Iodine: Difference between revisions
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Iodine is specified as a [[Drug_Enforcement_Administration/Lists|List I chemical]] by the [[United States|US]] [[Drug Enforcement Administration]] and is considered to have high risk of diversion to illicit drug manufacturing.<ref>http://www.deadiversion.usdoj.gov/fed_regs/rules/2007/fr0702.htm</ref> | Iodine is specified as a [[Drug_Enforcement_Administration/Lists|List I chemical]] by the [[United States|US]] [[Drug Enforcement Administration]] and is considered to have high risk of diversion to illicit drug manufacturing.<ref>http://www.deadiversion.usdoj.gov/fed_regs/rules/2007/fr0702.htm</ref> | ||
<sup>131</sup>I is a [[radioactive]] [[isotope]] of | == Radioactive iodine-131 == | ||
<sup>131</sup>I is a [[radioactive]] [[isotope]] of iodine used to treat certain [[cancer]]s <ref>http://www.nejm.org/doi/full/10.1056/NEJMoa041511#t=articleBackground</ref><ref>http://www.medscape.com/viewarticle/477675</ref> and may be acidentally released by [[nuclear energy]] facilities in times of disaster. 131I can be produced in one of two ways: 1) by nuclear fusion for medical uses, or 2) as a by-product of nuclear fission in nuclear energy facilities. <sup>131</sup>I has a [[half-life]] of only 8.06 days<ref>http://www.bt.cdc.gov/radiation/isotopes/pdf/iodine.pdf</ref>, so environmental spills are of much less concern that similar spills of other radioactive elements such as [[cesium]] or [[uranium]]. The iodine-131 atom undergoes [[beta-decay]] and emits [[gamma radiation]] in the nuclear fission process. Because iodine is readily absorbed by the thryroid gland, which uses it to produce thyroid [[hormone]]s, ingestion of radioactive iodine can lead to thyroid pathology, including thyroid cancer. | |||
== Ingestion == | |||
Like [[bromine]], iodine is readily [[sublimation|sublimed]], going from the solid state directly to the gaseous state,(skipping the liquid state) so exposure to the solid form can still lead to inhalation of the chemical. Being a halogen, it also readily forms many salts which are readily soluble, so the molecular form is quickly converted into various salts upon reaction with most environments. Dairy animals exposed to any form of radioactive iodine can thus lead to ingestion by humans. | |||
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Revision as of 17:06, 4 April 2011
Iodine is a chemical element, having the chemical symbol I.
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Its atomic number (the number of protons) is 53. It has a Standard Atomic Weight of 126.90447(3), and is typically found as a solid in its elemental form.
Iodine is considered to be a member of the "Halogen" class of elements, has a boiling point of 184.4 °C , and a melting point of 113.7 °C .
Iodine is specified as a List I chemical by the US Drug Enforcement Administration and is considered to have high risk of diversion to illicit drug manufacturing.[1]
Radioactive iodine-131
131I is a radioactive isotope of iodine used to treat certain cancers [2][3] and may be acidentally released by nuclear energy facilities in times of disaster. 131I can be produced in one of two ways: 1) by nuclear fusion for medical uses, or 2) as a by-product of nuclear fission in nuclear energy facilities. 131I has a half-life of only 8.06 days[4], so environmental spills are of much less concern that similar spills of other radioactive elements such as cesium or uranium. The iodine-131 atom undergoes beta-decay and emits gamma radiation in the nuclear fission process. Because iodine is readily absorbed by the thryroid gland, which uses it to produce thyroid hormones, ingestion of radioactive iodine can lead to thyroid pathology, including thyroid cancer.
Ingestion
Like bromine, iodine is readily sublimed, going from the solid state directly to the gaseous state,(skipping the liquid state) so exposure to the solid form can still lead to inhalation of the chemical. Being a halogen, it also readily forms many salts which are readily soluble, so the molecular form is quickly converted into various salts upon reaction with most environments. Dairy animals exposed to any form of radioactive iodine can thus lead to ingestion by humans.