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Internal and External Exposure - env

RoutesRadio pharmaceuticalsRadioactive materialsExposure RoutesInternal and External ExposureExternal exposureFrom outer space and the sunBody surface contaminationSuspended mattersFrom a radiation generatorBuildingsGround Radiation coming from outside the bodyInternal exposureInhalationFood and drink consumptionLungsWound Radiation emitted within the bodyThe body is equally exposed to radiation in both cases."Radiation Exposure " refers to the situation where the body is in the presence of radiation. There are two types of radiation Exposure , " Internal Exposure " and " External Exposure ." External Exposure means to receive radiation that comes from radioactive materials existing on the ground, suspended in the air, or attached to clothes or the surface of the body ( of Vol. 1, " External Exposure and Skin").Conversely, Internal Exposure is caused (i) when a person has a meal and takes in radioactive materials in the food or drink (ingestion); (ii) when a person breathes in radioactive materials in the air (inhalation); (iii) when radioactive materials are absorbed through the skin (percutaneous absorption); (iv) when radioactive materials enter the body from a wound (wound contamination); and (v) when radiopharmaceuticals containing radioactive materials are administered for the purpose of medical t

Chernobyl Nuclear Accident (1986) (5,200 PBq) Kyshtym disaster (1957) Chalk River accident (1952) Windscale fire (1957) Three Mile Island accident (1979), etc. SL‐1 Experimental Nuclear Reactor accident (1961) JCO criticality accident in Tokai‐mura(1999) Severity of Accidents and Incidents Sellafield accident (1979), etc.

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  Internal, Nuclear, Disaster, Exposure, External, Chernobyl, Chernobyl nuclear, Internal and external exposure

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Transcription of Internal and External Exposure - env

1 RoutesRadio pharmaceuticalsRadioactive materialsExposure RoutesInternal and External ExposureExternal exposureFrom outer space and the sunBody surface contaminationSuspended mattersFrom a radiation generatorBuildingsGround Radiation coming from outside the bodyInternal exposureInhalationFood and drink consumptionLungsWound Radiation emitted within the bodyThe body is equally exposed to radiation in both cases."Radiation Exposure " refers to the situation where the body is in the presence of radiation. There are two types of radiation Exposure , " Internal Exposure " and " External Exposure ." External Exposure means to receive radiation that comes from radioactive materials existing on the ground, suspended in the air, or attached to clothes or the surface of the body ( of Vol. 1, " External Exposure and Skin").Conversely, Internal Exposure is caused (i) when a person has a meal and takes in radioactive materials in the food or drink (ingestion); (ii) when a person breathes in radioactive materials in the air (inhalation); (iii) when radioactive materials are absorbed through the skin (percutaneous absorption); (iv) when radioactive materials enter the body from a wound (wound contamination); and (v) when radiopharmaceuticals containing radioactive materials are administered for the purpose of medical treatment.

2 Once radioactive materials enter the body, the body will continue to be exposed to radiation until the radioactive materials are excreted in the urine or feces (biological half-life) or as the radioactivity weakens over time ( of Vol. 1, " Internal Exposure ").The difference between Internal Exposure and External Exposure lies in whether the source that emits radiation is inside or outside the body. The body is equally exposed to radiation in both cases ( of , "Various Forms of Exposure ").The terms " Internal Exposure " and " External Exposure " are used irrespective of types of radiation, , naturally occurring radiation, accident-derived radiation or medical radiation ( of Vol. 1, " Exposure Dose from Natural and Artificial Radiation").Included in this reference material on March 31, 2013 Updated on February 28, RoutesExposure RoutesVarious Forms of ExposureExternal Exposure Whole body Exposure Local Exposure ( Exposure by X ray examination or local body surface contamination)Radioactive materialsInternal Exposure Whole body Exposure Local Exposure ( Exposure from the thyroid taking in radioactive iodine)To what extent the body will be affected by radiation Exposure depends on the location and the extent of the Exposure refers to Exposure of the entire body to radiation, while local Exposure refers to Exposure of a part of the body to whole-body Exposure , all the organs and tissues may be affected by the radiation, while in local Exposure , the effects are, in principle, confined to the exposed organs and tissues.

