Blood Lead Testing in Flint Before and After Water Contamination.

OBJECTIVE Lead is a neurotoxicant that negatively affects health. Reducing lead exposure and early detection among children are important public health goals. Our objective with this study was to determine if the September 2015 lead advisory in Flint, Michigan affected lead testing among children when possible exposure was widely publicized. METHOD This study included 206 001 children born in Michigan from 2013 to 2015 and enrolled in Medicaid, using 2013 to 2017 claims data to determine if and at what age an individual received a lead test. Difference-in-differences regression models were used to compare the receipt of lead tests among children in Flint with other cities in Michigan before and after September 2015, when a lead advisory was issued for the city warning about potential exposure to lead in publicly supplied water. RESULTS Before the lead advisory, approximately 50% of children in Flint received a lead test by 12 months of age and nearly 75% received a lead test by 24 months of age. After the September 2015 advisory, the receipt of lead tests among children in Flint increased 10 percentage points by 12 months compared with other cities. Effects by 10-month cohorts, as of 2016, revealed a 20-percentage-point increase for children in Flint compared with other cities. CONCLUSIONS Despite a highly publicized lead advisory, children in Flint enrolled in Medicaid received lead tests earlier, but the proportion of Medicaid-eligible children who were tested did not change. This suggests that increasing lead testing is a difficult policy goal to achieve and, therefore, supports recent efforts focusing on primary prevention to reduce lead exposure.

[1]  Katee Dawood,et al.  From pandemic response to portable population health: A formative evaluation of the Detroit mobile health unit program , 2021, PloS one.

[2]  P. Landrigan,et al.  It's Time to End Lead Poisoning in the United States. , 2021, JAMA pediatrics.

[3]  J. Niles,et al.  Individual- and Community-Level Factors Associated With Detectable and Elevated Blood Lead Levels in US Children: Results From a National Clinical Laboratory. , 2021, JAMA pediatrics.

[4]  L. Gazzè The price and allocation effects of targeted mandates: Evidence from lead hazards , 2021, Journal of Urban Economics.

[5]  Zhen-qiang Ma,et al.  Effects of Individual and Neighborhood Characteristics on Childhood Blood Lead Testing and Elevated Blood Lead Levels, A Pennsylvania Birth Cohort Analysis , 2021, Journal of primary care & community health.

[6]  Edson Severnini,et al.  Toxic Truth: Lead and Fertility , 2018, Journal of the Association of Environmental and Resource Economists.

[7]  Katrinell M. Davis Lead Poisoning Prevention Efforts in High-Risk Environments: Follow-up Testing Rates among Preschool Children in Flint, Michigan, 2013–2015 , 2020, Journal of Racial and Ethnic Health Disparities.

[8]  L. Gazzè,et al.  Policy Changes and Child Blood Lead Levels by Age 2 Years for Children Born in Illinois, 2001-2014. , 2020, American journal of public health.

[9]  D. Grossman,et al.  The Impact of the Flint Water Crisis on Fertility , 2019, Demography.

[10]  M. Edwards,et al.  Lead release to potable water during the Flint, Michigan water crisis as revealed by routine biosolids monitoring data. , 2019, Water Research.

[11]  M. Weitzman Blood Lead Screening and the Ongoing Challenge of Preventing Children's Exposure to Lead. , 2019, JAMA pediatrics.

[12]  M. Cabana,et al.  Screening for Elevated Blood Lead Levels in Children and Pregnant Women: US Preventive Services Task Force Recommendation Statement , 2019, JAMA.

[13]  M. McDonagh,et al.  Screening for Elevated Blood Lead Levels in Childhood and Pregnancy: Updated Evidence Report and Systematic Review for the US Preventive Services Task Force , 2019, JAMA.

[14]  J. Currie,et al.  Lead and Juvenile Delinquency: New Evidence from Linked Birth, School, and Juvenile Detention Records , 2017, Review of Economics and Statistics.

[15]  A. Ettinger,et al.  The Flint Water Crisis: A Coordinated Public Health Emergency Response and Recovery Initiative. , 2019, Journal of public health management and practice : JPHMP.

[16]  Robert L. Jones,et al.  Effect of Residential Lead-Hazard Interventions on Childhood Blood Lead Concentrations and Neurobehavioral Outcomes: A Randomized Clinical Trial , 2018, JAMA pediatrics.

[17]  R. Shimkhada,et al.  Universal Lead Screening Requirement: A California Case Study , 2018, American journal of public health.

[18]  J. Currie,et al.  Do Low Levels of Blood Lead Reduce Children&Apos;S Future Test Scores? , 2016 .

[19]  Stephen B. Billings,et al.  Life after Lead: Effects of Early Interventions for Children Exposed to Lead , 2018, American Economic Journal: Applied Economics.

[20]  S. Zahran,et al.  Four phases of the Flint Water Crisis: Evidence from blood lead levels in children , 2017, Environmental research.

[21]  B. Lanphear,et al.  Establishing and Achieving National Goals for Preventing Lead Toxicity and Exposure in Children , 2017, JAMA pediatrics.

[22]  S. McElmurry,et al.  Flint Water Crisis: What Happened and Why? , 2016, Journal - American Water Works Association.

[23]  B. Cheung,et al.  Continual Decrease in Blood Lead Level in Americans: United States National Health Nutrition and Examination Survey 1999-2014. , 2016, The American journal of medicine.

[24]  R. Sampson,et al.  THE RACIAL ECOLOGY OF LEAD POISONING , 2016, Du Bois Review: Social Science Research on Race.

[25]  R. Sadler,et al.  Elevated Blood Lead Levels in Children Associated With the Flint Drinking Water Crisis: A Spatial Analysis of Risk and Public Health Response. , 2016, American journal of public health.

[26]  Mary Jean Brown,et al.  Recommendations for blood lead screening of Medicaid-eligible children aged 1-5 years: an updated approach to targeting a group at high risk. , 2009, MMWR. Recommendations and reports : Morbidity and mortality weekly report. Recommendations and reports.

[27]  Elise Gould,et al.  Childhood Lead Poisoning: Conservative Estimates of the Social and Economic Benefits of Lead Hazard Control , 2009, Environmental health perspectives.

[28]  Marc Edwards,et al.  Elevated blood lead in young children due to lead-contaminated drinking water: Washington, DC, 2001-2004. , 2009, Environmental science & technology.

[29]  A. Kemper,et al.  Blood lead testing among Medicaid-enrolled children in Michigan. , 2005, Archives of pediatrics & adolescent medicine.

[30]  James R. Roberts,et al.  Inaccuracy in parental reporting of the age of their home for lead-screening purposes. , 2003, Archives of pediatrics & adolescent medicine.

[31]  P. Szilagyi,et al.  Lead screening practices of pediatric residents. , 1998, Archives of pediatrics & adolescent medicine.