Reduced intellectual development in children with prenatal lead exposure.OBJECTIVE: Low-level postnatal postnatal /post·na·tal/ (-na´t'l) occurring after birth, with reference to the newborn. post·na·tal adj. Of or occurring after birth, especially in the period immediately after birth. lead exposure is associated with poor intellectual development in children, although effects of prenatal prenatal /pre·na·tal/ (-na´tal) preceding birth. pre·na·tal adj. Preceding birth. Also called antenatal. prenatal preceding birth. exposure are less well studied. We hypothesized that prenatal lead exposure would have a more powerful and lasting impact on child development than postnatal exposure. DESIGN: We used generalized linear mixed models with random intercept and slope to analyze the pattern of lead effect of the cohort from pregnancy through 10 years of age on child IQ from 6 to 10 years. We statistically evaluated dose-response nonlinearity. PARTICIPANTS: A cohort of 175 children, 150 of whom had complete data for all included covariates, attended the National Institute of Perinatology perinatology /peri·na·tol·o·gy/ (-na-tol´ah-je) the branch of medicine (obstetrics and pediatrics) dealing with the fetus and infant during the perinatal period. per·i·na·tol·o·gy n. 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 from 1987 through 2002. EVALUATIONS/MEASUREMENTS: We used the Wechsler Intelligence Scale for Children--Revised, Spanish version, to measure IQ. Blood lead (BPb) was measured by a reference laboratory of the 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. (CDC See Control Data, century date change and Back Orifice. CDC - Control Data Corporation ) quality assurance program for BPb. RESULTS: Geometric mean (mathematics) geometric mean - The Nth root of the product of N numbers. If each number in a list of numbers was replaced with their geometric mean, then multiplying them all together would still give the same result. BPb during pregnancy was 8.0 [micro]g/dL (range, 1-33 [micro]g/dL), from 1 through 5 years was 9.8 [micro]g/dL (2.8-36.4 [micro]g/dL), and from 6 through 10 years was 6.2 [micro]g/dL (2.2-18.6 [micro]g/dL). IQ at 6-10 years decreased significantly only with increasing natural-log third-trimester BPb ([beta] = -3.90; 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%. , -6.45 to -1.36), controlling for other BPb and covariates. The dose-response BPb-IQ function was log-linear, not linear-linear. CONCLUSIONS: Lead exposure around 28 weeks gestation GESTATION, med. jur. The time during which a female, who has conceived, carries the embryo or foetus in her uterus. By the common consent of mankind, the term of gestation is considered to be ten lunar months, or forty weeks, equal to nine calendar months and a week. is a critical period for later child intellectual development, with lasting and possibly permanent effects. There was no evidence of a threshold; the strongest lead effects on IQ occurred within the first few micrograms of BPb. RELEVANCE TO CLINICAL PRACTICE: Current CDC action limits for children applied to pregnant women permit most lead-associated child IQ decreases measured over the studied BPb range. KEY WORDS: child development, intelligence, lead, prenatal exposure delayed effects. Environ Health Perspect 114:791-797 (2006). doi:10.1289/ehp.8552 available via http://dx.doi.org/ [Online 29 December 2005] ********** Prospective lead studies of child development from the 1980s to date show associations between low blood lead (BPb) concentration and poor neurobehavioral development (Baghurst et al. 1992; Bellinger 1989; Bellinger et al. 1986, 1987, 1994; Bornschein et al. 1985; Dietrich 1991; Dietrich et al. 1987a, 1987b, 1991, 1993a, 1993b; McMichael et al. 1988, 1992; Schnaas et al. 2000; Wasserman et al. 1992, 1994, 1997, 2000a, 2000b), although the focus of most of these studies has been postnatal exposure. Only some studies included measurement of maternal BPb during pregnancy or at delivery (Bornschein et al. 1985; Graziano et al. 1990; Rothenberg et al. 1994). A Yugoslavia study (Wasserman et al. 2000a) used a repeated-measures design and found that increased mid-pregnancy BPb (12-20 weeks) was significantly associated with decreased 3- to 7-year intelligence quotient intelligence quotient n. Abbr. IQ An index of measured intelligence expressed as the ratio of tested mental age to chronological age, multiplied by 100. (IQ) regardless of pattern of postnatal exposure. A Cincinnati, Ohio “Cincinnati” redirects here. For other uses, see Cincinnati (disambiguation). Cincinnati is a city in the U.S. state of Ohio and the county seat of Hamilton County. (USA), study (Ris et al. 2004) showed lasting significant effects of BPb between 6 and 28 weeks on factor scores representing attention and visuoconstruction in adolescents when prenatal BPb was tested without simultaneously considering postnatal BPb exposure history. Ideally, we would like to include the entire history of lead exposure in assessing lasting effects of lead on child development. When the study sample is exposed to relatively constant sources of environmental lead, there is often substantial tracking of BPb over time (Tong tong 1 tr.v. tonged, tong·ing, tongs To seize, hold, or manipulate with tongs. [Back-formation from tongs. et al. 1996; Wasserman et al. 2000a), producing high correlations among serial BPb levels between and within prenatal and postnatal periods. Collinearity collinearity very high correlation between variables. among highly correlated BPb variables in the same linear model will produce biased estimates of lead effect with inflated SEs. On the other hand, piecemeal piecemeal patchy, e.g. necrosis of the liver in which groups of hepatocytes are separated by small groups of inflammatory cells and fine, fibrous septa following extension of the inflammatory process beyond the limiting plate. analysis of lead effects, testing one period of lead exposure at a time, ignores potential effects of earlier or later exposure. Such omission could lead to residual confounding confounding when the effects of two, or more, processes on results cannot be separated, the results are said to be confounded, a cause of bias in disease studies. confounding factor of tested lead effects. The principal lead exposure sources in pregnant women and their children in the Mexico City Prospective Lead Study were air lead and lead from ceramic ware (Schnaas et al. 2004). Air lead decreased continually throughout the 15-year study period because of reduction and elimination of lead in gasoline. Individual exposure to leaded ceramic ware was both idiosyncratic id·i·o·syn·cra·sy n. pl. id·i·o·syn·cra·sies 1. A structural or behavioral characteristic peculiar to an individual or group. 2. A physiological or temperamental peculiarity. 3. and intermittent. Such variable individual lead exposure substantially reduced BPb tracking in this sample and allowed an analysis of the effect of lead exposure from 12 weeks of pregnancy through the first 10 years of life on child intelligence from 6 to 10 years of age. Materials and Methods Subjects. The subjects belonged to a cohort of children born in Mexico City at the National Institute of Perinatology between 1987 and 1992, followed until 2002. The Ethics Committee ethics committee A multidisciplinary hospital body composed of a broad spectrum of personnel–eg, physicians, nurses, social workers, priests, and others, which addresses the moral and ethical issues within the hospital. See DNR, Institutional review board. of the National Institute of Perinatology approved the research protocol. Investigators met with parents, verbally explained the project, and asked them to read the description in the informed consent and to sign if they wished to participate with their child. We recruited women at 12 weeks of pregnancy and measured BPb every 8 weeks to delivery. We also measured BPb from maternal and cord blood cord blood n. Blood present in the umbilical vessels at the time of delivery. at delivery. A total of 321 children born to these women met the following inclusion criteria
