IQ and blood lead from 2 to 7 years of age: are the effects in older children the residual of high blood lead concentrations in 2-year-olds?Increases in peak blood lead concentrations, which occur at 18-30 months of age 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. , are thought to result in lower IQ scores at 4-6 years of age, when IQ becomes stable and measurable. Data from a prospective study conducted in Boston suggested that blood lead concentrations at 2 years of age were more predictive of 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 in older children than were later blood lead concentrations or blood lead concentrations measured concurrently with IQ. Therefore, cross-sectional associations between blood lead and IQ in school-age children have been widely interpreted as the residual effects of higher blood lead concentrations at an earlier age or the tendency of less intelligent children to ingest in·gest tr.v. in·gest·ed, in·gest·ing, in·gests 1. To take into the body by the mouth for digestion or absorption. See Synonyms at eat. 2. more leaded dust or paint chips, rather than as a causal relationship in older children. Here we analyze data from a clinical trial in which children were treated for elevated blood lead concentrations (20-44 [micro]g/dL) at about 2 years of age and followed until 7 years of age with serial IQ tests and measurements of blood lead. We found that cross-sectional associations increased in strength as the children became older, whereas the relation between baseline blood lead and IQ attenuated Attenuated Alive but weakened; an attenuated microorganism can no longer produce disease. Mentioned in: Tuberculin Skin Test attenuated having undergone a process of attenuation. . Peak blood lead level thus does not fully account for the observed association in older children between their lower blood lead concentrations and IQ. The effect of concurrent blood level on IQ may therefore be greater than currently believed. Key words: chelation Chelation The process by which a molecule encircles and binds to a metal and removes it from tissue. Mentioned in: Heavy Metal Poisoning chelation , developmental testing, IQ, lead poisoning lead poisoning or plumbism (plŭm`bĭz'əm), intoxication of the system by organic compounds containing lead. , 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. . doi:10.1289/ehp.7625 available via http://dx.doi.org/ [Online 2 February 2005] ********** In 1994, two meta-analyses of the relationships between childhood lead exposure and IQ appeared (Pocock et al. 1994; Schwartz 1994). Both dealt with a problem that arises in the interpretation of prospective studies in which the child's blood lead concentration peaks at about 2 years of age, but IQ can only be measured stably (with higher test-retest correlation) in children [greater than or equal to] 4 years of age (Sternberg et al. 2001). Both meta-analyses focused on the strength of association between IQ at school age and either blood lead concentration measured at 2 years of age or derived measures of lead exposure, such as average blood lead up to 3 years of age, which was found to be correlated strongly with 2-year blood lead concentration. One meta-analysis (Pocock et al. 1994) included cross-sectional studies 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. in a separate analysis; those studies also showed an inverse (mathematics) inverse - Given a function, f : D -> C, a function g : C -> D is called a left inverse for f if for all d in D, g (f d) = d and a right inverse if, for all c in C, f (g c) = c and an inverse if both conditions hold. association of blood lead concentration with IQ at [greater than or equal to] 6 years of age. The other meta-analysis (Schwartz 1994) included cross-sectional studies in the overall model, but additional analysis of cross-sectional studies showed findings similar to those in the prospective studies. Both meta-analyses concluded that the prospective design was more reliable in studying blood lead-IQ associations, because reverse 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. , in which impaired children ingest more leaded paint or dust, was less likely to produce an association. Neither recta-analysis emphasized the importance of cross-sectional associations in older children, and both implied that the interpretation most consistent with the overall results was that peak blood lead concentration, achieved at about 2 years of age, was most likely responsible for the cognitive effects, even though these effects were not reliably detectable until [greater than or equal to] 4 years of age. These meta-analyses as well as the findings from the individual prospective studies, especially Boston (Bellinger et al. 1992), have had a strong effect on the interpretation of both longitudinal and cross-sectional studies. One consequence is that if we wish to know the minimum concentration in blood at which lead affects cognition cognition Act or process of knowing. Cognition includes every mental process that may be described as an experience of knowing (including perceiving, recognizing, conceiving, and reasoning), as distinguished from an experience of feeling or of willing. , then we are obliged o·blige v. o·bliged, o·blig·ing, o·blig·es v.tr. 1. To constrain by physical, legal, social, or moral means. 