or some other number from its current value. in psychomotor psychomotor /psy·cho·mo·tor/ (si?ko-mo´ter) pertaining to motor effects of cerebral or psychic activity. psy·cho·mo·tor adj. 1. speed (-0.26; 95% CI, -0.37-0.14), memory function (-0.13; 95% CI, -0.27-0.01), and global cognitive function (-0.20; 95% CI, -0.30-0.11). In a longitudinal study of 1,241 subjects (61-73 years of age), homocysteine levels > 15 [micro]mol/L conferred 2.8 greater odds (p < 0.05) of cognitive decline compared with those subjects whose levels were < 10 [micro]mol/L (mean homocysteine level in this study was 12.2 [micro]mol/L) (Dufouil et al. 2003). For lead, two recent longitudinal studies longitudinal studies, n.pl the epidemiologic studies that record data from a respresentative sample at repeated intervals over an extended span of time rather than at a single or limited number over a short period. of occupational cohorts with current and/or past lead exposure were associated with longitudinal decline in cognitive function (Schwartz et al. 2000, in press). One of the studies consisted of former organolead workers (mean age, 55.6 years) and used an extensive neurobehavioral test batten bat·ten 1 v. bat·tened, bat·ten·ing, bat·tens v.intr. 1. To become fat. 2. , (Schwartz et al. 2000). In this study, an increase of 15.7 [micro]g/g of peak tibia lead (using back-extrapolation, the estimated tibia lead level at the end of employment in lead) was equivalent in its effects on annual test decline to 5 more years of age at baseline for six neurobehavioral tests of verbal memory and learning, executive abilities, and manual dexterity. Although blood lead, but not tibia lead, was associated with homocysteine levels, in this cross-sectional study we cannot be certain whether this means that recent lead exposure, mobilization of lead from bone, or both, are the likely source of lead that explains the association. With the growing evidence that lead may cause progressive elevations in blood pressure and declines in cognitive function over time (Glenn et al. 2003; Schwartz et al. 2000, 2001, in press), this newly observed association between lead and homocysteine may offer new possibilities for preventive intervention. Several targets that lead could be acting upon could explain this association. Lead can interact with proteins, particularly those with a sulfhydryl group (Goering 1993). An example of this occurrence is the inhibition of the [delta]-aminolevulinic acid dehydratase dehydratase /de·hy·dra·tase/ (de-hi´drah-tas) a common name for a hydro-lyase. de·hy·dra·tase n. (ALAD ALAD d-aminolevulinic acid dehydratase. ) enzyme in the heine-synthesis pathway. ALAD is an octameric metalloenzyme that contains zinc in the activated state (Simons 1995). The active site for zinc binding contains two cysteine cysteine (sĭs`tēn), organic compound, one of the 20 amino acids commonly found in animal proteins. Only the l-stereoisomer participates in the biosynthesis of mammalian protein. residues. There is competitive inhibition competitive inhibition n. Blockage of the action of an enzyme on its substrate by replacement of the substrate with a similar but inactive compound that can combine with the active site of the enzyme but that is not acted upon or split by the enzyme. between lead and zinc, with the ratio of the affinity of lead to zinc at the metal-binding site being about 25:1 for the 1-1 ALAD phenotype phenotype (fē`nətīp'): see genetics. phenotype All the observable characteristics of an organism, such as shape, size, colour, and behaviour, that result from the interaction of its genotype (total genetic makeup) with (Simons 1995). Such sulfhydryl binding by lead could be one mechanism that could account for the observed lead--homocysteine relation. In the metabolism of methionine methionine (mĕthī`ənēn), organic compound, one of the 20 amino acids commonly found in animal proteins. Only the L-stereoisomer appears in mammalian protein. , homocysteine can be remethylated by two different pathways or undergo transsulferation to cysteine (Ueland and Refsum 1989). In the transsulferation pathway there is a unique heme-containing enzyme, cystathionine [beta]-synthase, that catalyses a pyridoxal pyridoxal /pyr·i·dox·al/ (pir?i-dok´sal) a form of vitamin B6. pyridoxal phosphate the prosthetic group of many enzymes involved in amino acid transformations. 