Inclusion criteria are a set of conditions that must be met in order to participate in a clinical trial. : child born with at least 36 weeks of gestational age ges·ta·tion·al age n. See estimated gestational age. Gestational age The estimated age of a fetus expressed in weeks, calculated from the first day of the last normal menstrual period. , 5-min Apgar score Ap·gar score n. A system of evaluating a newborn's physical condition by assigning a value (0, 1, or 2) to each of five criteria: heart rate, respiratory effort, muscle tone, response to stimuli, and skin color. [greater than or equal to] 6, birth weight > 2,000 g, without major or minor congenital anomalies congenital anomaly n. See birth defect. or being the product of multiple birth. We evaluated children with psychometric tests psychometric test Any test used to quantify a particular aspect of a person's mental abilities or mindset–eg, aptitude, intelligence, mental abilities and personality. See IQ test, Personality testing, Psychological testing. , anthropometric measurements anthropometric measurements (anˈ·thrō·p , and BPb at 6-month intervals after birth. We collected data on demographic, socioeconomic, and other factors that might constitute potential confounders or important control variables modifying the relationship between lead and child development. Of the 321 infants comprising the original sample, we successfully tested 175 children after 5 years of age. BPb measurements. Venous blood venous blood n. Abbr. v Blood that has passed through the capillaries of various tissues other than the lungs, is found in the veins, in the right chambers of the heart, and in pulmonary arteries, and is usually dark red as a result of a was drawn into purple-top Becton-Dickinson Vacutainers (Franklin Lakes, NJ, USA) with EDTA EDTA: see chelating agents. anticoagulant anticoagulant (ăn'tēkōăg`yələnt), any of several substances that inhibit blood clot formation (see blood clotting). . Environmental Science Associates Laboratories Inc. (Chelmsford, MA, USA) determined BPb in duplicate analysis by 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. Samples with mean duplicate values < 5 [micro]g/dL were reanalyzed via atomic absorption spectrometry Absorption spectrometry A scientific procedure to determine chemical makeup of samples. Mentioned in: Herbalism, Traditional Chinese . Quality control information is provided elsewhere (Rothenberg et al. 1994). The lab is a reference laboratory for the Centers for Disease Control and Prevention (CDC) Blood Lead Laboratory Reference System (Atlanta, GA, USA) and participates in the Commonwealth of Pennsylvania Department of Health Blood Lead Proficiency Testing proficiency test n → prueba de capacitación Program (Exton, PA, USA). BPb during pregnancy was measured every 8 weeks starting at week 12 of pregnancy. We used the geometric mean of lead at 12 and 20 weeks as the lead measure for the second trimester Noun 1. second trimester - time period extending from the 13th to the 27th week of gestation trimester - a period of three months; especially one of the three three-month periods into which human pregnancy is divided of pregnancy and the geometric mean of lead at 28 and 36 weeks as the lead measure for the third trimester Noun 1. third trimester - time period extending from the 28th week of gestation until delivery trimester - a period of three months; especially one of the three three-month periods into which human pregnancy is divided of pregnancy. We calculated geometric mean BPb from biannual bi·an·nu·al adj. 1. Happening twice each year; semiannual. 2. Occurring every two years; biennial. bi·an measurements from 6 months to 5 years and used BPb at each age from 6 to 10 years to measure lead exposure contemporaneous con·tem·po·ra·ne·ous adj. Originating, existing, or happening during the same period of time: the contemporaneous reigns of two monarchs. See Synonyms at contemporary. with each year's IQ measurement. In supplementary models, we also used maternal BPb at each prenatal measurement and postnatal geometric mean yearly BPb from 1 to 5 years. Developmental assessment. We assessed child intelligence under standardized standardized pertaining to data that have been submitted to standardization procedures. standardized morbidity rate see morbidity rate. standardized mortality rate see mortality rate. conditions with the Wechsler Intelligence Scale for Children-Revised (WISC-R WISC-R Weschler Intelligence Scale for Children - Revised ; Spanish version) (Wechsler 1981a), providing a Full-scale IQ (FSIQ FSIQ Full Scale Intelligence Quotient ). The WISC-R has 12 subtests, six of which are used to estimate a Verbal IQ (VIQ VIQ Verbal IQ VIQ Volunteer and Information Quinte (Ontario, Canada) VIQ Very Important Question VIQ Vessel Inspection Questionnaire VIQ Variation in Quantity VIQ Virtualized Input Queue VIQ Values Identification Questionnaire ), and the remaining six a Performance IQ (PIQ PIQ Performance IQ (Intelligence Quotient) PIQ Prefetch Instruction Queue PIQ Property In Question ). Three psychologists unaware of child BPb evaluated IQ. For each child evaluated by a psychologist, the two other psychologists reviewed the test protocols and assigned scores given by the examiner for each test. An analysis of variance with post hoc post hoc adv. & adj. In or of the form of an argument in which one event is asserted to be the cause of a later event simply by virtue of having happened earlier: testing for mean IQ grouped by examining psychologist and child age was used to assess possible psychologist bias. Covariates. We measured maternal IQ with the Wechsler Adult Intelligence Scale Wechsler Adult Intelligence Scale (WAIS): see psychological tests. (Spanish) (Wechsler 1981b). We constructed an index for 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. (SES) based on head of household education and occupation, and family income. We evaluated degree of stimulation and quality of caretaker-child interaction in the home environment using the HOME Scale (Home Inventory for Families of Infants and Toddlers) (Caldwell and Bradley 1984). All covariates used in statistical analyses were collected during pregnancy or in the first 6 postpartum postpartum /post·par·tum/ (post-pahr´tum) occurring after childbirth, with reference to the mother. post·par·tum adj. Of or occurring in the period shortly after childbirth. months. Data analyses. We used Fisher exact tests, Pearson chi-squared with exact probability, or t-tests to contrast subjects included in the analysis, subjects lost to follow-up in the first 5 postnatal years, and subjects with incomplete post-5-year data with the variables sex, SES, BPb at different ages, maternal IQ and educational level, and postnatal developmental scores. Descriptive statistics descriptive statistics see statistics. , identification of outliers, and appropriate transformations were performed before bivariate bi·var·i·ate adj. Mathematics Having two variables: bivariate binomial distribution. Adj. 1. and multivariate The use of multiple variables in a forecasting model. analyses. BPb was converted to natural logarithms Natural logarithm Logarithm to the base e (approximately 2.7183). to eliminate heteroskedasticity and normalize normalize to convert a set of data by, for example, converting them to logarithms or reciprocals so that their previous non-normal distribution is converted to a normal one. skewed distributions Skewed distribution Probability distribution in which an unequal number of observations lie below (negative skew) or above (positive skew) the mean. of residuals, reduce the influence of outlying out·ly·ing adj. Relatively distant or remote from a center or middle: outlying regions. outlying Adjective far away from the main area Adj. 1. high lead values on regression coefficients Regression coefficient Term yielded by regression analysis that indicates the sensitivity of the dependent variable to a particular independent variable. See: Parameter. regression coefficient , and adequately specify the functional relation of BPb on FSIQ. We examined associations between the FSIQ measured from 6 to 10 years of age and each measurement of lead exposure in panel regression analyses (Kennedy 2003), first without covariates and then controlling by child sex, SES, maternal IQ, HOME, and birth weight, instead of bivariate regressions, to adjust the regressions for repeated measurements of IQ in each subject. Because the data are multilevel mul·ti·lev·el adj. Having several levels: a multilevel parking garage. Adj. 1. multilevel - of a building having more than one level with BPb at each age nested within children, we used a linear mixed model to analyze the pattern of lead effect on FSIQ evaluated from 6 to 10 years of age. The dependent variable was FSIQ at ages 6, 7, 8, 9, and 10, whereas the independent variables with fixed effects were maternal IQ, child sex, SES, birth weight, geometric mean of BPb during the first 5 years of age, BPb at each age at which the FSIQ measurements were made, geometric mean of BPb during the second and third trimester of pregnancy, and a dummy variable This article is not about "dummy variables" as that term is usually understood in mathematics. See free variables and bound variables. In regression analysis, a dummy variable indicating the first FSIQ measurement of the child, allowing control for test learning between the first IQ measurement and the following ones. Some children had their first WISC-R test at 6 years of age; others were first tested at 7 or 8 years. We included as random effects Random effects can refer to:
See also: Residual by a first-order autoregressive process. We used the likelihood ratio test to determine if the addition of random intercepts, random slopes, and autoregressive residual covariance matrix significantly improved model fit. To examine the effect of simultaneous inclusion of all lead variables, we constructed several mixed models each with only one lead variable and statistically compared those lead coefficients with the lead coefficients of the mixed model with all lead variables. We also constructed mixed models without the control variables to determine lead coefficients unadjusted for covariates. We performed the same analyses for VIQ and PIQ. We used the Bayesian Information Criterion “Schwarz criterion” redirects here. For the term in voting theory, see Schwartz criterion. In statistics, the Bayesian information criterion (BIC) is a statistical criterion for model selection. (Hardin and Hilbe 2001) to determine which model best fit the data. The information criterion There are a number of statistics that can act as an information criterion. They include:
tr.v. pe·nal·ized, pe·nal·iz·ing, pe·nal·iz·es 1. To subject to a penalty, especially for infringement of a law or official regulation. See Synonyms at punish. 2. function based on number of estimated parameters. If the number of parameters increases without substantial model improvement, the information criterion also increases, indicating a poorer data fit. The two-level model had two different residuals: level-1 residuals, annual observations calculated by subtracting the linear predictor from the FSIQ; and level-2 residuals, the empirical Bayes predictions considered as higher-level residuals. To check the normality normality, in chemistry: see concentration. of the two residual types, we generated kernel density plots with overlaid o·ver·laid v. Past tense and past participle of overlay1. normal density functions and plotted quartiles of the residuals against quartiles of a normal distribution to emphasize possible non-normality near the tails. Shapiro-Wilk and Shapiro-Francia tests were also used to check residual normality. We divided level-2 residuals by the SEs (from the posterior posterior /pos·ter·i·or/ (pos-ter´e-er) directed toward or situated at the back; opposite of anterior. pos·te·ri·or adj. 1. Located behind a part or toward the rear of a structure. SDs) to detect outliers and plotted residuals against predictions to examine homoskedasticity. In addition to calculating correlations among BPb variables to assess potential for collinearity, we also ran an artificial multiple regression Multiple regression The estimated relationship between a dependent variable and more than one explanatory variable. with the full mixed-model variables to calculate the variance inflation factors The Variance Inflation Factor (VIF) is a method of detecting the severity of Multicollinearity. More precisely, the VIF is an index which measures how much the variance of a coefficient(square of the standard error) is increased because of collinearity. (VIFs) (Hardin 1995) for the lead terms. As a final check on the possibility that collinearity among lead variables significantly affected the pattern of results in the mixed model, we converted the group of lead variables to orthogonal At right angles. The term is used to describe electronic signals that appear at 90 degree angles to each other. It is also widely used to describe conditions that are contradictory, or opposite, rather than in parallel or in sync with each other. variables and ran the model again. We refit the mixed models with linear lead terms and used the J-test (MacKinnon 1981) to determine if the logarithmic logarithmic pertaining to logarithm. logarithmic relationship when the logs of two variables plotted against each other create a straight line. specification of the lead variables produced a better fit to the data than a linear lead specification. Results From the sample of 175 children retained to 6 years of age, we studied 150 with complete data for all covariates included in the model. There were no significant differences in sex, SES, birth weight, FSIQ of the child, maternal IQ, BPb at second trimester, and geometric mean BPb from 1 to 5 years of age between children included and not included in the analyses (Table 1). BPb in the third trimester of pregnancy and at 9 and 10 years of age was significantly lower in the group with complete data. More of the group dropping out before reaching 6 years tended to be in the lowest SES, compared with the tested group with complete data. Bayley (1969) and McCarthy (1972) developmental scores also tended to be lower for this group. The Pearson correlation between the 12-to 20-week and 28- to 36-week prenatal natural log BPb was 0.48, between either of the prenatal and any of the postnatal BPb [less than or equal to] 0.23, and between the 1- to 5-year and 6- to 10-year postnatal BPb = 0.70. VIFs for all variables in the model were < 2.2 (mean VIF VIF - VHDL Interface Format. Intermediate language used by the Vantage VHDL compiler. "A VHDL Compiler Based on Attribute Grammar Methodology", R. Farrow et al, SIGPLAN NOtices 24(7):120-130 (Jul 1989). = 1.45), where VIF [greater than or equal to] 10 is considered significant (Chaterjee et al. 2000). Models using orthogonal lead variables showed no change in model results. Collinearity among simultaneously included lead variables in the models was not a factor in the results presented below. Figure 1 shows the distribution of BPb from the cohort followed to 6-10 years of age. [FIGURE 1 OMITTED] Fixed-effects panel regression analyses, unadjusted for covariates, testing separate prenatal, perinatal perinatal /peri·na·tal/ (-na´t'l) relating to the period shortly before and after birth; from the twentieth to twenty-ninth week of gestation to one to four weeks after birth. per·i·na·tal adj. , and postnatal BPb with FSIQ of the child showed IQ reduction associated with BPb increase for all lead measurements (Table 2). However, the only significant BPb effects were with BPb at third trimester of pregnancy and BPb measured simultaneously with IQ tests. We performed panel analyses for FSIQ with each of the other covariates alone. All covariates were associated with IQ in the expected direction, but only maternal IQ (p < 0.001), maternal educational level (p < 0.001), SES (p < 0.01), and HOME score (p < 0.05) showed positive significant effects on the FSIQ of the child (analyses not shown). Using a linear mixed model with random intercept and random slope for 6- to 10-year BPb and adjusting for all covariates (Table 3, model A), we found that children whose mothers had higher BPb during 28-36 weeks of pregnancy had significantly lower FSIQ, children of the higher IQ mothers had higher FSIQ at all ages, and child FSIQ in the first evaluation was significantly lower than in subsequent evaluations. Most other remaining covariates were associated with child intelligence in the expected direction but were not significant. We developed additional models containing all prenatal and postnatal BPb with only the covariates that were significant in the full linear mixed model (maternal IQ and the dummy variable for the first FSIQ measurement of the child). 