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Strictly speaking the correct name for "radiation sickness" is Acute radiation Syndrome . A Chronic radiation syndrome does exist but is very uncommon; this has been observed among workers in early Radium source production sites and in the early days of the Soviet nuclear program. While a short exposure can result in acute radiation syndrome, it requires a prolonged high level of exposure to cause the chronic syndrome. MEASURING RADIATION DOSAGE The Rad is a unit of Absorbed Radiation Dose defined in terms of the Energy actually deposited in the tissue. One rad is an absorbed dose of 0.01 Joule s of energy per kilogram of tissue. The more recent SI Unit is the Gray , which is defined as 1 joule of deposited Energy per kilogram of tissue. Thus one gray is equal to 100 rad. To accurately assess the risk of radiation, the absorbed dose energy in rad is multiplied by the relative biological effectiveness (RBE) of the radiation to get the biological dose equivalent in Rems . Rem stands for " Röntgen equivalent man." In SI units, the absorbed dose energy in grays is multiplied by the same RBE to get a biological dose equivalent in Sieverts (Sv) . The sievert is equal to 100 rem. The RBE is a "quality factor," often denoted by the letter ''Q'', which assesses the damage to tissue caused by a particular type and energy of radiation. For Alpha Particle s ''Q'' may be as high as 20, so that one rad of alpha radiation is equivalent to 20 rem. The ''Q'' of Neutron radiation depends on their energy. However, for Beta Particle s, X-ray s, and Gamma Ray s, ''Q'' is taken as one, so that the rad and rem are equivalent for those radiation sources, as are the gray and sievert. See the Sievert article for a more complete list of ''Q'' values. SYMPTOMS AND EFFECTS Radiation sickness is generally associated with acute exposure and has a characteristic set of symptoms that appear in an orderly fashion. The symptoms of radiation sickness become more serious (and the chance of survival decreases) as the dosage of radiation increases. Prolonged exposure to radiation can induce Cancer as cell-cycle genes are corrupted. However, since Tumors themselves grow by abnormally rapid cell division, the ability of radiation to disturb cell division is also used to treat cancer (see Radiotherapy ), and low levels of Ionizing Radiation have been claimed to lower one's risk of cancer (see Hormesis ). Radiation poisoning can result from accidental exposure to natural or industrial radiation sources. People working with radioactive materials often wear film "badges" or other Dosimeter s to monitor their total exposure to radiation. These devices are more useful than Geiger Counter s for determining biological effects, as they measure cumulative exposure over time, and are calibrated to change color or otherwise signal the user before exposure reaches unsafe levels. Radiation caused illness and death after the bombings of Hiroshima and Nagasaki in about 1% of those exposed who survived the initial explosions. The casualty rate due to radiation was higher in Hiroshima, because although Fat Man (the bomb used at Nagasaki) had a higher yield than Little Boy (the bomb used at Hiroshima), Fat Man was a Plutonium weapon, which is actually much less radioactive than a Uranium weapon of equal yield (except at the moment of critical mass). Both bombs were Airbursted , minimizing Nuclear Fallout (which otherwise would have killed many more). Radiation poisoning also continues to be a major concern after the Chernobyl reactor accident. Of the 100 million Curie s (4 Exabecquerels ) of radioactive material, the radioactive Xenon -133 and Iodine -131 Chernobyl released were initially the most dangerous. Due to their short half-lives of 5 and 8 days they have now decayed, leaving the more long-lived Caesium -137 (with a half-life of 30.07 years) and Strontium -90 (with a half-life of 28.78 years) as main dangers. Thirty-one people died as an immediate result of the Chernobyl accident. PREVENTION AND TREATMENT The best prevention for radiation sickness is to minimize human exposure to high levels of ionizing radiation. The use of radionuclides in science and industry is strictly regulated in most countries (in the U.S. by the Nuclear Regulatory Commission ). In the event of an accidental or deliberate release of radioactive material, evacuation or sheltering in place are the recommended measures. During the height of the Cold War , Fallout Shelter s were identified in many urban areas. Potassium Iodide (KI), administered orally immediately after exposure, may be used to protect the Thyroid from ingested Radioactive Iodine in the event of an