Printer Friendly

Trends in Blood Lead Levels Among Children -- Boston, Massachusetts, 1994-1999.

Data from the National Health and Nutrition Examination Survey and national childhood blood lead surveillance data from 19 states indicated that average blood lead levels (BLLs) in young children decreased during the late 1990s [1-3]. The proportion of children tested who had BLLs [greater than or equal to] 10 [micro]g/dL declined from 10.5% in 1996 to 7.6% in 1998, although the proportion was higher in certain counties [3]. To determine whether a similar decline had occurred in Boston, Massachusetts, where a high proportion of children are tested each year, and whether any changes were similar in high- and low-risk neighborhoods, CDC, in collaboration with the Boston Childhood Lead Poisoning Prevention Program (BCLPPP) performed an analysis of BLLs among children aged 6-72 months in Boston during 1994-1999. The results indicate that BLLs in Boston declined during this period, but because of the geographic variation in lead exposure, continued surveillance will be necessary to eliminate childhood lead poison ing.

Private laboratories are mandated by Massachusetts law to report all blood lead test results to the state laboratory. BCLPPP receives all blood lead test results for Boston residents from the state laboratory. Massachusetts lead screening regulations require that health-care providers screen children at age 9-12 months and annually up to age 48 months. Children at high risk for lead poisoning are screened every 6 months during ages 6 months-3 years and annually from ages 3-6 years. The proportion of children tested who had BLLs [greater than or equal to] 10 [micro]g/dL and 20 [micro]g/dL by fiscal year (FY) from July 1, 1993, through June 30, 1999, was computed. Children were counted once in each FY in which they had at least one blood lead test, and the highest test result in a given FY was considered in the analysis. Because sample contamination of a capillary test can result in a slight overestimation of BLLs, only tests performed on venous samples with BLLs [greater than or equal to] 10 [micro]g/dL were considered in the numerator, and tests using both venous and capillary samples were used in the denominator [4,5]. Massachusetts Institute for Social and Economic Research data were used to estimate the population of children aged [less than]6 years for 1994 and 1998[4]. U.S. census data from 1990 were used to characterize 16 Boston neighborhoods by ZIP code according to factors that may indicate risk for lead exposure (e.g., percentage of pre-1950 housing, minority children, and children aged [less than]6 years living in poverty). Housing parcel information was obtained from tax assessor data.

The number of children aged 6-72 months screened annually in Boston declined 23%, from 35,304(73.3% of the population aged [less than]6 years) in 1994 to 27,233 (61.6% of population aged [less than]6 years) in 1999 (Figure 1). However, screening among children aged 9-48 months remained high (82% during FY 1999).

During 1994-1999, the overall prevalence of children with BLLs [greater than or equal to] 10 [micro]g/dL declined 45%, from 9.3% (3265) to 5.1% (1398). The prevalence of children with BLLs [greater than or equal to] 20 [micro]g/dL declined 66%, from 1.5% (545) to 0.5% (140) (Figure 1). Neighborhoods with prevalence rates in the upper tertile in 1994 had a higher percentage of children living in poverty, Spanish-speaking households, and vacant parcels than neighborhoods with lower prevalence rates (Table 1). Overall, about two thirds of houses were built before 1950, and no substantial differences were found in the proportion of houses built before 1950 between the highest and lowest risk neighborhoods. The prevalence of elevated BLLs declined from 1994 to 1999 in all 16 neighborhoods, with the highest absolute average decline (4.8%) in neighborhoods with the highest prevalence in 1994. In 1999, six high-risk neighborhoods accounted for 80% of children with elevated BLLs, approximately the same as in 1994 (83 %).

The decline in prevalence of elevated BLLs during 1994-1999 was similar across age groups: 51% among children aged [less than]12 months, 42% among children aged 12-36 months, and 46% among children aged 36-72 months.

Reported by: S Franco, MS, Childhood Lead Poisoning Prevention Program, Boston Public Health Commission, Boston, Massachusetts. Lead Poisoning Prevention Br, Div of Environmental Hazards and Health Effects, National Center for Environmental Health, CDC.

Editorial Note: The findings in this report indicate that the prevalence of elevated BLLs in Boston declined consistently during 1994-1999, similar to declines reported from 19 states [3]. Building of new houses and remodeling of older houses that removed lead painted building components, such as windows, may have contributed to this decrease [6]. In addition, under the Massachusetts Lead Law [*], BCLPPP has required property owners to correct lead paint hazards in dwellings occupied by children aged [less than]6 years. Since 1985, approximately 6800 de-leading code enforcement activities have occurred in Boston, and the law has encouraged many additional property owners to comply with de-leading activities (BCLPPP. unpublished data, 2000).