2. to follow children starting at 2 years of age. School-age children, in whom IQ is relatively stable and testable, have lower blood lead concentrations. A cross-sectional study among school-age children might reflect latent damage done by higher blood lead concentrations at 2 years of age but detectable only at school age because IQ can be more reliably tested with greater precision at that age. This interpretation has guided screening programs, which focus on 1- and 2-year-olds; clinical trials, which have treated 2-year-olds; and the interpretation of the cross-sectional literature. Thus, the report in 2000 (Lanphear et al. 2000) that school-age children studied in the third National Health and Nutrition Examination Survey had an inverse relationship A inverse or negative relationship is a mathematical relationship in which one variable decreases as another increases. For example, there is an inverse relationship between education and unemployment — that is, as education increases, the rate of unemployment between their concurrent blood lead concentrations and IQ even at blood lead concentrations < 10 [micro]g/dL, the current 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 ) level of concern, was interpreted by some to reflect the effects of the children's higher blood lead concentrations when they were 2 years old. However, after publication of prospective data showing that even peak blood lead concentrations < 10 [micro]g/dL in toddlers were associated with decrements in IQ (Canfield can·field n. Games A form of solitaire. [After Richard Albert Canfield (1855-1914), American gambler.] Noun 1. et al. 2003), changes in policy were quickly considered. It is not clear that only the peak blood lead concentration matters. In the prospective Boston study that examined children with very low lead exposure, blood lead concentration at 2 years of age, but not at 57 months or 10 years of age, was significantly associated with IQ at 10 years of age (Bellinger et al. 1992). Other prospective studies of children with relatively high lead exposure, however, found concurrent (Dietrich 1995; Dietrich et al. 1993) or lifetime average blood lead concentration (Tong tong 1 tr.v. tonged, tong·ing, tongs To seize, hold, or manipulate with tongs. [Back-formation from tongs. et al. 1996) to be more strongly associated with IQ measurement at school age than were peak levels. Another study modeling relative contribution of prenatal prenatal /pre·na·tal/ (-na´tal) preceding birth. pre·na·tal adj. Preceding birth. Also called antenatal. prenatal preceding birth. and 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. (0-2 years, 2 to 3-7 years) blood lead also found increases in blood lead after 2 years of age associated with IQ deficits after 2 years of age (Wasserman et al. 2000). Other analyses have asked whether greater declines in blood lead concentration from the 2-year peak are associated with higher IQ later. Two studies with analyses that adjusted for 2-year cognitive test Cognitive tests are assessments of the cognitive capabilities of humans and animals. Tests administered to humans include various forms of IQ tests; those administered to animals include the mirror test (a test of self-awareness) and the T maze test (which tests learning ability). score found that children whose blood lead concentrations fell more after 2 years of age had increased IQ (Liu et al. 2002; Ruff et al. 1993). However, another study modeling change in IQ found that decline in blood lead concentration from 2 or 4 years of age to 11-13 years of age was not associated with IQ improvement, and that declines in blood lead concentration from 7 to 11-13 years of age were associated with only modestly better IQ scores (Tong et al. 1998). Overall, the findings suggest that the longer the blood lead is at high levels, the greater the effect on IQ, and thus they imply that blood lead concentration in school age may matter because higher concentrations usually reflect longer exposures or higher current body burdens as a result of heavy exposure in earlier years. It also raises the level of concern for children in areas where leaded gasoline gasoline or petrol, light, volatile mixture of hydrocarbons for use in the internal-combustion engine and as an organic solvent, obtained primarily by fractional distillation and "cracking" of petroleum, but also obtained from natural gas, by and industrial sources are still a source of exposure. In general, outdoor exposures such as these produce peak blood lead concentrations at later ages among children (Wasserman et al. 1997). Although such exposure may be experienced by older and perhaps less susceptible children, this exposure might also be more prolonged pro·long tr.v. pro·longed, pro·long·ing, pro·longs 1. To lengthen in duration; protract. 2. To lengthen in extent. and consequently produce more damage. Here we examine a large prospective data set from a clinical trial of lead poisoning treatment. This data set includes blood lead concentrations measured frequently between entry at about 24 months of age and the last follow-up at 90 months, as well as the results of IQ testing at multiple times. We sought to clarify the strength of the association between IQ and blood lead at the various time points, to examine whether the cross-sectional associations seen in the 84- to 90-month-old children represent residual effects from 2 years of age or new effects emerging among these school-age children, and how the change in blood lead over time is related to IQ at follow-up. Materials and Methods The Treatment of Lead-exposed Children (TLC TLC total lung capacity; thin-layer chromatography. TLC abbr. 1. thin-layer chromatography 2. ) study was a multicenter, randomized ran·dom·ize tr.v. ran·dom·ized, ran·dom·iz·ing, ran·dom·iz·es To make random in arrangement, especially in order to control the variables in an experiment. , placebo-controlled clinical trial of 780 children 12-33 months of age with blood lead concentrations of 20-44 [micro]g/dL. The study tested whether succimer treatment of toddlers resulted in better scores on IQ tests and other measures of behavioral and psychological function (TLC 1998). Although succimer lowered blood lead concentrations for about 10 months, it did not improve test scores at 36-month (Rogan et al. 2001) or 60-month follow-up (Dietrich et al. 2004). Thus, the succimer and placebo groups can be analyzed separately or combined to study the effect of blood lead concentration on cognitive test scores. Blood lead concentration. 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 collected with lead-free containers twice before randomization randomization (ranˈ·d  ·m and on days 7, 28, and 42 after
the beginning of each course of treatment. After the termination of
treatment, blood lead concentrations were measured every 3-4 months.
