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Pralidoxime

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Pralidoxime

Pralidoxime
Systematic (IUPAC) name
2-[(hydroxyimino)methyl]-1-methylpyridin-1-ium
Clinical data
AHFS/Drugs.com
Pregnancy cat.
  • C
Legal status
  • Prescription only
Identifiers
CAS number  YesY
ATC code V03
PubChem
DrugBank
ChemSpider  YesY
UNII  YesY
KEGG  YesY
ChEBI  YesY
ChEMBL  YesY
Synonyms 1-methylpyridine-6-carbaldehyde oxime
Chemical data
Formula C7H9N2O+
Mol. mass 137.159 g/mol
 YesY   

Pralidoxime (2-pyridine aldoxime methyl chloride,) or 2-PAM, usually as the chloride or [1] or acetylcholinesterase inhibitors (nerve agents) in conjunction with atropine and diazepam.

Mechanism of action

Pralidoxime is typically used in cases of organophosphate poisoning. The acetylcholinesterase enzyme has two parts to it. An acetylcholine molecule, bound at both ends to both sites of the enzyme, is cleaved in two to form acetic acid and choline. In organophosphate poisoning, an organophosphate binds to just one end of the acetylcholinesterase enzyme (the esteric site), blocking its activity. Pralidoxime is able to attach to the other half (the unblocked, anionic site) of the acetylcholinesterase enzyme. It then binds to the organophosphate, the organophosphate changes conformation, and loses its binding to the acetylcholinesterase enzyme. The conjoined poison / antidote then unbinds from the site, and thus regenerates the enzyme, which is now able to function again.

After some time though, some inhibitors can develop a permanent bond with cholinesterase, known as aging, where oximes such as pralidoxime cannot reverse the bond. Pralidoxime is often used with atropine (a muscarinic antagonist) to help reduce the parasympathetic effects of organophosphate poisoning. Pralidoxime is only effective in organophosphate toxicity (i.e. it does not have an effect if the acetylcholinesterase enzyme is carbamylated, as occurs with neostigmine or physostigmine).

Pralidoxime has an important role in reversing paralysis of the respiratory muscles but due to its poor blood–brain barrier penetration, it has little effect on centrally-mediated respiratory depression. This is why [2]

Dosage

Intravenous infusions can lead to respiratory or cardiac arrest if given too quickly.[3]

Interactions

When atropine and pralidoxime are used together, the signs of atropinization (flushing, mydriasis, tachycardia, dryness of the mouth and nose) may occur earlier than might be expected when atropine is used alone. This is especially true if the total dose of atropine has been large and the administration of pralidoxime has been delayed.

The following precautions should be kept in mind in the treatment of anticholinesterase poisoning, although they do not bear directly on the use of pralidoxime: since barbiturates are potentiated by the anticholinesterases, they should be used cautiously in the treatment of convulsions; morphine, theophylline, aminophylline, succinylcholine, reserpine, and phenothiazine-type tranquilizers should be avoided in patients with organophosphate poisoning.

Contraindications

There are no known absolute contraindications for the use of pralidoxime. Relative contraindications include known hypersensitivity to the drug and other situations in which the risk of its use clearly outweighs possible benefit.

Chemical synthesis

Pralidoxime, 2-pyridinaldoxime methylchloride, is synthesized by reacting picolinaldehyde (2-formyl pyridine) with hydroxylamine, giving pyridine-2-aldoxime, which is further reacted with methyl iodide, giving the desired pralidoxime.[4][5][6][7]

See also

References

  1. ^ Jokanović M, Prostran M (2009). "Pyridinium oximes as cholinesterase reactivators. Structure-activity relationship and efficacy in the treatment of poisoning with organophosphorus compounds". Curr. Med. Chem. 16 (17): 2177–88.  
  2. ^ [2]Banerjee I, Tripathi S K, Roy A S. Efficacy of pralidoxime in organophosphorus poisoning: Revisiting the controversy in Indian setting. J Postgrad Med 2014;60:27-30
  3. ^ Baxter Healthcare Corporation 2006, Protopam Prescribing Information
  4. ^ D. Nachmansonn, S. Ginsburg, U.S. Patent 2,816,113 (1957)
  5. ^ L.P. Black, U.S. Patent 3,123,613 (1964)
  6. ^ D.E. Easterday, A.A. Kondritzer, U.S. Patent 3,140,289 (1964)
  7. ^ W.B. McDowell, U.S. Patent 3,155,674 (1964)

External links

  • Chemical Bioweapons website
  • Drugs.com
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