5'-phosphate-dependent condensation of serine serine (sĕr`ēn), organic compound, one of the 20 amino acids commonly found in animal proteins. Only the l-stereoisomer appears in mammalian protein. and homocysteine to give cystathionine (Banerjee et al. 2003). Work in the elucidation of the structure of cystathionine [beta]-synthase has revealed two sulfhydryl groups contained within the heine-binding site (Meier et al. 2001). Furthermore, homocysteine itself contains a sulfhydryl group, so if lead has an affinity for this sulfhydryl group, the metabolism of homocysteine could be directly inhibited, leading to an accumulation of homocysteine. It has been unclear whether homocysteine is a causative caus·a·tive adj. 1. Functioning as an agent or cause. 2. Expressing causation. Used of a verb or verbal affix. caus agent or only a marker of disease. In 1962, homocystinuria in mentally retarded Noun 1. mentally retarded - people collectively who are mentally retarded; "he started a school for the retarded" developmentally challenged, retarded children was discovered as an inborn error of metabolism inborn error of metabolism n. Any of a group of congenital disorders caused by an inherited defect in a single specific enzyme that results in a disruption or abnormality in a specific metabolic pathway. (Carson and Neill 1962; Gerritsen et al. 1962). In 1964, cystathionine [beta]-synthetase deficiency was demonstrated as a cause of this disorder (Mudd et al. 1964). The natural history of cystathionine [beta]-synthetase deficiency includes a 50% chance of a vascular event (stroke, myocardial infarction myocardial infarction: see under infarction. , peripheral arterial or venous thrombosis thrombosis (thrŏmbō`sĭs), obstruction of an artery or vein by a blood clot (thrombus). Arterial thrombosis is generally more serious because the supply of oxygen and nutrition to an area of the body is halted. ) by 30 years of age (Yap 2003). Recent experimental evidence suggests homocysteine to be a causal agent Noun 1. causal agent - any entity that produces an effect or is responsible for events or results causal agency, cause physical entity - an entity that has physical existence . Experimentation has shown isolated hyperhomocysteinemia to be atherogenic ath·er·o·gen·ic adj. Initiating, increasing, or accelerating atherogenesis. atherogenic adjective Referring to the ability to initiate or accelerate atherogenesis—the deposition of atheromas, lipids, and in cystathionine [beta]-synthetase and apolipoprotein-E double knock-out mice (Wang et al. 2003). Additionally, homocysteine has been shown to stimulate the expression and secretion of biologically active monocyte monocyte /mono·cyte/ (mon´o-sit) a mononuclear, phagocytic leukocyte, 13µ to 25µ in diameter, with an ovoid or kidney-shaped nucleus, and azurophilic cytoplasmic granules. chemoattractant chemoattractant /che·mo·at·trac·tant/ (ke?mo-ah-trak´tant) a chemotactic agent that induces an organism or a cell (e.g., a leukocyte) to migrate toward it. protein-1 (MCP-1) and interleukin-8 (IL-8) in human monocytes monocytes, n.pl the largest of the white blood cells. They have one nucleus and a large amount of grayish-blue cytoplasm. Develop into macrophages and both consume foreign material and alert T cells to its presence. (Zeng et al. 2003), two chemokines that are thought to be important to the development of atherosclerotic plaques. In conclusion, blood lead was found to be associated with homocysteine levels in a large, general population sample. Although causality causality, in philosophy, the relationship between cause and effect. A distinction is often made between a cause that produces something new (e.g., a moth from a caterpillar) and one that produces a change in an existing substance (e.g. cannot be determined from 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. , it is interesting to consider the possibility that this relation of lead and homocysteine could explain one of