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. BPb variables were eliminated, so the model then included only significant covariates (Table 3, model D). The third-trimester BPb coefficients in all additional models with progressive deletion of nonsignificant variables (Table 3, models B, C, and D) were not significantly different from the coefficient found in the full mixed model (Table 3, model A), also suggesting minimal collinearity effects. In the linear mixed model with VIQ as the dependent variable, higher 28- to 36-week BPb was associated with lower intellectual coefficient of the child ([beta] = -3.15, p = 0.007), and children of higher IQ mothers had better performance ([beta] = 0.29, p < 0.001). There was no significant change in the VIQ from the first evaluation to subsequent evaluations. In the linear mixed model with PIQ as the dependent variable, 28- to 36-week BPb was inversely associated with child IQ ([beta] = -4.37, p = 0.004), and children of the higher IQ mothers had better performance ([beta] = 0.40, p < 0.001). We also observed significant PIQ improvement from first to subsequent tests ([beta] = 7.2, p < 0.001). To evaluate more precisely at which pregnancy stage maternal BPb was best associated with later reduction in child IQ, we constructed a linear mixed model adjusted by the same covariates used in the full linear mixed model (Table 3, model A) but exchanged the averaged prenatal BPb variables for prenatal BPb at week 12, 20, 28, or 36 of pregnancy. BPb at week 28 of pregnancy was the only prenatal lead measure significantly predicting lower FSIQ ([beta] = -4.13, p < 0.001) (Table 4). To statistically test whether natural log BPb transformation fit the data significantly better than a linear BPb specification, we used the J-test to compare the two specifications of lead at the third trimester of pregnancy on FSIQ in the full model (Table 3, model A). The logarithmic form of third-trimester BPb fit the data significantly better than did a linear functional form (t = 2.15, p = 0.02). Figure 2 shows a partial residual plot of the effect of third-trimester maternal BPb on FSIQ at 8 years of age adjusted for the covariates and other BPb values in the full model (Table 3, model A). [FIGURE 2 OMITTED] Discussion Increased maternal lead concentration at third trimester of pregnancy, especially around week 28, was associated with decreased intellectual child development, even after controlling for other prenatal and postnatal lead measurements. Other studies found significant adverse associations between postnatal BPb and IQ (Baghurst et al. 1992; Bellinger et al. 1992; Dietrich et al. 1993b; Wasserman et al. 1997). In our panel unadjusted regression analyses, we noted a significant effect of 6- to 10-year BPb on child IQ as well, but this effect lost significance when other BPb and covariates were included in mixed-model analysis. Collinearity between prenatal and 6- to 10-year BPb variables was not responsible for loss of explanatory power of 6- to 10-year BPb, as shown in the extensive diagnostic testing Diagnostic testing Testing performed to determine if someone is affected with a particular disease. Mentioned in: Von Willebrand Disease reported in "Results." Given the modest sample size and relatively low power of this study, we do not claim that lead exposure from 6 to 10 years or any other developmental period has no effect on child IQ. More likely, third-trimester lead exposure is a more powerful predictor of later child IQ and absorbed enough of the variation in IQ formerly attributed to 6- to 10-year BPb to render it insignificant in our model. In contrast to other studies in which prenatal lead exposure biomarkers were umbilical cord umbilical cord (ŭmbĭl`ĭkəl), cordlike structure about 22 in. (56 cm) long in the pregnant human female, extending from the abdominal wall of the fetus to the placenta. BPb (Bellinger et al. 1992) or one (Dietrich et al. 1993b; Ris et al. 2004; Wasserman et al. 1997, 2000a) or at most two (Baghurst et al. 1992) maternal lead measurements during pregnancy, we measured prenatal lead exposure systematically (within an interval of [+ or -] 2 weeks) during specific pregnancy stages (weeks 12, 20, 28, and 36 of pregnancy, at delivery, and in umbilical cord). We note that 28-week fetal central nervous system development is distinctly different than development either at 12 weeks or at term. Neuroblast neuroblast /neu·ro·blast/ (noor´o-blast) an embryonic cell that develops into a nerve cell or neuron. neu·ro·blast n. An embryonic cell from which a nerve cell develops. proliferation proliferation /pro·lif·er·a·tion/ (pro-lif?er-a´shun) the reproduction or multiplication of similar forms, especially of cells.prolif´erativeprolif´erous pro·lif·er·a·tion n. is essentially complete before 28 weeks, whereas neuronal neu·ro·nal adj. Relating to a neuron. neuronal pertaining to or emanating from a neuron. neuronal abiotrophy see hereditary neuronal abiotrophy of Swedish Lapland dogs. migration and aggregation continue through the first half of the third trimester. Myelination myelination /my·elin·a·tion/ (mi?e-lin-a´shun) myelinization. my·e·li·na·tion or my·e·li·ni·za·tion n. The acquisition, development, or formation of a myelin sheath around a nerve fiber. of tracts within the developing human fetal brain has just begun by 25 weeks (Herschkowitz 1988). Deeper cortical cor·ti·cal adj. 1. Of, relating to, derived from, or consisting of cortex. 2. Of, relating to, associated with, or depending on the cerebral cortex. layers are poorly defined at 24 weeks, clearly developed at 28 weeks, and reach postnatal appearance by 34 weeks of pregnancy (Larsen 1997). Limiting the range of permitted weeks of pregnancy for placing each maternal BPb in its nominal category A nominal category or a nominal group is a group of objects or ideas that can be collectively grouped on the basis of shared, arbitrary characteristic. A nominal group only has members and non-members. probably enhanced our ability to detect pregnancy phase-specific BPb effects. Other studies did not simultaneously include all lead measurements in their analyses, although one (Wasserman et al. 2000a) included directional postnatal lead change indicators along with the single pregnancy BPb variable. We were able to include the entire history of lead exposure in our analyses because collinearity among the lead measures was not a significant factor. In our analysis, simultaneous inclusion of 6- to 10-year BPb and the remaining BPb reduced the size of the 6- to 10-year lead coefficient without changing its variance, rendering it insignificant. With the increased power afforded by a larger sample size, 6- to 10-year BPb might well have retained its significance. Methodologic considerations. A frequent problem in cohort studies 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 is high loss rate during extended follow-up. From an original sample of 321 children, we tested 175 available children after 5 years of age, of which only 150 were included in mixed-model analyses due to missing covariates. The smaller number of subjects reduced the possibility of detecting subtle effects and increased the possibility of instability of model coefficients. Nevertheless, despite the medium sample size, we found a highly significant effect of maternal third-trimester BPb on child IQ at 6-10 years of age with little evidence of selective dropout (1) On magnetic media, a bit that has lost its strength due to a surface defect or recording malfunction. If the bit is in an audio or video file, it might be detected by the error correction circuitry and either corrected or not, but if not, it is often not noticed by the human bias in the descriptive statistics. In addition to longitudinal analyses, we carried out separate analyses of IQ at each age. The pattern of results was consistent in these analyses; 28- to 36-week BPb and maternal intellectual quotient quotient - The number obtained by dividing one number (the "numerator") by another (the "denominator"). If both numbers are rational then the result will also be rational. were the variables significantly predicting child IQ. Repeated use of the same test to evaluate child IQ at short intervals could lead to learning of test components across time and a familiarization fa·mil·iar·ize tr.v. fa·mil·iar·ized, fa·mil·iar·iz·ing, fa·mil·iar·iz·es 1. To make known, recognized, or familiar. 