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Deferoxamine

Deferoxamine Suppliers list
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CAS:70-51-9
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CAS:70-51-9
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Deferoxamine manufacturers

  • Deferoxamine
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  • 2024-11-19
  • CAS:70-51-9
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  • Purity: 99.97%
  • Supply Ability: 10g
  • Deferoxamine
  • Deferoxamine pictures
  • $64.00 / 1mg
  • 2024-11-19
  • CAS:70-51-9
  • Min. Order:
  • Purity: 99.97%
  • Supply Ability: 10g
  • Deferoxamine
  • Deferoxamine pictures
  • $1.10 / 1g
  • 2024-04-17
  • CAS:70-51-9
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Related articles

  • Side effects of Deferoxamine
  • Deferoxamine was introduced in the 1960s for chelation of iron. It is synthesized by removing a central iron molecule from fer....
  • Jan 17,2022
Deferoxamine Basic information
Product Name:Deferoxamine
Synonyms:deferoxamideb;deferoxamin;deferoxamine;deferoxamineb;deferoxaminum;deferrioxamine;deferrioxamineb;desferan
CAS:70-51-9
MF:C25H48N6O8
MW:560.69
EINECS:200-738-5
Product Categories:
Mol File:70-51-9.mol
Deferoxamine Structure
Deferoxamine Chemical Properties
Melting point 139°C
Boiling point 627.9°C (rough estimate)
density 1.2216 (rough estimate)
refractive index 1.5540 (estimate)
pka9.08±0.50(Predicted)
form Solid
color White to off-white
EPA Substance Registry SystemDeferoxamine (70-51-9)
Safety Information
Hazardous Substances Data70-51-9(Hazardous Substances Data)
ToxicityLD50 oral in mouse: 1340mg/kg
MSDS Information
Deferoxamine Usage And Synthesis
DescriptionDeferoxamine was introduced in the 1960s for chelation of iron. It is synthesized by removing a central iron molecule from ferrioxamine B, a compound obtained from the microorganism Streptomyces pilosus. Deferoxamine binds to iron from ferritin and forms ferrioxamine, a very stable and water-soluble chelate with a characteristic reddish color.
OriginatorDeferoxamine,Novartis,Germany
UsesChelating agent (iron).
UsesDeferoxamine is used for the treatment of both acute iron intoxication and chronic iron overload due to transfusiondependent anemias. It has also been used in trials for malaria treatment and for aluminum chelation in hemodialysis patients. Studies of a rat model of intracerebral hemorrhage have noted that deferoxamine treatment reduced oxidative stress from iron release, indicating a possible role in preventing damage associated with hemorrhagic strokes.
DefinitionChEBI: Desferrioxamine B is an acyclic desferrioxamine that is butanedioic acid in which one of the carboxy groups undergoes formal condensation with the primary amino group of N-(5-aminopentyl)-N-hydroxyacetamide and the second carboxy group undergoes formal condensation with the hydroxyamino group of N(1)-(5-aminopentyl)-N(1)-hydroxy-N(4)-[5-(hydroxyamino)pentyl]butanediamide. It is a siderophore native to Streptomyces pilosus biosynthesised by the DesABCD enzyme cluster as a high affinity Fe(III) chelator. It has a role as an iron chelator, a siderophore, a ferroptosis inhibitor and a bacterial metabolite. It is a conjugate acid of a desferrioxamine B(3-).
Manufacturing ProcessO-Benzylhydroxylamine hydrochloride (4.7 g, 29.7 mmol) was mixed with 5 ml of water and 11 ml of methanol at 0°C and the pH adjusted to 4.7 using 6 N KOH. The aldehyde, 4-cyanobutanal (2.6 mL, 27 mmol) was added to the hydroxylamine and the mixture allowed to warm to room temperature. The pH was maintained by addition of further 6 N KOH. After 1 h, the reaction was cooled to 0°C, and sodium cyanoborohydride (1.26 g, 20 mmol) was added. The pH was adjusted to 3 and maintained by addition of saturated HCl in methanol. When the pH stabilized, the reaction was warmed to room temperature and stirred for 3 h at a PH of 3. The reaction mixture was then poured into ether and made basic with 6 N KOH. The aqueous layer was extracted with ether (3x50 mL). The extracts were combined, washed with brine, and dried over magnesium sulfate. The solvents were removed and the resulting liquid distilled at 150°-151°C (0.6 mm) to give 4.65 g (84% of Obenzyl-N-(4-cyanobutyl)hydroxylamine. 2.8 g (13.7 mmol) of the above prepared hydroxylamine in 23 ml of pyridine and 2.1 g (20.8 mmol) of succcinic anhydride, initially heated at 100°C for 1.5 h then allowed to cool to room temperature and stirred overnight. The pyridine was removed in vacuum and the residue was dissolved in a minimal amount of chloroform, and the residue was dissolved in ether, which was extracted three times with 20% potassium bicarbonate (3x50 mL). The aqueous solutions were combined, acidified, extracted with ether, dried, filtered and evaporated; the residue was then chromotagraphed on silica gel to give 4.12 g (98%) of N-(4-cyanobutylN-(benzyloxy)succinamic acid.