the mechanisms of the influence of lead on the central nervous and cardiovascular systems. Whether lead elevates homocysteine through enzyme inhibition Enzyme inhibition The prevention of an enzymic process as a result of the interaction of some substance with an enzyme so as to decrease the rate of the enzymic reaction. The substance causing such an effect is termed an inhibitor. , as earlier suggested, or conversely, whether homocysteine elevates lead because of intravascular intravascular /in·tra·vas·cu·lar/ (in?trah-vas´ku-lar) within a vessel. in·tra·vas·cu·lar adj. Within one or more blood vessels. binding [homocysteine has a structure similar to dimercaptosuccinic acid Dimercaptosuccinic acid, or DMSA, is the chemical compound with the formula HO2CCH(SH)CH(SH)CO2H. This colourless solid contains two carboxylic acid and two thiol groups, the latter being responsible for the mildly unpleasant odour of this dicarboxylic acid. (DMSA DMSA dimercaptosuccinic acid. ) and penicillamine penicillamine /pen·i·cil·la·mine/ (pen?i-sil´ah-men) a degradation product of penicillin that chelates certain heavy metals and also binds cystine and promotes its excretion; used in the treatment of Wilson's disease, cystinuria, , compounds that are known to bind lead], it is evident that the association exists at very low blood lead levels, and if the former mechanism is operative, supports a biologic effect of lead at low levels. This knowledge may offer new targets for prevention of the progressive health effects of lead. Address correspondence to B.S. Schwartz, Johns Hopkins Bloomberg School of Public Health, Division of Occupational and Environmental Health, 615 North Wolfe St., Room W7041, Baltimore, MD 21205 USA. Telephone: (410) 955-4130. Fax: (410) 955-1811. E-mail: bschwart@jhsph.edu. This work was supported by R01 AG19604 (B.S.S.). The authors declare they have no competing financial interests. Received 30 June 2004; accepted September 7 2004. REFERENCES ATSDR. 1999. Toxicologic Profile for Lead (Update). Atlanta, GA:Agency for Toxic Substances and Disease Registry. Balbus-Kornfeld JM, Stewart W, Bolla KI, Schwartz BS. 1995. Cumulative exposure to inorganic lead and neurobehavioural test performance in adults: an epidemiological review. Occup Environ Med 52:2-12. Banerjee R, Evande R, Kabil O, Ojha S, Taoka S. 2003. Reaction mechanism and regulation of cystathionine beta-synthase. Biochim Biophys Acta 1647:30-35. Bautista LE, Arenas IA, Penuela A, Martinez LX. 2002. Total plasma homocysteino level and risk of cardiovascular disease: a meta-analysis of prospective cohort studies. J Clin Epidemiol 55:882-887. Canfield RL, Henderson CR Jr, Cory-Slechta DA, Cox C, Jusko TA, Lanphear BP. 2003. Intellectual impairment in children with blood lead concentrations below 10 microg per deciliter deciliter /dec·i·li·ter/ (dL) (des´i-le?ter) one tenth (10minus;1) of a liter; 100 milliliters. Deciliter (dL) 100 cubic centimeters (cc). Mentioned in: Hypercholesterolemia . N Engl J Med 348:1517-1526. Carson N, Neill D. 1962. Metabolic abnormalities detected in a survey of mentally backward individuals in Northern Ireland Northern Ireland: see Ireland, Northern. Northern Ireland Part of the United Kingdom of Great Britain and Northern Ireland occupying the northeastern portion of the island of Ireland. Area: 5,461 sq mi (14,144 sq km). Population (2001): 1,685,267. . Arch Dis Childhood 37:505-513. Cheng Y, Schwartz J, Sparrow D, Aro A, Weiss ST, Hu H. 2001. Bone lead and blood lead levels in relation to baseline blood pressure and the prospective development of hypertension: the Normative Aging Study. Am J Epidemiol 153:164-171. Cleveland WS. 1979. Robust locally weighted regression The introduction to this article provides insufficient context for those unfamiliar with the subject matter. Please help [ improve the introduction] to meet Wikipedia's layout standards. You can discuss the issue on the talk page. and smoothing scatterplots. J Am Stat Assoc 74:829-836. Dufouil C, Alperovitch A, Ducros V, Tzourio C. 2003. Homocysteine, white matter hyperintensities, and cognition in healthy elderly people. Ann Neurol 53:214-221. Gerritsen T, Vaughn JG, Waisman HA. 1962. The identification of homocysteine in the urine. Biochem Biophys Res Commun 9:493-496. Glenn BS, Stewart WF, Links JM, Todd AC, Schwartz BS. 2003. The longitudinal association of lead with blood pressure. Epidemiology 14:30-36. Goering PL. 1993. Lead-protein interactions as a basis for lead toxicity. Neurotoxicology 14:45-60. Homocysteine Collaboration. 