Name: | Deferoxamine |
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PubChem Compound ID: | 105127 |
Description: | Natural product isolated from Streptomyces pilosus. It forms iron complexes and is used as a chelating agent, particularly in the mesylate form. |
Molecular formula: | C27H54N6O10S |
Molecular weight: | 654.818 g/mol |
Synonyms: |
Desferrioxamine methanesulfonate; Desferrioxamine B methanesulfonate; Butanediamide, N'-(5-((4-((5-(acetylhydroxyamino)pentyl)amino)-1,4-dioxobutyl)hydroxyamino)pentyl)-N-(5-aminopentyl)-N-hydroxy-, methanesulfonate (salt); Propionohydroxamic acid, N-(5-(3-((5-aminopentyl)hydroxycarbamoyl)propionamido)pentyl)-3-((5-(N-hydroxyacetamido)pentyl)carbamoyl)-, methanesulfonate (salt); 5115-09-3; Desferrioxamine B mesylate
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Name: | Deferoxamine |
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Name (isomeric): | DB00746 |
Drug Type: | small molecule |
Description: | Natural product isolated from Streptomyces pilosus. It forms iron complexes and is used as a chelating agent, particularly in the mesylate form. |
Synonyms: |
Desferrioxamine; Deferoxamin; Deferrioxamine B; Deferrioxamine; DFOA; DFO; N-Benzoylferrioxamine B; Deferoxamine B; Desferrioxamine B; Deferoxamide B.
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Brand: | Desferin, Desferrin, Desferex, Desferal, Desferral, Desferan |
Category: | Iron Chelating Agents, Siderophores, Chelating agent |
CAS number: | 70-51-9 |
Indication: | Used to treat acute iron or aluminum toxicity (an excess of aluminum in the body) in certain patients. Also used in certain patients with anemia who must receive many blood transfusions. |
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Pharmacology: |
Deferoxamine, otherwise known as desferrioxamine or desferal, is a chelating agent used to remove excess iron or aluminum from the body. It acts by binding free iron or aluminum in the bloodstream and enhancing its elimination in the urine. By removing excess iron or aluminum, the agent reduces the damage done to various organs and tissues, such as...
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Mechanism of Action: |
Deferoxamine works in treating iron toxicity by binding trivalent (ferric) iron (for which it has a strong affinity), forming ferrioxamine, a stable complex which is eliminated via the kidneys. 100 mg of deferoxamine is capable of binding approximately 8.5 mg of trivalent (ferric) iron. Deferoxamine works in treating aluminum toxicity by binding to...
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Absorption: | Deferoxamine is rapidly absorbed after intramuscular or subcutaneous administration, but only poorly absorbed from the gastrointestinal tract in the presence of intact mucosa. |
Protein binding: | Less than 10% bound to serum proteins in vitro. |
Biotransformation: | Deferoxamine is mainly metabolised in the plasma and hepatic metabolism is minimal. A number of metabolites have been isolated but not characterised. Some metabolites of deferoxamine, most notably the product of oxidative deamination, also chelate iron, and thus the antidotal effect of the drug appears unaffected by hepatic metabolism. |
Route of elimination: | Deferoxamine mesylate is metabolized principally by plasma enzymes, but the pathways have not yet been defined. Some is also excreted in the feces via the bile. |
Half Life: | Biphasic elimination pattern in healthy volunteers with a first rapid phase half life of 1 hour and a second slow phase half-life of 6 hours. |
Toxicity: | Intravenous LD50 in mouse, rat, and rabbit is 340 mg/kg, 520 mg/kg, and 600 mg/kg, respectively. Subcutaneous LD50 in mouse and rat is 1600 mg/kg and >1000 mg/kg, respectively. Oral LD50 in mouse and rat is >3000 mg/kg and >1000 mg/kg, respectively. Nephrotoxicity, ototoxicity and retinal toxicity have been reported following long-term administration for chronic iron overload. |
Affected organisms: | Humans and other mammals |
Drug interaction: |
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