From up to 24 measurements of blood lead concentrations, we used the
second blood sample before randomization at baseline (about 2 years of
age), the blood sample at 36-month follow-up (about 5 years of age), and
the last blood sample at 60-month follow-up (about 7 years of age) (TLC
2000). The peak blood lead concentration from baseline to 7 years of age
was the maximum blood lead concentration of any of up to 24
measurements. For those having their blood lead concentration measured
at 5 or 7 years of age, average blood lead concentration from baseline
to 5 or 7 years of age was calculated by dividing the area under the
blood lead concentration-age curve (inflecting a connecting line at each
blood lead measurement, and then summing the areas of the trapezoids) by
age interval. The blood lead concentrations were measured at the
Nutritional Biochemistry biochemistry, science concerned chiefly with the chemistry of biological processes; it attempts to utilize the tools and concepts of chemistry, particularly organic and physical chemistry, for elucidation of the living system. Branch of the CDC by atomic absorption
spectrometry Absorption spectrometryA scientific procedure to determine chemical makeup of samples. Mentioned in: Herbalism, Traditional Chinese based on the methods described by Miller et al. (1987). Cognitive test scores. At baseline, children were given the Bayley Scales of Infant Development-II (BSID-II) (Bayley 1993), the most widely used scales of infant intelligence tests. The Mental Development Index (MDI (1) (Multiple Document Interface) A Windows function that allows an application to display and lets the user work with more than one document at the same time. ) of BSID-II is statistically analogous to an IQ score. Like those from the Wechsler scales, standard scores from the BSID-II have a mean of 100 and standard deviation In statistics, the average amount a number varies from the average number in a series of numbers. (statistics) standard deviation - (SD) A measure of the range of values in a set of numbers. of 15. For all these measures, raw scores are transformed into these standard scores. The children's full-scale IQ at 36-month follow-up was measured with the Wechsler Preschool and Primary Scales of Intelligence-Revised (Wechsler 1989), and at 60-month follow-up IQ was measured with the Wechsler Intelligence Scale for Children-III (Wechsler 1991). At one of the visits between enrollment and 36-month follow-up, the caregiver's IQ (the mother for 88% of children, the father for 4%, and another caregiver care·giv·er n. 1. An individual, such as a physician, nurse, or social worker, who assists in the identification, prevention, or treatment of an illness or disability. 2. for 8%) was measured with the two-subtest version of the Wechsler Adult Intelligence Scale-Revised Wechsler Adult Intelligence Scale-Revised WAIS-R Psychology A measure of a person's cognitive abilities. See Psychological tests. (Silverstein 1985; Wechsler 1981). Statistical analysis. We used multiple linear regression Linear regression A statistical technique for fitting a straight line to a set of data points. models to analyze the association of blood lead concentration and cognitive scores at various ages. Both log-transformed and untransformed blood lead concentrations were tested in the statistical models, and the findings were similar. In this article, only results of untransfurmed blood lead concentrations were used. Covariates include clinical center (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. ; 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. ; Newark, New Jersey; and Philadelphia, Pennsylvania), race (black or white/others), sex (male or female), language (English or Spanish), parent's education (< 12 years, 12 years, > 12 years of education), parent's employment (neither working, either working), single parent (yes or no), age at blood lead concentration test, and caregiver's IQ. First, one blood lead concentration (at 2, 5, and 7 years of age, peak or average) was included as an independent variable to model IQ score (MDI at 2 years, IQ at 5 or 7 years of age), with adjustment for covariates. Then, to evaluate whether the cross-sectional association was a residue of the effect from an earlier blood lead concentration, both prior and concurrent blood lead concentration were included in the models (blood lead concentration at 2 and 5 years on IQ at 5 years of age, blood lead concentration at 2 and 7 years on IQ at 7 years of age, blood lead concentration at 5 and 7 years on IQ at 7 years of age). The model thus includes later IQ as the dependent variable, and earlier blood lead concentration, later blood lead concentration, and covariates as the independent variables. We also tried additional adjustment for earlier IQ, which theoretically tests for change in IQ by change in blood lead concentration. This allows us to compare results with previous studies using a similar approach (Liu et al. 2002; Ruffet al. 1993). Quantitative analysis Quantitative Analysis A security analysis that uses financial information derived from company annual reports and income statements to evaluate an investment decision. Notes: of both prior and concurrent blood lead concentration in the same model, even without adjustment for prior IQ, still faces the problem of collinearity collinearity very high correlation between variables. between the two blood lead measurements. A qualitative alternative may reduce the precision in estimation but should show the effect on school-age IQ by blood lead concentration with less distortion. Therefore, we used the median of earlier blood lead concentration and the median of later blood lead concentration as cutoff