Although BLLs have declined in all Boston neighborhoods, levels remained higher in 1999 in the areas with the highest levels in 1994. These high-risk neighborhoods are characterized by higher proportions of minority children, children living in poverty, and vacant properties; a high proportion of old housing, likely to have leaded paint, is found in all neighborhoods. Low socioeconomic status and associated deterioration of older housing are major contributors to lead exposure in Boston [7].

The findings in this report are subject to at least four limitations. First, reporting of blood lead test results varied among different laboratories; therefore, results may not be uniform. Second, children at high risk for blood lead poisoning also may have high screening rates. Third, this analysis does not include lead exposure measures associated with the children in the study; as a result, the prevalence rates in the population screened may not be representative of all children in Boston. Finally, the use of older housing and demographic information (i.e., census and tax assessor data) may not reflect changes in some Boston neighborhoods.

Approximately 1300 children in Boston are identified annually with BLLs [greater than or equal to] 10 [micro]g/dL, levels high enough to adversely affect cognitive development and behavior. One of the national health objectives for 2010 is to eliminate childhood lead poisoning [8]. Because of the substantial geographic variation in lead exposure, continued use of blood lead data for surveillance purposes will be essential in Boston and other jurisdictions to focus resources on high-risk neighborhoods and to achieve the health objective.

(*.) 105 Code of Massachusetts Regulations 460.700.

References

(1.) CDC. Blood lead levels--United States, 1988-1991. MMWR 1994;43:545-8.

(2.) CDC. Update: blood lead levels--United States, 1991-1994. MMWR 1997;46:141-6.

(3.) CDC. Blood lead levels in young children--United States and selected states, 1996-1999. MMWR 2000;49:1133-7.

(4.) CDC. Preventing lead poisoning in young children. Atlanta, Georgia: US Department of Health and Human Services, CDC, 1991.

(5.) CDC. Screening young children for lead poisoning: guidance for state and public health officials. Atlanta, Georgia: US Department of Health and Human Services, CDC, 1997.

(6.) Public Health Service. Strategic plan for the elimination of childhood lead poisoning. Washington, DC: US Department of Health and Human Services, Public Health Service, 1991.

(7.) Clark CS, Bornschein RL, Succop P, Que Hee SS, Hammond PB, Peace B. Condition and type of housing as an indicator of potential environmental lead exposure and pediatric blood lead levels. Environ Res 1985;38:46-53.

(8.) US Department of Health and Human Services. Healthy people 2010 (conference ed, 2 vols). Washington, DC: US Department of Health and Human Services, 2000.
                  Risk levels for elevated blood lead
                 levels (BLLs) in 16 neighborhoods, by
                 risk factor -- Boston, Massachusetts,
                               1994-1999
                                                    Absolute
                                                   change in
                      Average                       average
                    prevalence                     prevalence
Neighborhood          at BLLs                       of BLLs
 prevalence      [greater than or            [greater than or equal
              equal to]10 [micro]g/dL          to]10 [micro]g/dL
 tertile [*]           1994            1999        1994-1999
High                   11.0             6.2           4.8
Medium                  5.5             3.0           1.5
Low                     2.5             1.2           1.3
                                          Average %
                        %                 children
                     children         aged [less than]6
                aged [less than]6           years
                      years                living
Neighborhood        with BLLs               below        Average %
 prevalence   [greater than or equal       poverty       pre-1950
                to]10 [micro]g/dL
 tertile [*]           1999                 level         housing
High                  79.8%                 31.1%          67.6%
Medium                18.6%                 24.8%          65.2%
Low                    1.6%                 22.5%          66.2%
                                   Average %
Neighborhood     %                  Spanish-
 prevalence   vacant       %        speaking
 tertile [*]  parcels  minorities  households
High           63.0%     21.0%       12.1%
Medium         25.0%      9.4%        8.4%
Low            12.0%      3.5%        4.4%
(*.)Neighborhood risk was based on the
1999 average prevalence of BLLs
[greater than or equal to]10[micro]g/dL
in 16 neighborhoods.


[Graph omitted]
COPYRIGHT 2001 U.S. Government Printing Office
No portion of this article can be reproduced without the express written permission from the copyright holder.
Copyright 2001 Gale, Cengage Learning. All rights reserved.

Article Details
Printer friendly Cite/link Email Feedback
Publication:Morbidity and Mortality Weekly Report
Geographic Code:1USA
Date:May 4, 2001
Words:1463
Previous Article:Prevalence of Arthritis -- United States, 1997.
Next Article:National Estimates of Nonfatal Injuries Treated in Hospital Emergency Departments -- United States, 2000.
Topics:

Terms of use | Privacy policy | Copyright © 2021 Farlex, Inc. | Feedback | For webmasters