Dark History – Most Famous Deaths From Radiation

Radiation poisoning is a form of damage to tissue caused by excessive exposure to ionizing radiation. The term is generally used to refer to acute problems caused by a large dosage of radiation in a short period of time, however it can also refer to cases when somebody has been repeatedly exposed to high doses.

Symptoms prior to death can include severe nausea, vomiting, and diarrhea, rapid hair loss, infections, edema, high fever, and coma.

This list will look at some of the most famous incidents where people have died from the effects of radiation exposure and the circumstances surrounding their deaths.

The atomic bombs dropped on Hiroshima and Nagasaki, Japan at the end of World War II have been the only time in history such weapons have been used on people. The justification for the bombings has been hotly debated since, but no doubt the memory of their destruction has been a large reason why they have been not used since.

On August 6, 1945 the uranium bomb, “Little Boy”, was dropped on Hiroshima killing 70,000-80,000 people immediately. Three days later, the plutonium bomb, “Fat Man”, was dropped on Nagasaki killing an estimated 40,000-75,000 instantly. Those that survived the initial blasts were then subject to severe radiation and thermal burns, radiation sickness and related diseases all aggravated by the lack of meckal resources. It is estimated that another 200,000 people had died by 1950 as a result of health effects of the bombings.

Surviving victims of the bombings are known as hibakusha, a Japanese word that literally translates to “explosion-affected people.” As of March 31, 2009 235,569 hibakusha were recognized by the Japanese government. The government of Japan recognizes about 1% of these as having illnesses caused by radiation.

On April 26, 1986 a nuclear accident occurred on the Number 4 reactor at the Chernobyl Nuclear Power Plant in Ukraine. Workers at the plant were planning a test to determine how long turbines would spin and supply power to the main circulating pumps following a loss of main electrical power. Due to another regional power station going offline, the test was delayed and as a result, the test was conducted over the night shift where the workers had not been trained on the test procedure. Several subsequent errors, including a decision to disable automatic shutdown mechanisms, led to an unstable reactor configuration with nearly all of the control rods removed.

The reactor SCRAMed (rapid insertion of all control rods) but a flaw in the design of the control rods actually caused the reaction rate in the lower half of the core to increase. At this point, a massive power spike occurred and the core overheated. The precise subsequent course of events was not registered by instruments; it is known only as a result of a mathematical simulation. What is known is that there was a large steam buildup in the core that eventually exploded releasing tons of radioactive steam and fission products into the air. Radiation levels in the vicinity of the reactor core after the explosion were 30,000 times the lethal limit.

One person was killed immediately and his body was never found. Another died that same day as a result of injuries received during the explosion. Acute radiation sickness was originally diagnosed in 237 people on-site and involved with the clean-up and it was later confirmed in 134 cases. Of these 28 people died within weeks of the accident, six of whom were firefighters tasked with attending the fires on the roof of the turbine building.

Nineteen more subsequently died between 1987 and 2004. Nobody off-site suffered from acute radiation effects, although a large proportion of childhood thyroid cancers diagnosed since the accident is likely to be due to intake of radioactive iodine fallout. Subsequent studies in the Ukraine, Russia, and Belarus estimate over 1 million people were affected by radiation from Chernobyl, however the extent of its effects may never be truly known.

K-19 was one of the first two Soviet submarines equipped with nuclear ballistic missiles.

Several people had died during its construction earning it the nickname “Hiroshima” among naval sailors and officers. On July 4, 1961 under the command of Captain Nikolai Vladimirovich Zateyev, K-19 developed a major leak in her reactor coolant system causing the reactor temperature to rise to a very dangerous 800 degrees Celsius.

Due to poor design and failure to have a backup cooling system installed, Captain Zateyev had no choice but to order a team of seven engineering officers in crew to undertake a repair despite the lethal rates of radiation exposure.

The repair crew was successful in stopping the leak however all seven were dead within a week. The incident contaminated the entire boat and within a few years twenty more crew members were dead attributed to the incident at sea.

The Soviet Navy made extensive repairs to boat and it later returned to service. It did, however, continue to experience horrible accidents including an at-sea collision in 1969 and a fire in 1972 killing 28 sailors. It was finally decommissioned in 1991.

The movie “K-19: The Widowmaker” starring Harrison Ford and Liam Neeson is loosely based on the nuclear accident on the K-19.

In November of 2006 he suddenly fell ill and was hospitalized. He died three weeks later and post-mortem tests showed he had been given a lethal dose of Polonium-210 via a cup of tea. On his deathbed, Litvinenko accused Russian president Vladimir Putin of being behind his death.