points Cutoff point The lowest rate of return acceptable on investments. to reduce earlier and later blood lead concentrations to binary variables. This does not eliminate the inherent correlation between earlier and later blood lead concentrations (children with lower earlier blood lead concentrations tend to have lower later blood lead concentrations), but it reduces the impact of collinearity on the stability of the estimated 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 produces a model that is easy to interpret. To see whether the association between blood lead concentration and IQ score varied by treatment group (succimer or placebo), we repeated these regression models by treatment group. We used SAS (1) (SAS Institute Inc., Cary, NC, www.sas.com) A software company that specializes in data warehousing and decision support software based on the SAS System. Founded in 1976, SAS is one of the world's largest privately held software companies. See SAS System. (version 9.0; SAS Institute SAS Institute Inc., headquartered in Cary, North Carolina, USA, has been a major producer of software since it was founded in 1976 by Anthony Barr, James Goodnight, John Sall and Jane Helwig. Inc., Cary, NC) for statistical analysis. All tests are two sided. Because of the difference in the number of children tested for each follow-up measurement, the sample sizes of the different regression models vary slightly. Results Study subjects. Four centers were involved in the recruitment, treatment, and follow-up of a total of 780 children in the TLC study: Baltimore had 213, Cincinnati had 194, Newark had 208, and Philadelphia had 165. Three hundred ninety-six children were randomly assigned to the succimer group, and 384 to the placebo group. There were no differences between groups in age, sex, race, 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 blood lead concentration of children at recruitment. The children were mainly African American African American Multiculture A person having origins in any of the black racial groups of Africa. See Race. (77%), from households speaking English (95%), with a single parent (72%), and receiving public assistance (97%). Blood lead concentration and IQ scores. The blood lead concentrations and IQ scores of TLC children at baseline and at 5 and 7 years of age are shown in Table 1. The correlation coefficients Correlation Coefficient A measure that determines the degree to which two variable's movements are associated. The correlation coefficient is calculated as: of blood lead concentrations at baseline and 5 or 7 years were 0.40 and 0.27, respectively; that between measurements at 5 and 7 years was 0.78. The correlation coefficients of cognitive scores at baseline and 5 or 7 years were 0.54 and 0.41, respectively; that between 5 and 7 years was 0.78. All of these correlation coefficients were statistically significant (all p-values < 0.001). Although mean blood lead concentration declined over time, the standard deviations remained similar. As shown in Table 1, the ages at IQ tests and blood lead concentration measurements were very close. For example, at about 7 years of age, 94% of children had IQ and blood lead tests on the same day. Heterogeneity het·er·o·ge·ne·i·ty n. The quality or state of being heterogeneous. heterogeneity the state of being heterogeneous. between succimer and placebo groups. There were no statistical differences between succimer and placebo groups in either blood lead concentrations or cognitive scores at the time points under consideration (all p-values > 0.10). The association between blood lead concentration and IQ score was homogeneous between treatment groups except for baseline blood lead concentration and baseline MDI: 10-[micro]g/dL increment To add a number to another number. Incrementing a counter means adding 1 to its current value. at baseline had a coefficient of-1.6 (SE, 1.3) MDI points in the succimer group and -4.6 (SE, 1.4) MDI points in the placebo group. In the regression models including both prior and concurrent blood lead concentrations without additional adjustment for prior IQ, the results were similar in the succimer and placebo groups. Associations of blood lead concentration and IQ. Figure 1 displays the mean IQ at current and subsequent ages by quartiles of blood lead measured at 2, 5, and 7 years of age. Although blood lead concentrations decreased over time and IQ test scores first declined and then increased, the inverse association between concurrent blood lead concentration and IQ test scores remained constant. [FIGURE 1 OMITTED] Table 2 shows the estimated difference in cognitive test scores for each 10-[micro]g/dL change in prior, concurrent, peak, or average blood lead concentration. Overall, the concurrent blood lead concentration always had the strongest association with IQ, and as the children aged, the relationship grew stronger. The peak blood lead concentration from baseline to 7 years of age was not associated with IQ at 7 years of age. The average blood lead concentration from baseline to 5 or 7 years of age was inversely in·verse adj. 1. Reversed in order, nature, or effect. 2. Mathematics Of or relating to an inverse or an inverse function. 