accident or terrorist attack at a nuclear power plant, or the detonation of a Nuclear Explosive . KI would not be effective against a Dirty Bomb unless the bomb happened to contain radioactive iodine, and even then it would only help to prevent thyroid cancer. TABLE OF EXPOSURE LEVELS AND SYMPTOMS Dose-equivalents are presently stated in Sievert s: 0.05–0.2 Sv (5–20 REM ) No symptoms. Potential for ). A few researchers even contend that low dose radiation may be ''beneficial''. [http://hps.org/publicinformation/ate/q299.html [http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=10453435&query_hl=6&itool=pubmed_docsum] 0.2–0.5 Sv (20–50 REM) No noticeable symptoms. Red Blood Cell count decreases temporarily. 0.5–1 Sv (50–100 REM) Mild radiation sickness with headache and increased risk of infection due to disruption of immunity cells. Temporary male sterility is possible. 1–2 Sv (100–200 REM) ''Light radiation poisoning, 10% fatality after 30 days ( LD 10/30).'' Typical symptoms include mild to moderate nausea (50% probability at 2 Sv), with occasional vomiting, beginning 3 to 6 hours after irradiation and lasting for up to one day. This is followed by a 10 to 14 day latent phase, after which light symptoms like general illness, Anorexia and Fatigue appear (50% probability at 2 Sv). The Immune System is depressed, with convalescence extended and increased risk of infection. Temporary male sterility is common. Spontaneous Abortion or Stillbirth will occur. 2–3 Sv (200–300 REM) ''Severe radiation poisoning, 35% fatality after 30 days (, greatly increasing the risk of infection. Permanent female sterility is possible. Convalescence takes one to several months. 3–4 Sv (300–400 REM) ''Severe radiation poisoning, 50% fatality after 30 days ( LD 50/30)''. Other symptoms are similar to the 2–3 Sv dose, with uncontrollable bleeding in the mouth, under the skin and in the kidneys (50% probability at 4 Sv) after the latent phase. 4–6 Sv (400–600 REM) ''Acute radiation poisoning, 60% fatality after 30 days ( LD 60/30)''. Fatality increases from 60% at 4.5 Sv to 90% at 6 Sv (unless there is intense medical care). Symptoms start half an hour to two hours after irradiation and last for up to 2 days. After that, there is a 7 to 14 day latent phase, after which generally the same symptoms appear as with 3-4 Sv irradiation, with increased intensity. Female sterility is common at this point. Convalescence takes several months to a year. The primary causes of death (in general 2 to 12 weeks after irradiation) are infections and Internal Bleeding . 6–10 Sv (600–1,000 REM) ''Acute radiation poisoning, 100% fatality after 14 days ( LD 100/14).'' Survival depends on intense medical care. Bone Marrow is nearly or completely destroyed, so a Bone Marrow Transplantation is required. Gastric and intestinal tissue are severely damaged. Symptoms start 15 to 30 minutes after irradiation and last for up to 2 days. Subsequently, there is a 5 to 10 day latent phase, after which the person dies of infection or Internal Bleeding . Recovery would take several years and probably would never be complete. 10–50 Sv (1,000–5,000 REM) ''Acute radiation poisoning, 100% fatality after 7 days ( LD 100/7).'' An exposure this high leads to spontaneous symptoms after 5 to 30 minutes. After powerful fatigue and immediate nausea caused by direct activation of chemical receptors in the brain by the irradiation, there is a period of several days of comparative well-being, called the latent (or "walking ghost") phase. After that, cell death in the gastric and intestinal tissue, causing massive Diarrhea , intestinal bleeding and loss of water, leads to water-electrolyte imbalance. Death sets in with Delirium and coma due to breakdown of circulation. Death is inevitable; the only treatment that can be offered is Pain Therapy . Louis Slotin was exposed to approximately 21 Sv in a Criticality Accident on 21 May 1946 , and died nine days later on 30 May . 50–80 Sv (5,000–8,000 REM) Immediate disorientation and coma in seconds or minutes. Death occurs after a few hours by total collapse of Nervous System . More than 80 Sv (>8,000 REM) U.S. military forces expect immediate death. A worker receiving 100 Sv (10,000 REM) in an accident at Wood River, Rhode Island, USA on 24 July 1964 survived for 49 hours after exposure, and an operator receiving 120 Sv (12,000 REM) to his upper body in an accident at Los Alamos, New Mexico, USA on 30 December 1958 survived for 36 hours; details of this accident can be found on page 16 (page 30 in the PDF version) of Los Alamos' 2000 Review of Criticality Accidents {Link without Title} . RADIATION POISONING IN FICTION
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