2002. Homocysteine and risk of ischemic heart disease and stroke: a meta-analysis. JAMA JAMA abbr. Journal of the American Medical Association 288:2015-2022. Hu H, Rabinowitz M, Smith D. 1998. Bone lead as a biological marker in epidemiologic studies of chronic toxicity chronic toxicity Toxicology A condition caused by repeated or long-term exposure to low doses of a toxic substance : conceptual paradigms. Environ Health Perspect 106:1-8. Jacques PF, Bostom AG, Wilson PW, Rich S, Rosenberg IH, Selhub J. 2001. Determinants of plasma total homocysteine concentration in the Framingham offspring cohort. Am J Clin Nutr 73:613-621. Kopp SJ, Barren JT, Tow JP. 1988. Cardiovascular actions of lead and relationship to hypertension: a review. Environ Health Perspect 78:91-99. Lustberg M, Silbergeld E. 2002. Blood lead levels and mortality. Arch Intern intern /in·tern/ (in´tern) a medical graduate serving in a hospital preparatory to being licensed to practice medicine. in·tern or in·terne n. Med 162:2443-2449. Meier M, Janosik M, Kery V, Kraus JP, Burkhard P. 2001. Structure of human cystathionine beta-synthase: a unique pyridoxal 5'-phosphate-dependent heme protein. EMBO J 20:3910-3916. Moller L, Kristensen T. 1992. Blood lead as a cardiovascular risk factor. Am J Epidemiol 136:1091-1100. Mudd S, Finklestein J, Irreverre F, Laster L. 1964. Homocystinuria: an enzymatic defect. Science 143:1443-1445. Nash D, Lustberg M, Sherwin RW, Rubin RJ, Kaufmann R, Silbergeld E. 2003. Blood lead, blood pressure, and hypertension in 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. and 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 women. JAMA 289:1523-1532. Nriagu JO. 1983. Lead and Lead Poisoning lead poisoning or plumbism (plŭm`bĭz'əm), intoxication of the system by organic compounds containing lead. in Antiquity. 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 :John Wiley John Wiley may refer to:
Pocock S, Shaper A, Ashby D, Delves H, Clayton B. 1988. The relationship between blood lead, blood pressure, stroke, and heart attacks in middle-aged British men. Environ Health Perspect 78:23-30. Prins ND, Den Heijer T, Hofman A, Koudstaal PJ, Jolles J, Clarke R, et al. 2002. Homocysteine and cognitive function in the elderly: the Rotterdam Scan Study. Neurology 59:1375-1380. Ravaglia G, Forti P, Maioli F, Muscari A, Sacchetti L, Arnone G, et al. 2003. Homocysteine and cognitive function in healthy elderly community dwellers in Italy. Am J Clin Nutr 77:688-673. Rodrigo R, Passalacqua W, Araya J, Orellana M, Rivera G. 2003. Implications of oxidative stress and homocysteine in the pathophysiology pathophysiology /patho·phys·i·ol·o·gy/ (-fiz?e-ol´ah-je) the physiology of disordered function. path·o·phys·i·ol·o·gy n. 1. of essential hypertension essential hypertension n. Hypertension without known cause or preexisting renal disease. essential hypertension . J Cardiovasc Pharmacol 42:453-461. Schwartz BS, Glass T, Bolla K, Glass G, Stewart W, Todd A, et al. 2004. Disparities in cognitive functioning by race/ethnicity in the Baltimore Memory Study. Environ Health Perspect 112:314-320. Schwartz BS, Lee B, Bandeen-Roche K, Stewart W, Bolla K, Links J, et al. In press. Lead dose is associated with longitudinal decline in neurobehavioral test scores in South Korean lead workers. Epidemiology. Schwartz BS, Lee BK, Lee GS, Stewart WF, Lee SS, Hwang KY, et al. 2001. Associations of blood lead, dimercaptosuccinic acid-chelatable lead, and tibia lead with neurobehavioral test scores in South Korean lead workers. Am J Epidemiol 153:453-464. Schwartz BS, Stewart WF, Bolla KI, Simon PD, Bandeen-Roche K, Gordon PB, et al. 2000. Past adult lead exposure is associated with longitudinal decline in cognitive function. Neurology 55:1144-1150. Schwartz BS, Stewart W, Hu H. 