3 If any organ of the immune system or endocrine system is included in the part exposed, distant organs or tissues could be indirectly affected, but the main concern is basically with the effects on the exposed organs and differ in sensitivity to radiation. In local Exposure , therefore, the extent of the effects varies greatly depending on whether the exposed part includes organs that are highly sensitive to Internal Exposure , organs and tissues where radioactive materials are likely to accumulate will receive high doses of radiation. If such organs and tissues that are prone to accumulation have high sensitivities to radiation, they are more likely to be affected by the radiation. In Belarus and Ukraine, after the chernobyl nuclear accident, there was an increase in the number of thyroid cancer cases among children. It was due both to the tendency of radioactive iodine to accumulate in the thyroid and children's thyroids having a higher sensitivity to radiation than adults'.

4 Included in this reference material on March 31, 2013 Updated on March 31, Routes particleAffected partOutside the bodyWithin the bodyExposure RoutesExternal Exposure and SkinSkin structurePart highly sensitive to radiation ray particle particleHairStratum corneumBasal cellsDermisSubcutaneous structureEpidermisAbout particles raysIn External Exposure , -particles having weak penetrating power stop at the epidermis and therefore do not produce any effects, but if a large amount of radioactive materials that emit -particles adheres to the surface of the body for an extended period of time, they will affect the skin's basal cells and hair-root cells that have high sensitivity to radiation, possibly causing skin erythema that is characterized by reddening of the skin, hair loss, etc. However, such Exposure is extremely rare, and the major problems with External Exposure are associated with radioactive materials emitting -rays that affect the inside of the in this reference material on March 31, 2013 Updated on March 31, RoutesLungsExposure Routes/nternal Exposure i /ngestionFrom the mouth (swallowing)

5 Absorption through the digestive tract ii /nhalationIncorporation from the respiratory airwaysAbsorption from the lungs and the surface of the airways iii Percutaneous absorptionAbsorption from the skin iv Wound contaminationContamination from a woundInhalation or ingestionNoseMouthThyroidFrom the skinWoundRadioactive materialRadioactive materials ithin the body decay as they emit radiation ithin the materials ithin the body decay as they emit radiation ithin the may accumulate in some speci ic may accumulate in some speci ic are graduallyexcretedin the urine and Exposure occurs due to radioactive materials being taken in via four routes: ingestion together with food; inhalation; absorption from the skin; and wound materials incorporated into the body emit radiation within the body. Accumulation in some specific organs may occur depending on the types of radioactive is largely due to the physicochemical properties of radioactive materials.

6 For example, strontium, having similar properties to calcium, tends to accumulate in calcium-rich parts such as bones once it enters the body; cesium, because of its properties similar to potassium, tends to distribute throughout the body once it enters the , being a constituent element of thyroid hormones, tends to accumulate in the thyroid, whether it is radioactive iodine or stable in this reference material on March 31, 2013 Updated on March 31, Routes(i) emitters > emitters or emitters(ii) Materials that enter easily but are difficult to excrete(iii)Materials that are likely to accumulate in specific organsExposure RoutesInternal Exposure and Radioactive MaterialsThe characteristics of radioactive materials that especially cause problems in Internal exposureRadioactive materialsRadioactive materials within the body disintegrate into other elements and are gradually excreted in the urine and feces through metabolism.

7 The time required for radioactive materials to reduce to half by disintegration is called physical half-life (Tp), and the time required for radioactive materials within the body to reduce to half through metabolism is called biological half-life (Tb). Radioactive materials that enter the body decrease both through their physical half-life and biological half-life. The time required for such radioactive materials to reduce to half is called effective half-life (Te), and the following relationship is found between Tp and Tb: 1/Te = 1/Tp + 1/TbA major problem with Internal Exposure is caused by radioactive materials that have a long half-life and emit -particles. In terms of the chemical nature and element-specfic biokinetic behavior, radioactive materials that are easily incorporated into the body but are difficult to be excreted, and also those that tend to be accumulated in particular organs/tissues cause problems as they result in increasing Internal Exposure , which is not easily absorbed in the digestive tract, for example, could be a concern if taken into the lungs during inhalation rather than being taken into the body via food.