2.6 g (12.75 mmol) of O-benzyl-N-(4-cyanobutyl)hydroxylamine, 17.24 mL of pyridine and 17.2 mL of acetic anhydride were stirred under argon at room temperature for 24 h. Then the excess pyridine and acetic acid anhydride were removed by vacuum. The resulting oil was taken up in chloroform, which was extracted with 1 N HCl (2x50mL), washed with sodium bicarbonate and brine, dried, over sodium sulfate, filtered and evaporated to give 3.4 g (100%) of N-(4-cyanobutyl)-N-(benzyloxy)acetamide as a light oil. 1.4 g (5.7 mmol) of this product, 2.6 g Raney nickel, 15 ml of ammonia saturated methanol and 4 ml of saturated ammonium hydroxide were cooled in a ice bath and anhydrous ammonia was allowed to bubble through the solution for 10 min. The bottle was pressurized to 50 psi with hydrogen and shook for 3 h. Then the catalyst was filtered and the solvents evaporated. The crude material was chromatografed on silica gel to gave a 1.25 g (88%) of N-(5- aminopentyl)-N-(benzyloxy)acetamide.
1 g (4 mmol), of the above acetamide, 1.46 g (4.79 mmol) of N-(4- cyanobutyl-N-(benzyloxy)succinamic acid, 1.24 g (6 mmol) of DCC and 70 mg of DMAP was cooled to 0°C for 0.55 h in 28 mL of chloroform. The mixture was allowed to warm to room temperature and stirred 24 h. Then it was again cooled to 0°C, filtered and chromatografed to yield 2.1 g (98%) of N-(4- cyanobutyl)-3-[{5-N-benzyloxy)acetamido)pentyl}carbomoyl]-Obenzylpropionohydroxamic acid. This product (1 g) was hydrogeneted by analogue with N-(4-cyanobutyl)-N-(benzyloxy)acetamide using Nickel Raney as catalyst to give 1 g (88%) N-(5-aminopentyl)-3-[{5-(N - benzyloxyacetamido)pentyl}carbomoyl]-O-benzylpropionohydroxamic acid, which produced by the reaction with DCC described above 0.78 g (88%) of N- [5-[3-[{4-cyanobutyl)(benzyloxy)-carbomoyl]propionaminoamido]pentyl}-3- [{5-(N-bebzyloxyacetamido)pentyl]-carbomoyl]-O-benzylpropionohydroxamic acid. The purity of all products confirmed with1H-NMR and elemental analyses. The last compound (0.165 g, 0.2 mmol) was reduced in methanol, 2.7 mL of 0.1 N HCl and 0.27 g of 10% Pd on C. The hydrogenation was carried out at one atmosphere of hydrogene for 7.5 hrs. The solution was filtered, the solvents were removed and the residue was washed with cold methanol, and then chloroform to give 0.1 g (84%) of product. This material had melting point 167°-168°C [Prelog, supra] and was identical to an authentic sample by 300 MHz NMR [sample of deferrioxamine B supplied by dr. Heirich H. Peter at Ciba-Geigy, Basel, Switzerland].
Brand nameDesferal (Novartis).
Therapeutic FunctionPharmaceutic aid (chelating agent)
Environmental FateLocalized infusion or injection site reactions may occur with deferoxamine administration, such as pain, urticaria and flushing of the skin. Hypersensitivity reactions have been documented with both acute and chronic administration of deferoxamine. Some of the more serious side effects include infusion rate-related hypotension, renal insufficiency, neurotoxicity, growth retardation, pulmonary toxicity, and infections. Deferoxamine may induce venous dilation when given at doses greater than 15 mg kg-1 h-1 leading to poor venous return, depressed cardiac output, and eventually hypotension. Increased levels of histamine have been noted during hypotensive episodes, although pretreatment with antihistamines has not been shown to stop the reaction. An acute decrease in glomerular filtration rate and renal plasma flow secondary to hypotension is the possible mechanism underlying the nephrotoxicity induced by deferoxamine. Depletion of iron, translocation of copper, and chelation of other trace elements including zinc may interfere with critical iron-dependent enzymes, causing oxidative damage within various tissues. These are possible mechanisms thought to be responsible for deferoxamineinduced neurotoxicity, growth retardation, and pulmonary toxicity. In vitro studies have shown that deferoxamine inhibits the synthesis of prostaglandin, hemoglobin, ferritin, collagen, and DNA. The iron–deferoxamine complex, ferrioxamine, is a growth factor for many bacteria and fungi. Deferoxamine has been associated with Yersinia enterocolitica overgrowth and fatal cases of mucormycosis with prolonged therapy.
Tag:Deferoxamine(70-51-9) Related Product Information
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