2002. Neurobehavioural testing in workers occupationally exposed to lead. Occup Environ Med 59:648-649. Simons TJ. 1995. The affinity of human erythrocyte erythrocyte (ĭrĭth`rəsīt'): see blood. erythrocyte or red blood cell or red blood corpuscle Blood cell that carries oxygen from the lungs to the body tissues. porphobilinogen synthase porphobilinogen synthase see aminolevulinate dehydratase. for Zn2+ and Pb2+. Eur J Biochem 234:178-183. Todd AC. 2000. Contamination of in vivo in vivo /in vi·vo/ (ve´vo) [L.] within the living body. in vi·vo adj. Within a living organism. in vivo adv. bone-lead measurements. Phys Med Biol 45:229-240. Todd AC, Carroll S, Godbold JH, Moshier EL, Khan FA. 2000. Variability in XRF-measured tibia lead levels. Phys Med Biol 45:3737-3748. Todd AC, McNeill FE. 1993. In vivo measurements of lead in bone using a [sup.109]Cd spot source. Basic Life Sci 60:299-302. Todd AC, McNeill FE, Palethorpe JE, Peach DE, Chettle DR, Tobin M J, et al. 1992. In vivo X-ray fluorescence of lead in bone using K x-ray excitation excitation Addition of a discrete amount of energy to a system that changes it usually from a state of lowest energy (ground state) to one of higher energy (excited state). For example, in a hydrogen atom, an excitation energy of 10. with [sup.109]Cd sources: radiation dosimetry dosimetry /do·sim·e·try/ (do-sim´e-tre) scientific determination of amount, rate, and distribution of radiation emitted from a source of ionizing radiation, in biological d. studies. Environ Res 57:117-132. Ueland PM, Refsum H. 1989. Plasma homocysteine, a risk factor for vascular disease: plasma levels in health, disease, and drug therapy. J Lab Clin Med 114:473-501. Wald DS, Law M, Morris JK. 2002. Homocysteine and cardiovascular disease: evidence on causality from a meta-analysis. Br Med J 325:1202-1206. Wang H, Jiang X, Yang F, Gaubatz JW, Ma L, Magera MJ, et al. 2003. Hyperhomocysteinemia accelerates atherosclerosis atherosclerosis (ăth'ərōsklərō`sĭs): see arteriosclerosis. atherosclerosis or hardening of the arteries in cystathionine beta-synthase and apolipoprotein E apolipoprotein E A 34-kD cholesterol-binding glycoprotein, which comprises 15% of VLDL; apoE maps to chromosome 19, is secreted by macrophages that mediate the uptake of lipoproteins–VLDL, HDL, LDL and cholesterol esters into cells via distinct binding double knock-out mice with and without dietary perturbation perturbation (pŭr'tərbā`shən), in astronomy and physics, small force or other influence that modifies the otherwise simple motion of some object. The term is also used for the effect produced by the perturbation, e.g. . Blood 101:3901-3907. Yap S. 2003. Classical homecystinuria: vascular risk and its prevention. J Inherit Metab Dis 26:259-265. Zeng X, Dai J, Remick DG, Wang X. 2003. Homocysteine mediated expression and secretion of monocyte chemoattractant protein-1 and interleukin-8 in human monocytes. Circ Res 93:311-320. Jyme H. Schafer, (1,2) Thomas A. Glass, (3) Joseph Bressler, (4,5,6) Andrew C. Todd, (7) and Brian S. Schwartz (1,2,3) (1) Department of Environmental Health Sciences, Division of Occupational and Environmental Health, Johns Hopkins University Johns Hopkins University, mainly at Baltimore, Md. Johns Hopkins in 1867 had a group of his associates incorporated as the trustees of a university and a hospital, endowing each with $3.5 million. Daniel C. Bloomberg School of Public Health, Baltimore, Maryland, USA; (2) Department of Medicine, Johns Hopkins University, Baltimore, Maryland, USA; (3) Department of Epidemiology, Johns Hopkins University Bloomberg School of Public Health, Baltimore, Maryland, USA; (4) Department of Environmental Health Sciences, Division of Toxicological Sciences, Johns Hopkins University Bloomberg School of Public Health, Baltimore, Maryland, USA; (5) Department of Neurology, Johns Hopkins University, Baltimore, Maryland, USA; (6) Department of Neurotoxicology, Kennedy Krieger Institute, Baltimore, Maryland, USA; (7) 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, USA
Table 1. Demographic characteristics for the inclusive study population
and lead quartile subsets, Baltimore Memory Study, 2001-2002.