8 It has been known that plutonium then enters blood vessels from the lungs and is transported by blood flow to bones and the liver, where it settles. Since plutonium emits -particles within such organs, it could cause lung cancer, bone tumors or liver cesium, on the other hand, easily enters the body because of its properties similar to potassium but it also tends to be easily excreted. It does not accumulate in any specific organs but is taken in mainly in muscles. For adults, the time required for radioactive cesium that enters the body to reduce to half is said to be about 70 days ( of Vol. 1, "Radioactive Materials Derived from nuclear Accidents").Included in this reference material on March 31, 2013 Updated on March 31, DisasterNuclear DisasterInternational nuclear and Radiological Event Scale Deviation No safety significanceAnomaly Exposure over annual permissible doseIncident Exposure of a member of the public in excess of 10 mSv/ Exposure of a worker in excess of the statutory annual limitsSerious incident Exposure in excess of ten times the statutory annual limit for workers/Non lethal deterministic health effect from radiationAccident with wider consequences Limited release of radioactive material likely to require implementation of some planned countermeasuresSerious Accident Significant release of radioactive material likely to require implementation of planned countermeasuresMajor Accident Major release of radioactive material with widespread health and environmental effects (requiring implementation of planned and extended countermeasures)

9 Accident with local consequences Minor release of radioactive material unlikely to result in implementation of planned countermeasures other than local food controlsAccidentsIncidentsChernobyl nuclear Accident (1986)(5,200 PBq)Kyshtym disaster (1957)Chalk River accident (1952)Windscale fire (1957)Three Mile Island accident (1979), 1 Experimental nuclear Reactor accident (1961)JCO criticality accident in Tokai mura(1999)Sellafield accident (1979), of Accidents and IncidentsTokyo Electric Power Company (TEPCO)'s Fukushima Daiichi nuclear Power Station accident (2011) (770 PBq)*PBq = 1016Bq*Source: Prepared based on the "Report of Japanese Government to the IAEA Ministerial Conference on nuclear Safety" (June 2011)The International nuclear and Radiological Event Scale (INES) was established by the INES (the International Atomic Energy Agency) and the OECD/NEA (Organization for Economic Co-operation and Development/ nuclear Energy Agency), and in 1992, all countries were recommended to formally adopt and accidents at nuclear facilities are divided into seven categories according to their severity.

10 Each country determines the severity of incidents or accidents using this scale and announces the accident at TEPCO's Fukushima Daiichi NPS was provisionally rated Level 7, indicating that it was the most serious accident because of the amount of radioactive materials released.(Related to of Vol. 2, "International nuclear Event Scale (INES)")Included in this reference material on March 31, 2013 Updated on March 31, DisasterFoodsI-131, Cs-137, Cs-134I-131, Cs-137, Cs-134I-131, Cs-137, Cs-134I-131, I-133,Cs-134,Cs-137, Xe-133, Kr-85I-131, I-133,Cs-134,Cs-137, Xe-133, Kr-85 nuclear DisasterRadioactive plumeRadioactive plumeEffects of Reactor AccidentsFrom the atmosphereExternal exposureRadioactive falloutPlantsRiversInternal exposureSoil contaminationInhalationNote: This illustration shows possible effects in general in the event of a nuclear plant incident or accident, and not the specific effects due to the accident at Tokyo Electric Power Company (TEPCO)'s Fukushima Daiichi from foods and drinksFrom the groundFishDrinking water (water treatment plant)If an emergency happens in a nuclear facility and radioactive gas leaks, it flows into the atmosphere in a state called "plume.


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