2. To make acquainted with. with the test situation. We found a significant change (Table 3) only between the first FSIQ measurement and the subsequent measurements, nearly all of which was due to increase in the performance scale. Repeated test application produced a significant adjusted increase of 7.2 PIQ points and 4.0 FSIQ points from first to subsequent test applications. This might be expected in children encountering performance tasks for the first time during the initial test application. Studies in developmental toxicity have shown that subtle developmental alterations are easier to detect when subjects confront challenging or stressful situations (Cory-Slechta 1990; Rice and Baron 2000). Familiarity with the test situation and repetition of the same test should have reduced our ability to detect subtle developmental deficits associated with lead. We conclude that the lead effect described is robust. Other studies found a substantial impact of sociodemographic variables on IQ. Several studies reported significant associations between lead and child development that disappear (Ernhart et al. 1989) or become evident (Wasserman et al. 1997) when HOME score was used as a covariate. We applied the 6-month HOME Scale in our study but did not include it in full modeling because it did not appreciably ap·pre·cia·ble adj. Possible to estimate, measure, or perceive: appreciable changes in temperature. See Synonyms at perceptible. or significantly change the estimated magnitude and significance of BPb and because model fit improved 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 Bayesian Information Criterion (Hardin and Hilbe 2001) when this covariate was omitted (see Appendix for mixed models with HOME added). In contrast to our models, other studies found the HOME Scale useful. The HOME Scale is distinctly Euro-North American culture bound. For example, we found that many homes we visited did not have items such as educational toys What is an educational toy? ''' Toys, and educational toys, are typically built for and used by children. One could make the argument that an educational toy is actually any toy. Most children are constantly interacting with and learning about the world. , which were not readily available in the domestic market at that time, thus altering the HOME score of our subjects. Furthermore, 6-month evaluations might be expected to play little role in development at 6-10 years. If increased third-trimester BPb levels were associated with decreased birth weight and low birth weight was associated with poor postnatal intellectual development, the modeled effect of third-trimester BPb on 6- to 10-year IQ could be mediated through lead effect on birth weight. Our subject inclusion criteria accepted only newborn infants into the study with birth weight > 2,000 g (the Mexican standard for low birth weight at the time of the study), thus excluding cases with the highest probability of showing later deficits due to low birth weight. Exploratory modeling showed that no prenatal BPb was significantly associated with birth weight. Finally, excluding or including birth weight in mixed-model analyses changed the 28- to 36-week BPb coefficient by less than 0.03. There is no evidence in these data that third-trimester BPb effect on 6- to 10-year-old IQ was mediated by lead effect on weight. Both the Spanish WISC-R for child IQ and the Spanish Wechsler Adult Intelligence Scale used for maternal IQ have since been superseded by updated, renormalized versions. The tests we used were the only Spanish language Spanish language, member of the Romance group of the Italic subfamily of the Indo-European family of languages (see Romance languages). The official language of Spain and 19 Latin American nations, Spanish is spoken as a first language by about 330 million persons versions available during data collection. We note that the IQ scores measured in our sample were generally higher than those obtained in other prospective studies, perhaps as a result of using outdated tests. Although the current version of the WISC WISC Wechsler Intelligence Scale for Children Psychology A 10-category test that measures both verbal and performance IQ. See Psychological testing. might reveal the bias in the absolute IQ associated with lead in these data, the covariation Noun 1. covariation - (statistics) correlated variation statistics - a branch of applied mathematics concerned with the collection and interpretation of quantitative data and the use of probability theory to estimate population parameters between BPb and IQ was likely not affected by the specific test version used. Public health implications. These data suggest that the early third trimester of pregnancy may constitute a critical period for subsequent intellectual child development, during which lead exposure can produce lasting and possibly permanent effects. In addition, the data suggest there is no threshold for the adverse consequences of lead. On the contrary, the largest IQ changes in our sample are observed within the first few micrograms 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 of BPb--that is, at lower BPb (Figure 2). The relationship between BPb and child IQ is logarithmic, not linear, as shown by the significant (p = 0.02) J-test. Other studies have already reported larger IQ change with change of lead at lower concentrations than at higher concentrations (Canfield can·field n. Games A form of solitaire. [After Richard Albert Canfield (1855-1914), American gambler.] Noun 1. et al. 2003; Lanphear et al. 2000; Schwartz 1994). A recent reanalysis of a large (n = 1,333) pooled data analysis (Lanphear et al. 2005) of seven prospective lead studies, including this one, also confirms that the log-linear dose-response relationship The Dose-response relationship describes the change in effect on an organism caused by differing levels of exposure (or doses) to a stressor (usually a chemical). This may apply to individuals (eg: a small amount has no observable effect, a large amount is fatal), or to populations between IQ around 7 years of age and contemporary BPb is superior to a linear-linear dose-response relationship (Rothenberg and Rothenberg 2005). We noted the same pattern of BPb change during pregnancy in this study (Rothenberg et al. 1994) observed in other studies 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. (Hertz-Picciotto et al. 2000; Schell et al. 2000). Postnatal BPb pattern with age has already been examined in detail in this cohort (Schnaas et al. 2004) and is similar to that from United States and Australian prospective studies (Dietrich et al. 1991; McMichael et al. 1988). Postnatal BPb peaks around 2 years of age and then decreases with increasing age (Figure 1). Because our cohort did not exhibit unusual BPb change from 12 weeks of pregnancy through 10 years of age, our results cannot be attributed to the cohort's unique history of lead exposure. Across a range of BPb from 1 to 32 [micro]g/dL, these data show that half of the deleterious deleterious adj. harmful. effects of lead on child IQ measured here occurred when third-trimester BPb increased from 1 to 6 [micro]g/dL. When maternal BPb reached current Mexican and U.S. action limits for children and pregnant women (10 [micro]g/dL), most of the adverse consequences on later child IQ associated with lead in the measured range had already occurred. If we continue to accept the current action limit, we also accept that most of the "damage" to the IQ of children associated with third-trimester lead exposure in our sample is permissible. The fetal brain seems susceptible to lower lead concentrations than those established by the official Mexican standard and current CDC guidelines, and the effects are obvious at least until 10 years of age. Although these findings should be replicated, our data suggest that we should establish lower action limits for lead exposure of reproductively active women.
Appendix. Linear mixed models with random intercept and random slope
for concurrent lead for a cohort of 128 children: (a) fixed-effects
estimations.
Model A HOME and SES
Variable [beta] [+ or -] SE(95%CI) p-Value
Intercept 75.09 [+ or -] 12.84 (49.80 to 100.38) <0.0001
Ln(lead) 12-20 0.90 [+ or -] 1.640 (-2.34 to 4.12) 0.5864
weeks
Ln(lead) 28-38 -4.15 [+ or -] 1.34 (-6.79 to -1.51) 0.0024
weeks
Mean ln(lead) 0.56 [+ or -] 2.22 (-3.81 to 4.93) 0.8013
1-5 years
Ln(lead) 6-10 years 0.46 [+ or -] 0.85 (-1.21 to 2.13) 0.5907
Child sex -0.64 [+ or -] 1.83 (-4.25 to 2.97) 0.7270
Birth weight 0.00 [+ or -] 0.02 (-0.004 to 0.004) 0.9070
SES -0.10 [+ or -] 0.86 (-2.59 to 0.79) 0.9170
HOME scale -0.16 [+ or -] 0.15 (-0.46 to 0.14) 0.3103
Maternal IQ 0.42 [+ or -] 0.08 (0.26 to 0.58) <0.0001
First FSIQ -4.11 [+ or -] 0.45 (3.20 to 5.02) <0.0001
application
indicator
Model B HOME and SES
Variable [beta] [+ or -] SE(95%CI) p-Value
Intercept 75.18 [+ or -] 12.76 (50.04 to 100.32) <0.0001
Ln(lead) 12-20 0.88 [+ or -] 1.63 (-2.33 to 4.09) 0.5892
weeks
Ln(lead) 28-38 -4.14 [+ or -] 1.33 (-6.76 to -1.52) 0.0023
weeks
Mean ln(lead) 0.61 [+ or -] 2.14 (-3.61 to 4.83) 0.7746
1-5 years
Ln(lead) 6-10 years 0.46 [+ or -] 0.85 (-1.21 to 2.13) 0.5911
Child sex -0.67 [+ or -] 1.80 (-4.22 to 2.88) 0.7109
Birth weight 0.00023 [+ or -] 0.002 (-0.004, to 0.004) 0.9076
SES
HOME scale -0.16 [+ or -] 0.15 (-0.46 to 0.14) 0.2686
Maternal IQ 0.42 [+ or -] 0.07 (0.28 to 0.56) <0.0001
First FSIQ -4.11 [+ or -] 0.46 (-5.02 to -3.20) <0.0001
application
indicator
CI, confidence interval.
(a) Dependent variable is FSIQ of children from 6 to 10 years of age.