Blood lead quartile
Total Quartile 1
Characteristic (n = 1,037) (n = 241)
Blood lead level [mean (range)
[micro]g/dL] 3.5 (0.1-27.3) 1.1 (0.1-1.9)
Homocysteine [mean [+ or -]
SD ([micro]mol/L)] 10.0 [+ or -] 4.1 9.2 [+ or -] 3.4
Age [mean [+ or -] SD (years)] 59.3 [+ or -] 5.9 59.3 [+ or -] 5.9
Sex (% female) 66.0 83.0
Race/ethnicity (%)
Non-Hispanic black/African
American 41.4 44.4
Non-Hispanic white or white/
Native American 53.9 49.4
African American mixed race/
ethnicity 2.7 2.9
Asian, Hawaiian, Native
American, or other 2.0 3.3
BMI [mean [+ or -]
SD (kg/[m.sup.2])] 29.8 [+ or -] 6.9 31.5 [+ or -] 7.8
Current cigarette use (%)
None 79.8 85.9
< Half pack per day 5.6 3.7
Half pack to < 1 pack per day 7.6 4.2
[greater than or equal to]
1 pack per day 7.0 6.2
Alcoholic beverage use (%)
None 40.6 49.9
< 4 per month 15.1 17.4
4-8 per month 12.8 11.2
> 8 per month 31.5 21.6
Education level (%)
< High school or trade school 10.2 10.4
Completed high school or
trade school 41.7 41.5
Some college or associate
degree 5.9 6.2
[greater than or equal to]
College degree 42.2 41.9
Blood lead quartile
Quartile 2 Quartile 3
Characteristic (n = 271) (n = 262)
Blood lead level [mean (range)
[micro]g/dL] 2.5 (2.0-3.0) 3.8 (3.1-4.4)
Homocysteine [mean [+ or -]
SD ([micro]mol/L)] 9.3 [+ or -] 3.5 9.7 [+ or -] 3.6
Age [mean [+ or -] SD (years)] 59.3 [+ or -] 5.8 59.0 [+ or -] 5.9
Sex (% female) 72.3 63.7
Race/ethnicity (%)
Non-Hispanic black/African
American 39.9 38.9
Non-Hispanic white or white/
Native American 55.7 56.1
African American mixed race/
ethnicity 3.0 3.1
Asian, Hawaiian, Native
American, or other 1.4 1.9
BMI [mean [+ or -]
SD (kg/[m.sup.2])] 30.7 [+ or -] 7.2 28.8 [+ or -] 6.4
Current cigarette use (%)
None 80.8 82.4
< Half pack per day 7.8 3.5
Half pack to < 1 pack per day 5.9 8.0
[greater than or equal to]
1 pack per day 5.5 6.1
Alcoholic beverage use (%)
None 43.9 38.5
< 4 per month 15.9 13.4
4-8 per month 15.1 14.5
> 8 per month 25.1 33.6
Education level (%)
< High school or trade school 9.2 8.4
Completed high school or
trade school 43.2 41.2
Some college or associate
degree 6.3 6.1
[greater than or equal to]
College degree 41.3 44.3
Blood lead
quartile
Quartile 4
Characteristic (n = 263) p-Value (a)
Blood lead level [mean (range)
[micro]g/dL] 6.5 (4.5-27.3)
Homocysteine [mean [+ or -]
SD ([micro]mol/L)] 11.7 [+ or -] 5.1 <0.001
Age [mean [+ or -] SD (years)] 59.8 [+ or -] 6.2 0.52
Sex (% female) 46.0 <0.001
Race/ethnicity (%) 0.73
Non-Hispanic black/African
American 42.6
Non-Hispanic white or white/
Native American 54.0
African American mixed race/
ethnicity 1.9
Asian, Hawaiian, Native
American, or other 1.5
BMI [mean [+ or -]
SD (kg/[m.sup.2])] 28.3 [+ or -] 5.4 <0.001
Current cigarette use (%) 0.008
None 70.7
< Half pack per day 7.2
Half pack to < 1 pack per day 12.2
[greater than or equal to]
1 pack per day 9.9
Alcoholic beverage use (%) <0.001
None 30.8
< 4 per month 13.7
4-8 per month 10.3
> 8 per month 45.2
Education level (%) 0.9
< High school or trade school 12.9
Completed high school or
trade school 40.7
Some college or associate
degree 4.9
[greater than or equal to]
College degree 41.5
(a) p-Value from chi-square test far categorical variables or for
continuous variables analysis of variance F-test for linear trend
across quartiles.
