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Why Scientists Collected Radioactive Baby Teeth During the Cold War

Photo Credit: Rae Russel/ Getty Images
Photo Credit: Rae Russel/ Getty Images

When the atomic bombs were dropped on Japan at the end of the Second World War, a new era of nuclear weaponry was ushered into the world. While many believed that the use of nuclear force was justified to end the war, there were also those who were disturbed by the use of these weapons and became vocal advocates against them. Some were troubled about the ethics of the weapons, while others had concerns about the health implications that were yet unknown.

Among the latter were a group of scientists from St. Louis University and the Washington University School of Dental Medicine, who worked in coordination with the Greater St. Louis Citizens’ Committee for Nuclear Information. Collectively, they wanted to determine the effects of nuclear fallout on humans. To do so, they collected children’s baby teeth to see how much radioactive material they contained.

Nuclear weapons testing in the US

The atomic bombs of the Second World War were only the beginning of nuclear weapon use by the US. After the war ended, testing continued which further increased public concern. One test in 1954 was strong enough to equal a blast created by 15 million tons of TNT and coated the surrounding islands with ash and radiation. As testing continued, so did concern over one particular isotope: strontium-90.

Black and white photo of a group of protestor walking on a sidewalk holding signs against nuclear testing.
Dr. Linus Pauling, American chemist and adamant foe of nuclear testing, holding up a sign as he joined pickets in front of the White House during a mass protest against resumption of US atmospheric nuclear testing, 1962. (Photo Credit: Bettmann/ Getty Images)

When it is naturally occurring it is nonreactive and nontoxic, but when produced as a result of nuclear fission, it becomes extremely concerning. As the American public became more aware of the testing and its fallout, concerns about strontium-90 made their way into the mainstream. Democratic candidate Adlai Stevenson talked about the dangers of the isotope in the lead-up to the presidential election of 1956. Then, in 1959, radioactive deposits were found in wheat and milk in the Northern US.

Why baby teeth?

The Baby Tooth Survey used, well, baby teeth to determine how much strontium-90 they contained. This raises a question: why did scientists use baby teeth as part of their study, instead of looking for another way to test for this isotope? One of the reasons was that the isotope was especially harmful to infants and toddlers. And not only were baby teeth easy to access, but they were also from one of the groups that were going to be most heavily affected by this radiation.

Black and white photo of Kathleen Lonsdale standing behind a lab bench looking down at a molecule model.
Dr. Kathleen Lonsdale was head of the X-ray department at University College, London and a lecturer in crystology, February 7, 1948. (Photo Credit: Charles Hewitt/ Picture Post/ Hulton Archive/ Getty Images)

In the mid-1950s, scientist and well-known pacifist Kathleen Lonsdale published in her book Is Peace Possible? that it was known that strontium-90 was easily absorbed in children and could lead to bone tumors. She also indicated that official reports from British and American sources showed that children in both countries had measurable amounts of the substance in their bodies.

The Baby Tooth Survey

When the study began, over 400 atomic tests had already been conducted above ground, and the concern was that strontium-90 was being absorbed by children through water and dairy. St. Louis was in a unique location for exploring this theory as there were many nuclear tests happening in Nevada, and the fallout was blowing east and falling on the farmlands around the city through the rain.

Black and white photo of Dr. Barry Commoner in front of a podium with his arms in the air smiling at the camera.
Dr. Barry Commoner, one of the scientists involved in the Baby Tooth Survey, acknowledges cheers of delegates after accepting the Citizens’ Party’s nomination for president. (Photo Credit: Bettmann/ Getty Images)

The team, consisting of scientists Barry Commoner and Ursula Franklin alongside physicians Eric and Louise Reiss, set out to answer whether or not the radioactive fallout from nuclear weapons testing was being absorbed by children. They obtained the teeth for their study by reaching out to schools in St. Louis and encouraging children to mail them in. The children were incentivized with posters in the classrooms and buttons that read, “I gave my tooth to science.”

The results come in

The promotion of the study was extremely successful and the team gathered over 320,000 baby teeth throughout the 12-year span of the project. The study, without a doubt, demonstrated that children were absorbing strontium-90. The first stage of the study showed that there was a spike in the levels of the isotope in children born during the period following the commencement of heavy nuclear testing in 1953.

Colored photo of Ursula Franklin smiling at the camera while holding a bouquet of flowers.
Ursula Franklin, one of the scientists of the Baby Tooth Survey, at the launch of her book The Ursula Franklin Reader, 2006. (Photo Credit: Martin Franklin/ Wikimedia Commons/ CC BY-SA 3.0)

They found that among those children, the levels were highest in those who had been bottle-fed. They were then able to compare the teeth of children born in 1950 to children born in 1963, the former born before most of the nuclear tests were conducted, and the latter after. Those born in 1963 had a whopping 50 times as much strontium-90 in their teeth.

Partial Nuclear Test Ban Treaty

The study was so successful that the results, which were shared with President John F. Kennedy, played a major role in the signing of the Partial Test Ban Treaty in 1963. Dr. Eric Reiss presented the study findings to the American Senate committee, and two months later the treaty was signed by the US, the United Kingdom, and the Soviet Union. It prevented explosions underwater, in space, or in the atmosphere.

It did, however, still allow for underground testing as long as the radioactive fallout stayed within the nation that conducted the test. It wasn’t until roughly 33 years later that a ban was signed to prevent all nuclear testing, including the kind previously allowed under the Partial Nuclear Test Ban Treaty.

Black and white photo of John F. Kennedy signing the Partial Nuclear Test Ban Treaty while wearing a suit and looking down at the document.
US President John F. Kennedy signs the Partial Nuclear Test Ban Treaty, October 7, 1963. (Photo Credit: Schulmann-Sachs/ Picture Alliance/ Getty Images)

More from us: Dairy Danger in the 19th Century

The impressive collection of baby teeth by the scientists involved in the Baby Tooth Survey was re-discovered nearly 20 years ago, and the slow process of data entry began, including note cards with information on each of the donors. The teeth were donated to the Radiation and Public Health Project with the hope that future scientists will be able to use the collection for other research, such as looking at fluoride and pesticide levels.

Rosemary Giles

Rosemary Giles is a history content writer with Hive Media. She received both her bachelor of arts degree in history, and her master of arts degree in history from Western University. Her research focused on military, environmental, and Canadian history with a specific focus on the Second World War. As a student, she worked in a variety of research positions, including as an archivist. She also worked as a teaching assistant in the History Department.

Since completing her degrees, she has decided to take a step back from academia to focus her career on writing and sharing history in a more accessible way. With a passion for historical learning and historical education, her writing interests include social history, and war history, especially researching obscure facts about the Second World War. In her spare time, Rosemary enjoys spending time with her partner, her cats, and her horse, or sitting down to read a good book.

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