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Cognitive deficits Cognitive deficit is an inclusive term to describe any characteristic that acts as a barrier to cognitive performance. The term may describe deficits in global intellectual performance, such as mental retardation, or it may describe specific deficits in cognitive abilities associated with blood lead concentrations < 10 microg/dL in US children and adolescents. Public Health Rep 115(6):521-529. Lanphear BP, Hornung R, Khoury J, Yolton K, Baghurst P, Bellinger DC, et al. 2005. Low-level environmental lead exposure and children's intellectual function: an international pooled analysis. Environ Health Perspect 113:894-899. Larsen WJ. 1997. Development of the brain and cranial nerves Cranial nerves The set of twelve nerves found on each side of the head and neck that control the sensory and muscle functions of a number of organs such as the eyes, nose, tongue face and throat. . In: Human Embryology embryology Study of the formation and development of an embryo and fetus. Before widespread use of the microscope and the advent of cellular biology in the 19th century, embryology was based on descriptive and comparative studies. . 2nd ed. New York:Churchill Livingston, 411-454. MacKinnon J. 1981. Several tests for model specification in the presence of alternative hypotheses. Econometrica 49:781-793. McCarthy D. 1972. McCarthy Scales of Children's Abilities. San Antonio, TX:Psychological Corporation. McMichael AJ, Baghurst PA, Vimpani GV, Robertson EF, Wigg NR, Tong SL. 1992. Sociodemographic factors modifying the effect of environmental lead on 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. development in early childhood. Neurotoxicol Teratol 14(5):321-327. McMichael AJ, Baghurst PA, Wigg NR, Vimpani GV, Robertson EF, Roberts RJ. 1988. Port Pirie Cohort Study: environmental exposure to lead and children's abilities at the age of four years. N Engl J Mad 319(8):468-475. Rice D, Baron SJ. 2000. Critical periods of vulnerability for the developing nervous system: evidence from humans and animal models. Environ Health Perspect 108:511-533. Ris MD, Dietrich KN, Succop PA, Berger OG, Bornschein RL 2004. Early exposure to lead and neurnpsychological outcome in adolescence. J Int Neuropsychol Soc 10:261-270. Rothenberg S, Rothenberg JC. 2005. Testing the dose-response specification in epidemiology: public health and policy consequences for lead. Environ Health Perspect 113:1190-1195. Rothenberg SJ, Karchmer S, Schnaas L, Perroni E, Zea F, Fernandez Alba J. 1994. Changes in serial blood lead levels during pregnancy. Environ Health Perspect 102:870-880. Schell LM, Czerwinski S, Stark AD, Parsons Parsons, city (1990 pop. 11,924), Labette co., SE Kans.; inc. 1871. It is a shipping point for dairy products, grain, and livestock. Manufactures include ammunition, wire and paper products, plastics, and appliances. P J, Gomez M, Samelson R. 2000. Variation in blood lead and hematocrit Hematocrit Definition The hematocrit measures how much space in the blood is occupied by red blood cells. It is useful when evaluating a person for anemia. Purpose Blood is made up of red and white blood cells, and plasma. levels during pregnancy in a secioeconomically disadvantaged population. Arch Environ Health 55(2):134-140. Schnaas L, Rothenberg SJ, Flores Flores, town, Guatemala Flores (flōrəs), town (1990 est. pop. 2,200), capital of Petén department, N Guatemala. Flores was built on an island in the southern part of Lake Petén Itzá and on the site of the MF, Martinez S Martinez (märtē`nəs), city (1990 pop. 31,808), seat of Contra Costa co., W Calif., on Carquinez Strait between San Pablo and Suisun bays, in a farm area; inc. 1884. Its major industry is petroleum refining. , Hernandez C, Osoro E, et al. 2004. Blood lead secular trend secular trend The relatively consistent movement of a variable over a long period. A stock in a secular uptrend is an indicator that the security has experienced an extended period of rising prices. in a cohort of children in Mexico City (1987-2002). Environ Health Perspect 112:1110-1115. Schnaas L, Rothenberg SJ, Perroni E, Martinez S, Hernandez C, Hernandez RM. 2000. Temporal pattern in the effect of postnatal blood lead level on intellectual development of young children. Neurotoxicol Teratol 22(6):805-810. Schwartz J. 1994. Low-level lead exposure and children's IQ: a meta-analysis and search for a threshold. Environ Res 65(1):42-55. Tong S, Baghurst P, McMichael A, Sawyer M, Mudge J. 1996. Lifetime exposure to environmental lead and children's intelligence at 11-13 years: the Port Pirie cohort study. BMJ BMJ n abbr (= British Medical Journal) → vom BMA herausgegebene Zeitschrift 312(7046): 1569-1575. Wasserman G, Graziano JH, Factor-Litvak P, Popovac D, Morina N, Musabegovic A, et al. 1992. Independent effects of lead exposure and iron deficiency anemia Iron Deficiency Anemia Definition Anemia can be caused by iron deficiency, folate deficiency, vitamin B12 deficiency, and other causes. The term iron deficiency anemia means anemia that is due to iron deficiency. on developmental outcome at age 2 years. J Pediatr 121(5 pt 1):695-703. Wasserman GA, Graziano JH, Factor-Litvak P, Popovae D, Merina The Merina is the largest ethnic group in Madagascar. Boasting a population of 3 million, which equals to about one-quarter of the country's population, they speak a Malayo-Polynesian tongue and are concentrated in the central highlands. N, Musabegovic A, et al. 1994. Consequences of lead exposure and iron supplementation on childhood development at age 4 years. Neurotoxicol Teratol 16(3):233-240. Wasserman GA, Liu X, Lolacono N J, Factor-Litvak P, Kline JK, Popovac D, et al. 1997. Lead exposure and intelligence in 7-year-old children: the Yugoslavia Prospective Study. Environ Health Perspect 105:950-962. Wasserman GA, Liu X, Popovac D, Factor-Litvak P, Kline J, Waternaux C, et al. 2000a. The Yugoslavia Prospective Lead Study: contributions of prenatal and postnatal lead exposure to early intelligence. Neurotoxicol Teratol 22(6):811-818. Wasserman GA, Musabegovic A, Liu X, Kline J, Factor-Litvak P, Graziano JH. 2000h. Lead exposure and motor functioning in 4(1/2)-year-old children: the Yugoslavia Prospective Study. J Pediatr 137(4):555-561. Wechsler D. 1981a. WISC-R-Espanol. Escala de Inteligencia Revisada para el Nivel Escolar. Manual. Mexico, DF:Manual Moderno. Wechsler D. 1981b. WAIS-Espanol. Escala de Inteligencia para Adultos. Manual. Mexico, DF:Manual Moderno. Lourdes Schnaas, (1) Stephen J. Rothenberg, (2,3) Maria-Fernanda Flores, (1) Sandra Martinez, (1) Carmen Carmen throws over lover for another. [Fr. Lit.: Carmen; Fr. Opera: Bizet, Carmen, Westerman, 189–190] See : Faithlessness Carmen the cards repeatedly spell her death. [Fr. Hernandez, (1) Erica Osorio, (1) Silvia Ruiz Velasco, (4) and Estela Perroni (1) (1) National Institute of Perinatology, Mexico City, Mexico; (2) National Institute of Public Health, Cuernavaca, Morelos, Mexico; (3) Centro de Investigaciones y de Estudios Avanzados-lnstituto Politecnico Nacional, Merida, Yucatan, Mexico; (4) Institute for Research in Applied Mathematics and Systems, National Autonomous University of Mexico The National Autonomous University of Mexico (Spanish: , abbreviated UNAM) is a large public university in Mexico. It was founded on September 21 1551 as the Real y Pontificia Universidad de México , Mexico City, Mexico Address correspondence to S.J. Rothenberg, Insrituto Nacional de Salud Ptlblica, Av. Universidad 655, Sta. Ma. Ahuacatitlan, C.P. 62508, Cuernavaca, Morelos, Mexico. Telephone and fax: 52-739-395-0662. E-mail: drlead@prodigy.net.mx This work was supported in part by National Council of Science and Technology (Consejo Nacional de Ciencia y Tecnologia) grant SALUD-2002-C01-7159, the Secretariat of Health, Mexico (Secretaria de Salud), and the U.S. Environmental Protection Agency Environmental Protection Agency (EPA), independent agency of the U.S. government, with headquarters in Washington, D.C. It was established in 1970 to reduce and control air and water pollution, noise pollution, and radiation and to ensure the safe handling and . The opinions expressed herein are those of the authors and should not be interpreted as those of the participating institutions or funding agencies. The authors declare they have no competing financial interests.