3. Archaic Turned upside down; inverted. n. 1. associated with IQ at 5 or 7 years of age. Is the cross-sectional association at a later age a residue of effects attributable to earlier blood lead concentrations? In the model including both prior and concurrent blood lead concentrations, concurrent blood lead was always more predictive of later IQ scores (Table 3). Adjustment for prior IQ did not significantly change the strength of association with concurrent blood lead concentration. Alternatively, categorizing prior and concurrent blood lead concentrations by the corresponding medians in the regression model had similar results (Table 4). Among children with both prior and concurrent blood lead concentrations below the corresponding medians as the reference group, those with prior blood lead concentrations at or above median but concurrent blood lead concentrations below the median did not have a decrease in school-age IQ score. In contrast, children with concurrent blood lead concentrations at or above the median had roughly similar IQ decreases, irrespective of irrespective of prep. Without consideration of; regardless of. irrespective of preposition despite their prior blood lead concentration. Discussion In these data we found a stronger relationship between blood lead concentration at 7 years and IQ at 7 years than between IQ at 7 years and the higher 2-year-old blood lead concentration; the association of blood lead concentration at 5 years and IQ at 5 years is also stronger than that between IQ at 5 years and blood lead at 2 years. The strength of the cross-sectional association increases over time (from 2 years of age to 5-7 years of age), despite lower blood lead concentrations in older children. This analysis supports the idea that lead exposure continues to be toxic to children as they reach school age, and does not support the interpretation that all the damage is done by the time the child is 2 or 3 years of age. We found previously that children with relatively greater declines in blood lead have improved IQ, but that finding was limited to children given placebo (Liu et al. 2002). The analysis that yielded that result was modeled closely on that of a previous report (Ruff et al. 1993) in which declining blood lead concentration was associated with increased IQ independent of chelation treatment, because our primary goal was to attempt to replicate their findings. We now suspect that the difference in the results for placebo and succimer groups was caused by unexpected heterogeneity in the relationship at baseline between blood lead and IQ in the placebo and succimer groups. Removing baseline MDI from the model that was previously used reduced the difference between placebo and succimer groups. In neither analysis did we see evidence in the overall group or in the placebo group that blood lead at 2 years of age determined IQ at 7 years of age. Nevertheless, modeling two change measures (IQ change and blood lead change) in the same model was complicated by intraindividual tracking in blood lead concentration and IQ over time as well as correlation between baseline lead and baseline IQ (Dietrich et al. 1993; Ernhart 1993). Theoretically, putting baseline IQ in the regression model would yield an estimate of the effect of blood lead concentration change on individual IQ change over time; however, the baseline IQ may be on the causal path. Also, IQ at an early age has less stability (Sternberg et al. 2001), and the use of different IQ test measures at 2 years of age and school age (Liu et al. 2002; Ruff et al. 1993; Tong et al. 1998) may actually introduce more variance. Thus, although it is attractive to look at change in IQ by change in blood lead when considering the effect of an intervention, modeling those changes simultaneously is complex and can produce results that are difficult to interpret. A simpler approach is to model IQ at school age by prior and concurrent blood lead concentration: If higher concurrent blood lead concentrations are associated with lower IQ, then it is plausible that we should attempt to keep blood lead concentrations low. It is prudent to ponder Ponder - A non-strict polymorphic, functional language by Jon Fairbairn <jf@cl.cam.ac.uk>. Ponder's type system is unusual. It is more powerful than the Hindley-Milner type system used by ML and Miranda and extended by Haskell. whether greater association between concurrent blood lead and IQ score at school age was due to reverse causality. This could happen if the lower IQ preceded higher lead concentrations. In this data set, baseline MDI was not associated with blood lead concentration at 7 years, with or without adjustment of baseline blood lead. This supports the findings of the longitudinal Port Pirie Port Pirie (pĭr`ē), city (1991 pop. 14,110), South Australia, S Australia, on an inlet of Spencer Gulf. It is a railroad center and has uranium refineries and smelting works for the silver-lead mines at Broken Hill. study (Tong et al. 1996) and supports the notion that lead exposure causes cognitive deficiency in children within approximately normal intelligence range, but not the reverse, although the association between much lower IQ than seen in these study subjects and later high blood lead through pica cannot be tested here. Another way in which the strengthening association over time may be produced is to have a fixed effect of the higher blood lead concentrations at 2 years of age concentrated in a more restricted range of blood lead concentrations at 7 years of age. In the TLC study, however, the range of blood lead concentration at entry was 24 [micro]g/dL, and the range at 7 years of age was 26 [micro]g/dL, with similar standard deviations. The restricted range of blood lead concentrations in TLC at enrollment might produce an imprecise im·pre·cise adj. Not precise. im  pre·cise ly adv. estimate of the slope of the relationship between IQ and blood
lead concentration, which would stabilize as the children led different