Subsequent investigations by British authorities into the circumstances of Litvinenko’s death led to serious diplomatic difficulties between the British and Russian governments. Unofficially, British authorities asserted that “we are 100% sure who administered the poison, where and how”. However they did not disclose their evidence in the interest of a future trial. The main suspect in the case, a former officer of the Russian Federal Protective Service (FSO) Andrei Lugovoy, remains in Russia. As a member of the Duma, he now enjoys immunity from prosecution.

Marie Sklodowska Curie was a physicist and chemist and a pioneer in the field of radioactivity. In fact, it was Curie that coined the term radioactivity, though Henri Becquerel discovered the phenomenon years earlier. Curies research into the properties of two different uranium ores, pitchblende and chalcolite. led to the discovery of radium and polonium, other radioactive elements. Curie’s husband, Pierre, was so intrigued by her research that he decided to suspend his own research to join her.

The Curies undertook the arduous task of separating radium out of pitchblende ore. From a ton of pitchblende, one-tenth of a gram of radium chloride was separated. Unfortunately, the Curies were unaware of the deleterious health effects of repeated unprotected radiation exposure.

Pierre Curie died in 1906 after being hit and run over by a horse drawn carriage, however Marie lived for another 28 years continuing her research and eventually winning two Nobel prizes. She often carried test tubes containing radioactive isotopes in her pocket and stored them in her desk drawer, remarking on the pretty blue-green light that the substances gave off in the dark.

Marie Curie died on July 4, 1934 due to aplastic anemia contracted from exposure to radiation. She is interred at the cemetery in Sceaux, alongside her husband Pierre. Her laboratory is preserved at the Musee Curie. Due to their levels of radioactivity, her papers from the 1890’s are considered too dangerous to handle. Even her cookbook is highly radioactive. They are kept in lead-lined boxes, and those who wish to consult them must wear protective clothing.

On December 30, 1958 an accident occurred in the Los Alamos plutonium-processing facility. Cecil Kelley, an experienced chemical operator was working with a large mixing tank. The solution in tank was supposed to be “lean”, typically less than 0.1 grams of plutonium per liter. However, the concentration on that day was actually 200 times higher. When Kelley switched on the stirrer, the liquid in the tank formed a vortex and the plutonium containing layer went critical releasing a huge burst of neutrons and gamma radiation in a pulse that lasted a mere 200 microseconds

Kelley, who had been standing on a foot ladder peering into the tank through a viewing window, fell or was knocked to the floor. Two other operators on duty saw a bright flash and heard a dull thud. Quickly, they rushed to help and found Kelley incoherent and saying only, “I’m burning up! I’m burning up!”. He was rushed to the hospital, semiconscious, retching, vomiting, and hyperventilating. At the hospital, Kelly’s bodily excretions were sufficiently radioactive to give a positive reading on a detector.

Two hours after the accident, Kelley’s condition improved as he regained coherence. However, it was soon clear that Kelley would not survive long. Tests showed his bone marrow was destroyed, and the pain in his abdomen became difficult to control despite medication. Kelley died 35 hours after the accident.

Eben McBurney Byers was a wealthy American socialite, athlete, and industrialist. In 1927 while returning via chartered train from the annual Harvard-Yale football game, Byers fell from his berth and injured his arm. He complained of persistent pain and a doctor suggested that he take Radithor, a patent medicine containing high concentrations of radium.

Byers drank nearly 1400 bottles over three years. By 1930, when Byers stopped taking the remedy, he had accumulated significant amounts of radium in his bones resulting in the loss of most of his jaw. Byers’ brain was also abscessed and holes were forming in his skull. He died from radium poisoning on March 31, 1932. He is buried in Allegheny Cemetery in Pittsburgh, Pennsylvania in a lead-lined coffin.

Japan’s worst nuclear radiation accident took place at a uranium reprocessing facility in Tokaimura, northeast of Tokyo, on September 30, 1999. The direct cause of the criticality accident was workers putting uranyl nitrate solution containing about 16.6 kg of uranium, exceeding the critical mass, into a precipitation tank. The tank was not designed to dissolve this type of solution and was not configured to prevent eventual criticality.

Three workers were exposed to lethal radiation doses. One of these workers, Hiroshi Couchi, was transferred to the University of Tokyo Hospital and three days after the accident he could talk and only his right hand was a little swollen with redness. However, his condition gradually weakened as the radioactivity broke down the chromosomes in his cells.

The doctors were at a loss as to what to do. There were few precedents and proven medical treatments for victims of radiation poisoning. A local television crew followed the story for 83 days until Hiroshi died. Their observations are chronicled in the book, “A Slow Death: 83 Days of Radiation Sickness”

Acute radiation syndrome

Radiation poisoning

Radiation Burns