Baby teeth have a value that goes beyond money from the tooth fairy.
Scientists say they also hold the key to figuring out what metals in the environment infants were exposed to — and how they affect not just developing baby brains, but behavior in adolescents.
“It seems like an impossible question to answer,” says Dr. Manish Arora, a professor of environmental medicine at the Icahn School of Medicine at Mount Sinai. “Luckily for us, baby teeth are this amazing organ.”
He says baby teeth work kind of like tree growth rings. They start to form in utero, beginning in the second trimester. And as they develop, layer by layer, they incorporate trace amounts of metals they’re exposed to — in the womb and early life. That’s when the brain is most vulnerable to toxic metals.
In a new study in the journal Science Advances, Arora and his colleagues used lasers to decode those layers in the baby teeth shed by 500 children in Mexico City. That allowed them to create a timeline of what neurotoxic metals those children were exposed to, week by week, even before they were born.
Connecting teeth to the brain
The children in the study have been followed since their mothers were pregnant. As the children reached adolescence, the researchers also took detailed behavior assessments for some of the kids and MRI scans of their brains.
While the baby teeth allowed the researchers to figure out the timeline of exposures, the brain scans helped them link those exposures to impacts on brain development, says study co-author Megan Horton, also a professor of environmental medicine at Mount Sinai.
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“Using MRI allows us to look at what those exposures are doing to the brain in terms of its structure, connections and how different areas of the brain communicate,” Horton says.
The researchers looked at exposures to nine metals common in the environment, including lead, zinc and copper. Some, like manganese, are essential to growing bodies in trace amounts, but too much can be harmful to developing brains. Previous studies have linked exposure to neurotoxic metals in early life to changes in the structure of the brain and increased risk of mental health problems later in life.
When the brain is most vulnerable
What they discovered is that it’s not just how much of these metals babies are exposed to that matters, but when that exposure happens.
“We found that exposure to this metal mixture during this critical period of around 6 to 9 months of development was strongly associated with negative changes in behavior in these adolescents,” including inattention and hyperactivity, Horton says.
They also found a strong link to changes in the brain, including a decrease in overall brain volume and changes in the way different areas of the brain connect with each other. They also found abnormalities in the brain’s white matter, which is important to the speed and efficiency of thought.
Horton says 6 to 9 months of age is a period of rapid growth and change for infant brains. “Connections between brain cells are being rapidly formed and refined. Different brain regions are starting to communicate more efficiently,” she says.
At the same time, babies are also starting to crawl and transitioning from breastmilk or formula to solid foods. “So there’s a lot happening in the brain and there’s also a lot happening in the child’s environment that might make this a very vulnerable and unique period of development,” Horton says.
The researchers say many of the metals in the study are commonly found in the foods we eat, the water we drink, and our built environment. They say the findings show that it’s not just the amount of these metals that children are exposed to, but also the cumulative effect of these exposures, that presents a risk to developing brains. And the timing of that exposure is critical.
“It’s not just how much you were exposed to, but when the exposure happened can actually have a very important impact on your health,” Arora says.
“Powerful preventive argument”
Kim Cecil, a professor of radiology at Cincinnati Children’s Hospital Medical Center who studies the health impacts of environmental exposures, was not involved in the research. She praised the study for pairing brain MRI scans with baby tooth analysis. “That’s what’s really novel about this work,” Cecil says. She says the technique provides a model that could be used to study how early-life exposures to other substances in the environment impact children’s health.
The findings should be a call to action to regulators, says Virginia Rauh, deputy director of the Columbia Center for Children’s Environmental Health.
“This is a powerful preventive argument for minimizing these toxic exposures for children during their most vulnerable life stages,” says Rauh, who was not involved in the new study.
After all, Arora says, while we can’t change our genes, we can try to change our environments to ensure healthier outcomes for children.
Transcript:
SCOTT DETROW, HOST:
Scientists say baby teeth have a value beyond the payouts they get from the tooth fairy. By examining the layers in these teeth, they are discovering how exposure to metals common in the environment can affect both developing babies’ brains and behavior in adolescents. NPR’s Maria Godoy has more.
MARIA GODOY, BYLINE: Baby teeth, it turns out, are kind of like a historical record of our early life. They start to form in utero, beginning in the second trimester, and they develop layer by layer, bringing in elements from the mother’s environment.
MANISH ARORA: So they grow in this incremental manner, just like tree rings do.
GODOY: That’s Manish Arora, a professor of environmental medicine at the Icahn School of Medicine at Mount Sinai. By using lasers to decode those layers in baby teeth, he says scientists can figure out what metals in the environment children were exposed to week by week, even before they were born.
ARORA: It seems like an impossible question to answer, but luckily for us, baby teeth are this amazing organ.
GODOY: In a new study in the journal Science Advances, Arora and his colleagues use this technique to examine the baby teeth shed by nearly 500 children in Mexico City. The kids have been followed since their mothers were pregnant. They’re now adolescents. The researchers also took detailed behavior assessments of the kids and MRI scans of their brains. Study coauthor Megan Horton says the baby teeth allowed them to figure out the timeline. The brain scans helped them link those exposures to effects.
MEGAN HORTON: Using MRI allows us to look at what those exposures are doing to the brain in terms of its structure, connections and how different areas of the brain communicate.
GODOY: The researchers looked at exposures to nine metals common in the environment, including lead, zinc and copper. Some, like manganese, are essential to growing bodies in trace amounts, but too much can be harmful to developing brains. What they discovered is that it’s not just how much of these metals babies are exposed to that matters but when.
HORTON: We found that exposure to this metal mixture during this critical period of around 6 to 9 months of development was strongly associated with negative changes in behavior in these adolescents.
GODOY: Things like increased inattention and hyperactivity – they also found a strong link to changes in overall brain volume and the way different areas of the brain connect with each other. The researchers say the findings underscore the need for environmental regulations that prioritize protecting kids from the start. After all, they say, while we can’t change our genes, we can try to change our environments to ensure healthier outcomes for children. Maria Godoy, NPR News.
(SOUNDBITE OF AYANNA SONG, “GIRLFRIEND”)
