The environmental tragedy in Flint, Michigan, in which drinking water contaminated with lead raised fears of potential health effects for exposed children, revealed the failure of a regulatory system to protect residents from lead exposure.
Until 2015 the Exide Technologies lead-acid battery smelter, in southeast Los Angeles County, California, recycled approximately 11 million lead acid batteries per year while operating on temporary state permits. This violated multiple federal environmental regulations and exposed over 100,000 residents to lead and other toxic metals. The result was large-scale environmental disaster with lead contamination of the air and soil in largely Latino communities.
As an environmental scientist and epidemiologist, I sought to understand lead pollution in children growing up in this area. For my research I collaborated with local community organizations and relied on an archive of biological samples that families often save: baby teeth.
Understanding lead exposure
Measuring historic exposure at toxic waste sites is often one of the most challenging aspects to understanding and anticipating future health impacts. Blood levels reflect exposure only from the past four weeks. But past exposure may be important indicators of harm.
Deciduous teeth, or “baby teeth,” incorporate minerals, including toxic metals, beginning in around the second trimester and continuing through early childhood. The formation of teeth occurs incrementally, like tree rings, so it is possible to reconstruct a child’s exposure to lead while in the womb and during the first year of life.
A initiative called the Truth Fairy Project aimed to address this. Academics collaborated with the community living in southeast Los Angeles County to examine 50 shed deciduous teeth from 43 children living their entire lives within two miles of the Exide smelter.
My team compared the levels of lead in teeth to lead levels in the soil. We discovered a significant trend. The more lead in the soil in residential neighborhoods, the higher the levels in the teeth – both prenatally and during the first year of life.
We continue to collaborate with the community to work toward prevention of lead exposure and cleanup of the contaminated soil.