Table 2. Demographic characteristics of study subjects by homocysteine
quartiles, Baltimore Memory Study, 2001-2002.
Homocysteine
quartile
Quartile 1
Characteristic (n = 245)
Homocysteine [mean (range) [micro]mol/L] 6.6 (4.4-7.5)
Blood lead level [mean [+ or -] SD ([micro]g/dL)] 2.8 [+ or -] 1.6
Age [mean [+ or -] SD (years)] 57.9 [+ or -] 5.5
Sex (% female) 87.8
Race/ethnicity (%)
Non-Hispanic black/African American 39.2
Non-Hispanic white or white/Native American 51.8
African American/mixed race/ethnicity 5.7
Asian, Hawaiian, Native American or other 3.3
BMI [mean [+ or -] SD (kg/[m.sup.2])] 29.2 [+ or -] 6.6
Current cigarette use (%)
None 84.5
< Half pack per day 6.1
Half pack to less than 1 pack per day 5.3
[greater than or equal to] 1 pack per day 4.1
Alcoholic beverage use (%)
None 44.5
< 4 per month 15.9
4-8 per month 18.0
> 8 per month 21.6
Education level (%)
< High school or trade school 10.2
Completed high school or trade school 39.6
Some college or associates degree 6.5
[greater than or equal to] College degree 43.7
Homocysteine
quartile
Quartile 2
Characteristic (n = 269)
Homocysteine [mean (range) [micro]mol/L] 8.3 (7.6-9.0)
Blood lead level [mean [+ or -] SD ([micro]g/dL)] 3.2 [+ or -] 2.4
Age [mean [+ or -] SD (years)] 59.1 [+ or -] 5.8
Sex (% female) 69.1
Race/ethnicity (%)
Non-Hispanic black/African American 36.1
Non-Hispanic white or white/Native American 62.4
African American/mixed race/ethnicity 0.4
Asian, Hawaiian, Native American or other 1.1
BMI [mean [+ or -] SD (kg/[m.sup.2])] 29.6 [+ or -] 7.0
Current cigarette use (%)
None 85.1
< Half pack per day 4.5
Half pack to less than 1 pack per day 5.6
[greater than or equal to] 1 pack per day 4.8
Alcoholic beverage use (%)
None 39.0
< 4 per month 15.6
4-8 per month 13.0
> 8 per month 32.4
Education level (%)
< High school or trade school 7.1
Completed high school or trade school 37.2
Some college or associates degree 3.7
[greater than or equal to] College degree 52.0
Homocysteine
quartile
Quartile 3
Characteristic (n = 259)
Homocysteine [mean (range) [micro]mol/L] 10.0 (9.1-11.2)
Blood lead level [mean [+ or -] SD ([micro]g/dL)] 3.7 [+ or -] 2.1
Age [mean [+ or -] SD (years)] 60.0 [+ or -] 6.0
Sex (% female) 59.5
Race/ethnicity (%)
Non-Hispanic black/African American 42.9
Non-Hispanic white or white/Native American 53.6
African American/mixed race/ethnicity 2.7
Asian, Hawaiian, Native American or other 0.8
BMI [mean [+ or -] SD (kg/[m.sup.2])] 30.2 [+ or -] 6.8
Current cigarette use (%)
None 79.1
< Half pack per day 4.2
Half pack to less than 1 pack per day 9.7
[greater than or equal to] 1 pack per day 7.0
Alcoholic beverage use (%)
None 40.9
< 4 per month 14.7
4-8 per month 12.0
> 8 per month 32.4
Education level (%)
< High school or trade school 10.4
Completed high school or trade school 40.9
Some college or associates degree 8.1
[greater than or equal to] College degree 40.6
Homocysteine
quartile
Quartile 4
Characteristic (n = 264)
Homocysteine [mean (range) [micro]mol/L] 15.0 (11.3-48.6)
Blood lead level [mean [+ or -] SD ([micro]g/dL)] 4.4 [+ or -] 2.8
Age [mean [+ or -] SD (years)] 60.3 [+ or -] 6.2