lives and their blood lead concentrations dispersed dis·perse v. dis·persed, dis·pers·ing, dis·pers·es v.tr. 1. a. To drive off or scatter in different directions: The police dispersed the crowd. b. . The slope of blood lead concentration at 2 years of age versus IQ at 5 years of age is similar to that seen in the meta-analyses, and the cross-sectional associations are similar to those seen in studies previously reviewed (Pocock et al. 1994; Schwartz 1994). It seems unlikely that the slope would be substantially steeper if more children with lower values at 2 years of age were added, because the range of 10-20 [micro]g/dL is the range most stably estimated from the meta-analyses, and the TLC estimate is already similar to it. This finding implies that cross-sectional associations seen in older children, such as the school-age children in the National Health and Nutrition Examination Survey data, should not be dismissed as representing a residual from early high lead exposure. Breslau et al. (2001) recently showed that urban Detroit, Michigan “Detroit” redirects here. For other uses, see Detroit (disambiguation). Detroit (IPA: [dɪˈtʰɹɔɪt]) (French: Détroit, meaning strait , children had declines in IQ from 6 to 11 years of age, whereas suburban children showed no change in the inherently age-adjusted scores. The data suggested that growing up in a racially segregated and disadvantaged community might contribute to a decline in IQ scores in the early school years. However, urban dwelling may serve as a surrogate surrogate n. 1) a person acting on behalf of another or a substitute, including a woman who gives birth to a baby of a mother who is unable to carry the child. 2) a judge in some states (notably New York) responsible only for probates, estates, and adoptions. of individual exposure, such as lead exposure. TLC children had similar communities of origin as the urban children in the study by Breslau et al. (2001). It could be that lead exposure is causally related to this phenomenon, or it could be that factors leading to the families' inability to improve their housing led to both higher lead levels and lower IQ. In either case, the effect of lead exposure during school age cannot be ruled out entirely. We did not have a direct measure of the degree to which the caregiver interacts with and stimulates the child, such as the Home Observation for Measurement of the Environment score (Caldwell and Bradley 1979). The strengths of this analysis include the relatively large size of the data set and the degree of testing and quality control that went into the measurement of both blood lead and IQ. The longitudinal nature of these data is a requirement for this kind of analysis, and the TLC study enjoyed remarkably high retention rates for 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. among relatively disadvantaged families. Children in the TLC study had blood lead concentrations high enough to be eligible for a clinical trial of drug therapy. These blood lead concentrations are considerably higher than those of most children in the United States today, even children in poverty (Pirkle et al. 1998). Although it may be that the relationships among these variables are qualitatively different in most children whose blood lead levels never reach 20 [micro]g/dL, this is unlikely because the estimates from this study are well within the range of reported lead effects. If concurrent blood lead remains important until school age for optimum cognitive development, and if 6- and 7-year-olds are as or more sensitive than 2-year-olds, then the difficulties in preventing lead exposure are magnified, but the potential benefit of prevention is greater.
Table 1. Blood lead concentrations and IQ scores of TLC children.
Variable No. Mean [+ or -] SD
Blood lead concentration ([micro]g/dL)
Baseline (2 years of age) 780 26.2 [+ or -] 5.1
5 years of age 731 12.0 [+ or -] 5.2
7 years of age (a) 622 8.0 [+ or -] 4.0
Peak from baseline to 7 years of age 780 30.6 [+ or -] 6.6
Average from baseline to 5 years of age 731 17.0 [+ or -] 5.0
Average from baseline to 7 years of age 622 14.4 [+ or -] 4.6
IQ score
MDI at baseline 765 82.2 [+ or -] 13.7
IQ at 5 years of age 727 80.6 [+ or -] 13.3
IQ at 7 years of age 644 86.7 [+ or -] 13.3
Age at tests
Variable [years (mean [+ or -] SD)]
Blood lead concentration ([micro]g/dL)
Baseline (2 years of age) 2.0 [+ or -] 0.5
5 years of age 5.0 [+ or -] 0.5
7 years of age (a) 7.0 [+ or -] 0.2
Peak from baseline to 7 years of age 2.2 [+ or -] 0.7
Average from baseline to 5 years of age
Average from baseline to 7 years of age
IQ score
MDI at baseline 2.0 [+ or -] 0.5
IQ at 5 years of age 5.0 [+ or -] 0.5
IQ at 7 years of age 7.1 [+ or -] 0.2
(a) One child with a blood lead concentration of 50.8 [micro]g/dL was
excluded from the entire analysis.
Table 2. Adjusted estimates (95% confidence intervals) of the effect
of a change of 10 [micro]g/dL in five measures of lead exposure on
change on IQ test scores measured at 2, 5, and 7 years of age.
Independent variable: blood lead concentration
(per 10-[micro]g/dL increment) (a)
Outcome variable:
IQ score (points) 2 years of age 5 years of age 7 years of age
MIDI at baseline -2.9
(-4.7 to -1.0)
IQ at 5 years of age -2.3 -3.5
(-4.1 to -0.5) (-5.3 to -1.7)
IQ at 7 years of age -1.1 -2.9 -5.4
(-2.9 to 0.7) (-4.8 to -1.1) (-7.8 to -2.9)
Independent variable: blood
lead concentration (per
10-[micro]g/dL increment) (a)
Outcome variable:
IQ score (points) Peak (b) Average (c)
MIDI at baseline
IQ at 5 years of age -2.9
(-4.8 to -1.0
IQ at 7 years of age -0.7 -3.3
(-2.1 to 0.7) (-5.4 to -1.1)
(a) Each combination of outcome and independent variables was modeled
separately; all were adjusted for clinic center, race, sex, language,
parent's education, parent's employment, single parent, caregiver's
IQ, and exact age at blood lead concentration measurement. (b) Peak
blood lead concentration between baseline and 7 years of age.
