Key Takeaways
In a landmark effort to understand how this radiation exposure impacts human health, an international team of researchers undertook two large studies. The first examined genetic mutations in children of people with high radiation exposure following the accident.They found that there were no transgenerational mutations. The second investigated thyroid cancer in people who were exposed to radiation.The work provides insight into the ways radiation damages DNA, causing cancerous tumors.
“We really had a very remarkable and distinctive opportunity to ask this question of ‘how does radiation cause cancer and what can we learn from that that could be important for future issues related to radiation and cancer itself?’”Stephen Chanock, MD,director of NCI’s Division of Cancer Epidemiology and Genetics, tells Verywell.
Tools for Studying Nuclear Incidents
In the aftermath of the accident, scientists collected biospecimen samples from people involved in the immediate clean-up efforts and collected information about people who agreed to be studied long-term. This included careful tracking of people’s exposure levels so researchers could match their experience with changes in their DNA. In addition to direct exposure, some people were indirectly exposed through environmental factors, like drinking milk from cows that grazed on polluted pastures.
Genetic Testing Is Beneficial for All Breast Cancer Patients, Study Finds
Recent improvements in genome sequencing technology and scientific advancements allowed the researchers to analyze materials in ways that weren’t previously possible. For the transgenerational study, for instance, they sequenced each gene 80 to 90 times—two to three times more than is typical for such projects.
“We didn’t want to miss anything—we felt that this was a very unique opportunity,” Chanock says.
These tools may be useful for studying more recent nuclear incidents involving nuclear radiation, like the Fukushima nuclear disaster in 2011.
Genetic Effects on Children
For the first study, researchers set out to answer the long-standing question: does radiation exposure lead to genetic mutations in children? Some animal and cellular studies previously indicated that this is possible.
The team analyzed the complete genomes of 130 people born between 1987 and 2002 and their 105 mother and father pairs. The children were all born between 46 weeks and 15 years after the disaster, and one or both parents were involved with clean-up efforts after the accident or lived close to the site.
The researchers looked for germline de novo mutations in the now-adult children. These are genetic mutations that appear randomly in egg or sperm cells and are seen in children but not their parents. These mutations, Chanock says, are “sort of the building blocks of evolution.” Most people have 50 to 100 de novo mutations during conception.
If the researchers observed an increase in the number of de novo mutations in the individuals, compared with their parents, it might indicate that radiation exposure could affect the genome of subsequent generations. But they found the children had no excess mutations. In fact, the main factor in determining how many de novo mutations they carried was the age of their father at conception.
“There are terrible psychological and social and other kinds of health-related issues that the next generation are experiencing, but no genetic ones,” Chanock says.
What This Means For You
The Root Causes of Radiation-Induced Thyroid Cancer
Researchers used genome sequencing with what Cagan calls “unprecedented detail” to show how radiation exposure acts on DNA in more than 350 people who had developed thyroid cancer after being exposed to the radiation as children.
Radioactive iodine can damage individual bases of DNA, which causes minor mutations. Breaks in both strands of the double helix—called “double-stranded breaks”—can cause more severe damage.
Thyroid Disease Causes and Risk Factors
By comparing the DNA damage from after the meltdown to that of unexposed people who developed thyroid cancers, researchers found that exposed people tended to have more double-stranded breaks than others, who mostly expressed single-point mutations. Plus, the more radiation a person was exposed to, and the younger they were when exposed, the more double-strand DNA breaks they had.
Still, radiation-induced thyroid cancer doesn’t appear very different from randomly occurring thyroid cancers, and it appears that they may be treated in the same way.
Symptoms of Thyroid Cancer
Looking Ahead
There are many remaining questions about how ionizing radiation affects the body. Chanock says scientists have yet to understand why radiation ends up where it does—it tends to travel more easily to the blood than to the testes, for instance.
As scientists look toward studying other nuclear disasters, especially those where the amount of radiation exposure was much lower, Chanock is optimistic that the findings will be similarly encouraging.
“There’s a relatively good and reassuring story here,” he says.
3 Sources
Verywell Health uses only high-quality sources, including peer-reviewed studies, to support the facts within our articles. Read oureditorial processto learn more about how we fact-check and keep our content accurate, reliable, and trustworthy.
Meet Our Medical Expert Board
Share Feedback
Was this page helpful?Thanks for your feedback!What is your feedback?OtherHelpfulReport an ErrorSubmit
Was this page helpful?
Thanks for your feedback!
What is your feedback?OtherHelpfulReport an ErrorSubmit
What is your feedback?