Sex (% female) 48.9
Race/ethnicity (%)
Non-Hispanic black/African American 47.4
Non-Hispanic white or white/Native American 47.3
African American/mixed race/ethnicity 2.3
Asian, Hawaiian, Native American or other 3.0
BMI [mean [+ or -] SD (kg/[m.sup.2])] 30.2 [+ or -] 7.0
Current cigarette use (%)
None 70.8
< Half pack per day 7.6
Half pack to less than 1 pack per day 9.9
[greater than or equal to] 1 pack per day 11.7
Alcoholic beverage use (%)
None 38.3
< 4 per month 14.0
4-8 per month 8.7
> 8 per month 39.0
Education level (%)
< High school or trade school 13.2
Completed high school or trade school 48.9
Some college or associates degree 5.3
[greater than or equal to] College degree 32.6
Characteristic p-Value (a)
Homocysteine [mean (range) [micro]mol/L]
Blood lead level [mean [+ or -] SD ([micro]g/dL)] <0.001
Age [mean [+ or -] SD (years)] <0.001
Sex (% female) <0.001
Race/ethnicity (%) 0.001
Non-Hispanic black/African American
Non-Hispanic white or white/Native American
African American/mixed race/ethnicity
Asian, Hawaiian, Native American or other
BMI [mean [+ or -] SD (kg/[m.sup.2])] 0.27
Current cigarette use (%) 0.001
None
< Half pack per day
Half pack to less than 1 pack per day
[greater than or equal to] 1 pack per day
Alcoholic beverage use (%) 0.007
None
< 4 per month
4-8 per month
> 8 per month
Education level (%) 0.002
< High school or trade school
Completed high school or trade school
Some college or associates degree
[greater than or equal to] College degree
(a) p-Value from chi-square for categorical variables or for
continuous variables analysis of variance F-test for linear
trend across quartiles.
Table 3. Predictors (a) of homocysteine levels in subjects with
complete data (n = 1,037), Baltimore Memory Study, 2001-2002.
Total (n = 1,037)
[beta] (SE [beta]) p-Value
Blood lead ([micro]g/dL) 0.35 (0.05) <0.001
Age (years) 0.09 (0.02) <0.001
Female -1.46 (0.27) <0.001
BMI (kg/[m.sup.2]) 0.05 (0.02) 0.004
Current cigarette use (b)
< Half pack per day 1.01 (0.53) 0.06
Half pack to < 1 pack per day 1.53 (0.47) 0.001
[greater than or equal to]
1 packs per day 2.29 (0.49) <0.001
Female (n = 684)
[beta] (SE [beta]) p-Value
Blood lead ([micro]g/dL) 0.24 (0.07) 0.001
Age (years) 0.14 (0.02) <0.001
Female -- --
BMI (kg/[m.sup.2]) 0.05 (0.02) 0.02
Current cigarette use (b)
< Half pack per day 0.78 (0.62) 0.20
Half pack to < 1 pack per day 2.05 (0.56) <0.001
[greater than or equal to]
1 packs per day 2.12 (0.60) <0.001
Male (n = 353)
[beta] (SE [beta]) p-Value
Blood lead ([micro]g/dL) 0.43 (0.08) <0.001
Age (years) -0.02 (0.04) 0.61
Female -- --
BMI (kg/[m.sup.2]) 0.09 (0.04) 0.03
Current cigarette use (b)
< Half pack per day 1.30 (0.96) 0.18
Half pack to < 1 pack per day 0.80 (0.84) 0.35
[greater than or equal to]
1 packs per day 2.11 (0.83) 0.01
(a) Adjusted for variables in table as well as race/ethnicity (four
categories), educational level (four categories), and alcohol
consumption (none, < 4 per month, 4-8 per month, > 8 per month).
(b) Reference group is subjects with no current use.
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