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<p><b>New page</b></p><div>[[File:Me-EN.svg|Me-EN|thumb]] '''Chelation''' is a chemical process in which a substance (the chelating agent) forms multiple bonds with a single metal ion. The term is derived from the Greek word ''chele'', meaning claw; this refers to the way the chelating agent encircles and binds the metal ion. Chelation has applications in various fields, including [[medicine]], [[environmental science]], and [[industrial processes]].<br />
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==Overview==<br />
In chelation, a chelating agent binds to a metal ion to form a stable, water-soluble complex, which can then be excreted from the body or removed from the environment. The chelating agent typically has at least two sites that can donate electrons to form coordinate covalent bonds with the metal ion. This process can significantly alter the properties of the metal ion, including its reactivity, solubility, and bioavailability.<br />
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==Applications in Medicine==<br />
In the medical field, chelation therapy is used to treat heavy metal poisoning. Agents such as [[EDTA]] (ethylenediaminetetraacetic acid), [[DMSA]] (dimercaptosuccinic acid), and [[DMPS]] (2,3-dimercaptopropane-1-sulfonate) are commonly used to bind metals like lead, mercury, and arsenic, which are then eliminated from the body. Chelation therapy can also be used in the treatment of iron overload disorders, such as thalassemia, by removing excess iron from the body.<br />
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==Environmental Applications==<br />
In environmental science, chelation is used to remediate contaminated soils and water. Chelating agents can mobilize toxic metals, making them easier to extract and treat. This process is crucial in the cleanup of heavy metal pollutants from industrial sites and in the treatment of water supplies.<br />
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==Industrial Uses==<br />
Chelation also finds applications in various industrial processes. In the paper and pulp industry, chelating agents are used to remove metal ions that can catalyze the degradation of bleaches and dyes. In agriculture, chelated minerals are used as micronutrient fertilizers to ensure that the metals are bioavailable to plants but not free to form insoluble and unavailable compounds in the soil.<br />
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==Safety and Regulation==<br />
While chelation therapy is an effective treatment for heavy metal poisoning, it must be administered with caution. The use of chelating agents can lead to the removal of essential minerals from the body, leading to deficiencies and other side effects. Regulatory bodies, such as the [[Food and Drug Administration]] (FDA) in the United States, have approved specific chelating agents for medical use and monitor their application to ensure safety.<br />
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==Conclusion==<br />
Chelation is a versatile process with significant benefits in medicine, environmental remediation, and industry. However, its application requires careful consideration of potential risks and side effects. Ongoing research and regulation continue to refine and expand the use of chelation in various fields.<br />
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[[Category:Chemistry]]<br />
[[Category:Medicine]]<br />
[[Category:Environmental science]]<br />
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