(c) Average blood lead concentration from baseline to 5 years of age
for IQ at 5 years of age, and average blood lead concentration from
baseline to 7 years of age for IQ at 7 years of age.
Table 3. Adjusted estimates (95% confidence intervals) of the effect
of a 10-[micro]g/dL change in prior and con-current blood lead
concentrations on IQ test scores at 5 and 7 years of age.
Independent
variable: blood
lead concentrations
(per 10-[micro]g/
dL increment) (a)
Additional adjustment
Outcome variable: for baseline MDI or
IQ score 5-year IQ score 2 years of age
IQ at 5 years of age None -1.2 (-3.1 to 0.7)
Baseline MDI -0.1 (-1.8 to 1.5)
IQ at 7 years of age None 0.1 (-1.8 to 2.0)
Baseline MIDI 0.4 (-1.4 to 2.1)
None
5-year IQ
Independent variable: blood lead
concentrations (per 10-[micro]g/dL
increment) (a)
Outcome variable:
IQ score 5 years of age 7 years of age
IQ at 5 years of age -2.9 (-4.9 to -0.9)
-2.4 (-4.1 to -0.7)
IQ at 7 years of age -5.0 (-7.6 to -2.4)
-3.8 (-6.2 to -1.4)
-1.2 (-4.1 to 1.7) -3.9 (-7.4 to 0.0)
1.7 (-0.3 to 3.6) -3.7 (-6.3 to -1.1)
(a) Each row of results was from separate models; all were adjusted
for clinic center, race, sex, language, parent's education, parent's
employment, single parent, caregiver's IQ, and exact age at both
blood lead measurements.
Table 4. Adjusted estimates of regression coefficients (95% confidence
intervals) of categorical blood lead concentrations in models for
IQ scores.
Category of blood lead
concentration
([micro]g/dL) (a) No.
2 years 5 years
< 24.9 < 11.4 227
< 24.9 [greater than or equal to] 11.4 137
[greater than or equal to] 24.9 < 11.4 138
[greater than or equal to] 24.9 [greater than or equal to] 11.4 228
2 years 7 years
< 24.9 < 7.2 187
< 24.9 [greater than or equal to] 7.2 114
[greater than or equal to] 24.9 < 7.2 121
[greater than or equal to] 24.9 [greater than or equal to] 7.2 195
5 years 7 years
< 11.4 < 7.2 244
< 11.4 [greater than or equal to] 7.2 52
[greater than or equal to] 11.4 < 7.2 62
[greater than or equal to] 11.4 [greater than or equal to] 7.2 255
Outcome variable
IQ at 5 years (b)
Category of blood lead
concentration
([micro]g/dL) (a) Mean score Comparison
2 years
< 24.9 83.7 Referent
< 24.9 78.8 -2.9 (-5.8 to 0.1)
[greater than or equal to] 24.9 82.4 0.4 (-2.5 to 3.3)
[greater than or equal to] 24.9 77.6 -4.0 (-6.6 to -1.5)
2 years
< 24.9
< 24.9
[greater than or equal to] 24.9
[greater than or equal to] 24.9
5 years
< 11.4
< 11.4
[greater than or equal to] 11.4
[greater than or equal to] 11.4
Outcome variable
IQ at 7 years (b)
Category of blood lead
concentration
([micro]g/dL) (a) Mean score Comparison
2 years
< 24.9
< 24.9
[greater than or equal to] 24.9
[greater than or equal to] 24.9
2 years
< 24.9 89.3 Referent
< 24.9 84.6 -3.6 (-6.4 to -0.7)
[greater than or equal to] 24.9 88.9 -0.0 (-2.8 to 2.7)
[greater than or equal to] 24.9 84.0 -3.7 (-6.2 to -1.3)
5 years
< 11.4 89.4 Referent
< 11.4 85.9 -2.3 (-5.9 to 1.3)
[greater than or equal to] 11.4 88.2 0.3 (-3.1 to 3.7)
[greater than or equal to] 11.4 83.9 -3.8 (-6.0 to -1.6)
(a) Measured at 2 and 5 years of age, 2 and 7 years of age, and 5 and
7 years of age. (b) Adjusted for clinic center, race, sex, language,
parent's education, parent's employment, single parent, caregiver's
IQ, and exact age at both blood lead measurements.