Table 1. Comparison among subjects included in the model and
subjects with incomplete data, or not assessed beyond 5 years
of age.
Not assessed beyond 5 years of age
BPb GM
Characteristics No. (%) (5th-95th) (a)
Sex
Male 83 (56.8)
Female 63 (43.2)
SES
Lowest 60 (42.9)
Medium 77 (55.0)
Highest 3 (2.1)
Apgar 5 min
6 1 (0.7)
7 1 (0.7)
8 8 (5.6)
9 134 (93.1)
10 0 (0.0)
Birth order
1 62 (42.8)
2 49 (33.8)
3 28 (19.3)
4 4 (2.8)
[greater than or equal to] 5 2 (1.3)
Birth weight (g) 144 3,194 (2,503-4,000)
Maternal IQ 127 91 (68-113)
Prenatal lead
12-20 weeks 126 8.4 (7.6-9.1)
28-36 weeks 129 7.3 (1.5-17.4)
Bayley Scales of Infant Development
MDI at 6 months 122 115.0 (91-140)
MDI at 12 months 103 114.1 (94-134)
MDI at 18 months 87 104.3 (78-128)
MDI at 24 months 69 103.5 (79-132)
McCarthy Scale
GCI at 36 months 37 97.6 (64-117)
GCI at 42 months 25 98.7 (82-118)
GCI at 48 months 30 93.8 (60-130)
GCI at 54 months 18 95.8 (57-129)
GCI at 60 months 15 98.9 (62-127)
WISC FSIQ (years of age)
6
7
8
9
10
Postnatal lead (years of age)
1 131 10.0 (3.2-18.8)
2 93 12.0 (4.2-25.2)
3 52 11.6 (5.0-23.5)
4 38 8.9 (3.2-18.5)
5 22 9.0 (3.5-16.5)
6
7
8
9
10
Subjects with incomplete data
BPb GM
Characteristics No. (%) (5th-95th) (a)
Sex
Male 12 (48.0)
Female 13 (52.0)
SES
Lowest 3 (12.0)
Medium 16 (64.0)
Highest 6 (24.0)
Apgar 5 min
6 0 (0.0)
7 0 (0.0)
8 1 (4.0)
9 24 (96.0)
10 0 (0.0)
Birth order
1 11 (44.0)
2 9 (36.0)
3 3 (12.0)
4 2 (8.0)
[greater than or equal to] 5 0 (0.0)
Birth weight (g) 25 3,148 (2,569-3,818)
Maternal IQ 25 96 (65-115)
Prenatal lead
12-20 weeks 10 8.2 (3.0-13.7)
28-36 weeks 11 13.0 (5.3-27.0)
Bayley Scales of Infant Development
MDI at 6 months 20 117.4 (98-137)
MDI at 12 months 25 115.2 (86-131)
MDI at 18 months 23 112.3 (102-128)
MDI at 24 months 21 119.8 (94-150)
McCarthy Scale
GCI at 36 months 22 102.0 (89-118)
GCI at 42 months 20 110.1 (101-122)
GCI at 48 months 24 105.5 (85-119)
GCI at 54 months 22 106.8 (88-120)
GCI at 60 months 18 108.8 (82-121)
WISC FSIQ (years of age)
6 23 109 (91-126)
7 20 109 (88-127)
8 21 109 (90-13D)
9 16 114 (98-141)
10 15 112 (94-140)
Postnatal lead (years of age)
1 23 11.6 (5.5-19.8)
2 25 13.1 (5.8-23.0)
3 25 12.2 (5.2-19.8)
4 25 11.3 (4.8-19.0)
5 22 10.6 (5.0-19.2)
6 21 9.3 (4.5-20.8)
7 21 8.9 (4.2-17.0)
8 20 7.5 (2.5-14.6)
9 21 7.7 (3.5-12.5)
10 15 7.8 (3.0-19.2)
Subjects included in the model
BPb GM
Characteristics No. (%) (5th-95th) (a)
Sex
Male 79 (52.7)
Female 71 (47.3)
SES
Lowest 20 (13.3)
Medium 93 (62.0)
Highest 37 (24.7)
Apgar 5 min
6 1 (0.7)
7 0 (0.0)
8 9 (6.0)
9 139 (92.6)
10 1 (0.7)
Birth order
1 73 (48.7)
2 48 (32.0)
3 22 (14.7)
4 7 (4.7)
[greater than or equal to] 5 0 (0.0)
Birth weight (g) 150 3,218 (2,450-3,911)
Maternal IQ 150 93 (71-112)
Prenatal lead
12-20 weeks 150 8.2 (3.0-20.7)
28-36 weeks 150 7.8 (2.5-24.6)
Bayley Scales of Infant Development
MDI at 6 months 135 115.3 (89-144)
MDI at 12 months 137 115.7 (93-134)
MDI at 18 months 139 107.9 (88-128)
MDI at 24 months 135 109.5 (87-132)
McCarthy Scale
GCI at 36 months 133 100.8 (85-116)
GCI at 42 months 133 105.1 (86-121)
GCI at 48 months 137 102.3 (81-122)
GCI at 54 months 124 104.1 (89-119)
GCI at 60 months 126 104.8 (88-119)
WISC FSIQ (years of age)
6 140 105 (87-123)
7 140 109 (91-127)
8 127 108 (91-126)
9 120 109 (91-128)
10 115 109 (87-130)
Postnatal lead (years of age)
1 142 10.8 (4.0-22.0)
2 142 12.8 (5.0-25.8)
3 140 11.3 (4.7-22.9)
4 142 10.3 (4.2-20.5)
5 136 9.3 (3.8-18.0)
6 135 7.9 (3.2-16.0)
7 142 7.5 (3.0-13.8)
8 132 6.4 (2.8-12.8)
9 123 6.0 (2.8-11.8)
10 118 5.6 (2.5-11.2)
Characteristics p-Value (b) p-Value (c)
Sex
Male 0.49 (d) 0.67 (d)
Female
SES
Lowest <0.001 (d) 0.82 (d)
Medium
Highest
Apgar 5 min
6 0.98 (d) 1.00 (d)
7
8
9
10
Birth order
1 0.42 (d) 0.87 (d)
2
3
4
[greater than or equal to] 5
Birth weight (g) 0.64 0.46
Maternal IQ 0.31 0.26
Prenatal lead
12-20 weeks 0.20 0.98
28-36 weeks 0.49 0.02
Bayley Scales of Infant Development
MDI at 6 months 0.87 0.60
MDI at 12 months 0.33 0.85
MDI at 18 months 0.05 0.11
MDI at 24 months 0.009 0.003
McCarthy Scale
GCI at 36 months 0.11 0.61
GCI at 42 months 0.01 0.06
GCI at 48 months 0.003 0.26
GCI at 54 months 0.008 0.29
GCI at 60 months 0.048 0.12
WISC FSIQ (years of age)
6 0.17
7 0.93
8 0.72
9 0.09
10 0.45
Postnatal lead (years of age)
1 0.40 0.54
2 0.42 0.82
3 0.74 0.52
4 0.13 0.46
5 0.78 0.26
6 0.14
7 0.13
8 0.17
9 0.025
10 0.008
Abbreviations: GCI, General Cognitive Index; GM,
geometric mean; MDI, Mental Development Index.
(a) Percentiles. (b) Subjects included in the model versus subjects
not assessed beyond 5 years of age. (c) Subjects included in the
model versus subjects with incomplete data. (d) Fisher's exact test
of Pearson chi-square exact probability. Unmarked probabilities by
t-test for independent samples.
Table 2. Nonadjusted and adjusted
models of FSIQ (panel regressions).
