Scientists lack complete answers on radiation risk
Thyroid cancer for sure. Leukemia, probably. Too much radiation can raise the risk of developing cancer years down the road, scientists agree, and the young are most vulnerable. But just how much or how long an exposure is risky is not clear.
Those are among the unknowns scientists are contemplating as the crisis unfolds at Japan’s stricken nuclear power plant.
In Japan, the Science Ministry said radiation levels about 19 miles northwest of the Fukushima Dai-ichi plant rose at one point Friday to 0.15 millisieverts per hour, about the amount absorbed in a chest X-ray. But levels have been fluctuating, and radiation at most sites that distance from the facility have been far below that.
Long term, it is clear radiation can induce cancer. But researchers can’t just count cancer cases after a disaster and declare radiation responsible. Rates before and after must be compared to know if more cases occurred than would be expected.
That is why, 25 years after the Chernobyl accident, there is still controversy over its effects beyond the undisputed 6,000 cases of thyroid cancer. Of these cases, only 15 had proved fatal as of 2005, even though the Soviets were slow to treat victims of the catastrophe.
The records necessary to spot trends in other types of cancer as a result of Chernobyl are poor, said Dr. Fred Mettler, a University of New Mexico scientist who led a United Nations-sponsored team investigating Chernobyl’s health effects.
“At the end of the day, the scientific data isn’t there. My instinct is, there probably is an increase there, but it’s too small to see,” he said.
The U.S. Environmental Protection Agency says that no amount of radiation is absolutely safe above the 3 to 6 millisieverts a year that most of us get from normal living. In contrast, the Nuclear Regulatory Commission says that low doses _ less than 100 millisieverts spread out over years _ are not harmful. Researchers have not documented danger from such low levels, said Kelly Classic, a radiation physicist at the Mayo Clinic and a spokeswoman for the Health Physics Society, an organization of radiation safety specialists.
High doses _ over 500 millisieverts _ can raise the risk of leukemia, breast, bladder, colon, liver, lung, esophageal, ovarian and stomach cancers, and the blood cancer multiple myeloma, government scientists say.
In between the high and lower levels, the picture is murky. Much depends on the type of radiation people are exposed to, how old they are, and how well each person’s body repairs any DNA damage the radiation may cause.
“There’s no linear relationship to say if you got this amount, it would cause a certain percent of cancer down the road,” said Dr. Clifford Chao, chief of cancer radiation at New York-Presbyterian Hospital.
Children are the ones at risk for radiation’s most obviously related cancer _ thyroid. Radioactive iodine collects in the thyroid gland in the neck. Potassium iodide pills can block its absorption and minimize harm, but they must be given within 12 hours of exposure to do much good.
When Chernobyl exploded, health workers “had millions of square kilometers to cover and it was all rural areas and they didn’t really have anything stockpiled,” Mettler said. Children also drank milk from cows that grazed on contaminated grass for weeks after the disaster, compounding their exposure and risk. More than 6,000 thyroid cancers have been documented in people who were children in the Ukraine, Belarus and Russia when the disaster occurred. But In Poland, where the antidote pills were given out, there were no higher rates of thyroid cancer.
Properly treated, thyroid “is one of the least deadly cancers,” the American Cancer Society says. And low levels of radioactive iodine exposure have not been shown to increase thyroid cancer risk in studies of fallout from nuclear weapons testing in the western United States during the 1950s, the society says.
Studies of atomic bomb survivors have found higher rates of cancer. But those disasters involved different radioactive elements than the type emitted from the Japanese nuclear plant so far.