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The total capital that is less than the par value of the company's capital stock. Notes: 1. This is usually reduced because of poorly estimated losses or gains. 2. 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. Dietrich KN. 1995. A higher level of analysis: Bellinger's, interpreting the literature on lead and child development. Neurataxicol Teratol 17:223-225, 249-251. Dietrich KN, Berger OG, Succop PA, Hammond PB, Bornschein RL. 1993. The developmental consequences of low to moderate prenatal and postnatal lead exposure: intellectual attainment in the Cincinnati Lead Study Cohort following school entry. Neurotoxicol Teratol 15:37-44. Dietrich KN, Ware JH, Salganik M, Radcliffe J, Rogan W J, Rhoads GG, et al. 2004. 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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 . Br Med J 312:1569-1575. Tong S, Baghurst PA, Sawyer MG, Burns J, McMichael AJ. 1998. Declining blood lead levels and changes 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 during childhood: the Port Pirie Cohort Study. JAMA 280:1915-1919. 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 105:956-962. Wasserman GA, Liu X, Popovac B, Factor-Litvak P, Kline J, Waternaux C, et al. 2000. The Yugoslavia prospective lead study: contributions of prenatal and postnatal lead exposure to early intelligence. Neurotoxicol Teratol 22:811-818. Weehsler D. 1981. Wechsler Adult Intelligence Scale Wechsler Adult Intelligence Scale (WAIS): see psychological tests. for Adults, Revised. San Antonio, TX:Psychological Corporation. Wechsler D. 1989. The Wechsler Preschool and Primary Scales of Intelligence-Revised. San Antonio, TX:Psychological Corporation. Wechsler D. 1991. Wechsler Intelligence Scale for Children-III. San Antonio, TX:Psychological Corporation. Aimin Chen, (1) Kim N. Dietrich, (2) James H. Ware, (3) Jerilynn Radcliffe, (4) and Walter J. Rogan (1) (1) Epidemiology Branch, National Institute of Environmental Health Sciences The National Institute of Environmental Health Sciences (NIEHS) is one of 27 Institutes and Centers of the National Institutes of Health (NIH),which is a component of the Department of Health and Human Services (DHHS). The Director of the NIEHS is Dr. David A. Schwartz. , National Institutes of Health, Department of Health and Human Services Noun 1. Department of Health and Human Services - the United States federal department that administers all federal programs dealing with health and welfare; created in 1979 Health and Human Services, HHS , Research Triangle Park Research Triangle Park, research, business, medical, and educational complex situated in central North Carolina. It has an area of 6,900 acres (2,795 hectares) and is 8 × 2 mi (13 × 3 km) in size. Named for the triangle formed by Duke Univ. , North Carolina North Carolina, state in the SE United States. It is bordered by the Atlantic Ocean (E), South Carolina and Georgia (S), Tennessee (W), and Virginia (N). Facts and Figures Area, 52,586 sq mi (136,198 sq km). Pop. , USA; (2) Department of Environmental Health, University of Cincinnati The University of Cincinnati is a coeducational public research university in Cincinnati, Ohio. Ranked as one of America’s top 25 public research universities and in the top 50 of all American research universities,[2] , Cincinnati, Ohio, USA; (3) Harvard School of Public Health The Harvard School of Public Health is (colloquially, HSPH) is one of the professional graduate schools of Harvard University. Located in Longwood Area of the Boston, Massachusetts neighborhood of Mission Hill, next to Harvard Medical School and Cambridge, Massachusetts, , Harvard University Harvard University, mainly at Cambridge, Mass., including Harvard College, the oldest American college. Harvard College Harvard College, originally for men, was founded in 1636 with a grant from the General Court of the Massachusetts Bay Colony. , Boston, Massachusetts “Boston” redirects here. For other uses, see Boston (disambiguation). Boston is the capital and most populous city of Massachusetts.[3] The largest city in New England, Boston is considered the unofficial economic and cultural center of the entire New , USA; (4) Department of Psychology, Children's Hospital of Philadelphia The Children's Hospital of Philadelphia is one of the largest and oldest children's hospitals in the world. "CHOP" has been ranked as the best children's hospital in the United States by U.S. News & World Report and Child Magazine in recent years. , and University of Pennsylvania School of Medicine The University of Pennsylvania's School of Medicine, presently located in the University City section of Philadelphia, Pennsylvania, was the United States's first school of medicine, founded at the College of Philadelphia, as the University was then called. , Philadelphia, Pennsylvania, USA Address correspondence to W.J. Rogan, Epidemiology Branch, NIEHS NIEHS National Institute of Environmental Health Sciences (NIH, DHHS) , MD A3-05, P.O. Box 12233, Research Triangle Park, NC 27709 USA. Telephone: (919) 541-4578. Fax: (919) 541-2511. E-mail: rogan@niehs.nih.gov The Treatment of Lead-exposed Children trial was supported by the National Institutes of Environmental Health Sciences in cooperation with the National Institutes of Health Office of Minority Health, and by the Centers for Disease Control and Prevention. Succimer and placebo capsules were gifts from McNeil Labs, Fort Washington Fort Washington, military post during the American Revolution, situated on the highest point of Manhattan island, New York City, overlooking the Hudson River opposite Fort Lee, N.J. , PA, USA. The authors declare they have no competing financial interests. Received 29 September 2004; accepted 2 February 2005. |
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