Unadjusted
Lead variable ([micro]g/dL) No. [beta]
Ln(lead) 12-20 weeks 150 -1.90
Ln(lead) 28-36 weeks 150 -3.84
Maternal ln(lead) delivery 112 -1.77
Umbilical cord ln(lead) 109 -0.69
Mean ln(lead) (1-5 years) 150 -2.41
Ln(lead) at 1 year of age 142 -1.51
Ln(lead) at 2 years of age 143 -1.10
Ln(lead) at 3 years of age 140 -2.53
Ln(lead) at 4 years of age 142 -0.61
Ln(lead) at 5 years of age 136 -2.96
Mean ln(lead) (1-2 years) 147 -1.78
Mean ln(lead) (3-5 years) 150 -2.63
Mean ln(lead) (6-10 years) 150 -2.70
Unadjusted
p-Value
Lead variable ([micro]g/dL) 95% CI (two-tailed)
Ln(lead) 12-20 weeks -4.79 to 0.98 0.20
Ln(lead) 28-36 weeks -6.24 to -1.44 0.002
Maternal ln(lead) delivery -5.12 to 1.57 0.29
Umbilical cord ln(lead) -3.50 to 2.11 0.63
Mean ln(lead) (1-5 years) -6.38 to 1.57 0.23
Ln(lead) at 1 year of age -4.96 to 1.94 0.39
Ln(lead) at 2 years of age -4.49 to 2.29 0.39
Ln(lead) at 3 years of age -6.22 to 1.15 0.18
Ln(lead) at 4 years of age -4.34 to 3.12 0.75
Ln(lead) at 5 years of age -6.67 to 0.75 0.12
Mean ln(lead) (1-2 years) -5.46 to 1.90 0.34
Mean ln(lead) (3-5 years) -6.47 to 1.22 0.18
Mean ln(lead) (6-10 years) -4.23 to -1.16 0.001
Adjusted (a)
[[beta]. p-Value
Lead variable ([micro]g/dL) sub.adj] 95% CI (two-tailed)
Ln(lead) 12-20 weeks -1.45 -4.75 to 2.00 0.42
Ln(lead) 28-36 weeks -4.00 -6.37 to -1.65 0.001
Maternal ln(lead) delivery -1.29 -4.41 to 1.83 0.41
Umbilical cord ln(lead) -0.95 -3.65 to 1.75 0.49
Mean ln(lead) (1-5 years) 0.49 -3.81 to 4.81 0.82
Ln(lead) at 1 year of age 0.51 -3.19 to 4.21 0.79
Ln(lead) at 2 years of age 0.91 -2.67 to 4.49 0.62
Ln(lead) at 3 years of age -0.58 -4.53 to 3.37 0.78
Ln(lead) at 4 years of age 1.17 -2.67 to 5.02 0.55
Ln(lead) at 5 years of age -0.32 -4.26 to 3.36 0.87
Mean ln(lead) (1-2 years) 0.60 -3.36 to 4.57 0.76
Mean ln(lead) (3-5 years) -0.08 -4.15 to 3.98 0.96
Mean ln(lead) (6-10 years) -2.45 -4.09 to -0.81 0.003
CI, confidence interval. Each lead variable was tested alone.
(a) Adjusted by maternal IQ, SES, sex, birth weight, an indicator
variable of first FSIQ application at 6, 7, or 8 years.
Table 3. Linear mixed models of FSIQ with random intercept and
random slope for 6-10 year BPb ([micro]g/dL): fixed-effects
estimations.
Model A (full model)
Variable [beta] 95% CI p-Value (a)
Intercept 73.6 52.4 to 94.6 <0.0001
Mean ln(lead) 12-20 weeks 1.02 -1.98 to 4.03 0.50
pregnancy ([micro]g/dL)
Mean ln(lead) 28-36 weeks -3.90 -6.45 to -1.36 0.0029
pregnancy ([micro]g/dL)
Mean ln(lead)1-5 years
([micro]g/dL) 0.10 -3.88 to 4.06 0.96
Ln(lead) 6-10 years
([micro]g/dL) 0.17 -1.41 to 1.76 0.83
Child sex (female) -1.51 -4.75 to 1.73 0.36
Birth weight (g) 0.001 -0.003 to 0.004 0.61
SES (tertiles) -0.38 -1.86 to 1.10 0.61
Maternal IQ 0.40 0.26 to 0.55 <0.0001
First FSIQ measurement -4.00 -4.84 to -3.16 <0.0001
Model B (without nonsignificant
control variables)
Variable [beta] 95% CI p-Value (a)
Intercept 73.6 56.9 to 90.4 <0.0001
Mean ln(lead) 12-20 weeks 0.89 -2.09 to 3.88 0.56
pregnancy ([micro]g/dL)
Mean ln(lead) 28-36 weeks -3.85 -6.36 to -1.33 0.0029
pregnancy ([micro]g/dL)
Mean ln(lead)1-5 years
([micro]g/dL) 0.35 -3.48 to 4.18 0.86
Ln(lead) 6-10 years
([micro]g/dL) 0.15 -1.44 to 1.72 0.86
Child sex (female)
Birth weight (g)
SES (tertiles)
Maternal IQ 0.39 0.26 to 0.52 <0.0001
First FSIQ measurement -4.00 -4.82 to -3.15 <0.0001
Model C (model B without
nonsignificant lead before 6-10 years)
Variable [beta] 95% CI p-Value (a)
Intercept 75.8 62.6 to 88.0 <0.0001
Mean ln(lead) 12-20 weeks
pregnancy ([micro]g/dL)
Mean ln(lead) 28-36 weeks -3.46 -5.64 to -1.29 0.0020
pregnancy ([micro]g/dL)
Mean ln(lead)1-5 years
([micro]g/dL)
Ln(lead) 6-10 years
([micro]g/dL) 0.21 -1.30 to 1.72 0.79
Child sex (female)
Birth weight (g)
SES (tertiles)
Maternal IQ 0.39 0.26 to 0.51 <0.0001
First FSIQ measurement -4.00 -4.83 to -3.16 <0.0001
Model D (without any
nonsignificant variables)
Variable [beta] 95% CI p-Value (a)
Intercept 76.3 63.7 to 88.9 <0.0001
Mean ln(lead) 12-20 weeks
pregnancy ([micro]g/dL)
Mean ln(lead) 28-36 weeks -3.44 -5.61 to -1.28 0.0020
pregnancy ([micro]g/dL)
Mean ln(lead)1-5 years
([micro]g/dL)
Ln(lead) 6-10 years
([micro]g/dL)
Child sex (female)
Birth weight (g)
SES (tertiles)
Maternal IQ 0.38 0.26 to 0.51 <0.0001
First FSIQ measurement -4.00 -4.78 to -3.16 <0.0001
CI, confidence interval.
(a) Two-tailed.
Table 4. Linear mixed model of FSIQ with random intercept and
random slope for concurrent lead (n = 122) Test of prenatal
lead concentration at week 28 of pregnancy: fixed-effects
estimations.
p-Value
Variable [beta] 95% CI (two-tailed)
Intercept 79.5 56.5 to 102.5 <0.0001
Ln(lead) 28 weeks pregnancy
([micro]g/dL) -4.13 -6.45 to -1.81 0.0006
Mean ln(lead) 1-5 years
([micro]g/dL) -1.01 -5.54 to 3.52 0.66
Ln(lead) 6-10 years
([micro]g/dL) 0.21 -1.46 to 1.88 0.81
Child sex (female) -1.21 -4.87 to 2.45 0.52
Birth weight (g) 0.001 -0.003 to 0.005 0.61
SES (tertiles) -0.40 -1.27 to 2.07 0.64
Maternal IQ 0.38 0.22 to 0.54 <0.0001
First FSIQ application -3.52 -4.43 to -2.61 <0.0001
CI, confidence interval.
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