Pemoline
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| Trade names | Cylert |
| AHFS/Drugs.com | Micromedex Detailed Consumer Information |
| Routes of administration | Oral |
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| Pharmacokinetic data | |
| Bioavailability | 50% bound to plasma proteins |
| Metabolism | Hepatic |
| Elimination half-life | 12 hours |
| Excretion | ? |
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| ECHA InfoCard | 100.016.763  |
| Chemical and physical data | |
| Formula | C9H8N2O2 |
| Molar mass | 176.175 g·mol−1 |
| 3D model (JSmol) | |
| Chirality | Racemic mixture |
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Pemoline is a stimulant drug of the 4-oxazolidinone class. It was first synthesized in 1913[1] but its activity was not discovered until the 1930s.[2] Under the names Betanamin, Cylert, Tradon, and Ceractiv it was used as a medication to treat attention-deficit hyperactivity disorder (ADHD) and narcolepsy. Under the Convention on Psychotropic Substances, it is a Schedule IV drug.[3] It is no longer generally available in the United States as a result of the Food and Drug Administration (FDA) withdrawing approval of pemoline as an indicated treatment for ADHD, due to its implication in liver failures among children who were receiving the medication. An FDA Alert warned against prescribing pemoline for ADHD. This spurred Abbott Laboratories, the patent owner of Cylert, to cease manufacturing Cylert. Manufacturers of the generic equivalents followed suit.
Mechanism of action[]
Pemoline is generally considered dopaminergic, but its precise method of action hasn't yet been definitively determined.[4] Pemoline passes the blood–brain barrier and acts as a surrogate[when defined as?] for dopamine, not affecting endogenous intracellular dopamine. For this reason, and the fact that it has little or no affinity for adrenaline receptors, pemoline has minimal sympathomimetic side effects such as: dry mouth, reduction in appetite, high blood pressure, increased heart rate, constriction of smooth muscle, cardiac stress, dilated pupils and insomnia. There is some data to suggest that pemoline is a nootropic acting as a catalyst conductor in the synapses of the brain's memory centers, raising the efficiency of memory and assisting RNA formation in the brain[citation needed]. While drugs like dexamphetamine and methylphenidate are classified as Schedule II, pemoline is listed as Schedule IV (non-narcotic). In studies conducted on primates, pemoline fails to demonstrate a potential for self-administration.
Pemoline is Schedule IV Non-Narcotic (Stimulant) controlled substance with a DEA ACSCN of 1530 and is not subject to annual manufacturing quotas. The salts in use are pemoline magnesium (free base conversion ratio .751), pemoline iron (.578), pemoline copper (.644), pemoline nickel (.578), pemoline rubidium, pemoline calcium, pemoline chromium, and chelates of the above which are identical in weight to the salt mentioned. Pemoline free base and pemoline cobalt, strontium, silver, barium, lithium, sodium, potassium, zinc, manganese, and caesium are research chemicals which can be produced in situ for experiments.[5][6][7] Others such as lanthanide pemoline salts such as pemoline cerium can be prepared; pemoline beryllium would presumably be toxic.
Interactions[]
Other stimulants and MAOIs are contraindicated with pemoline.
Liver toxicity[]
In some patients pemoline is suspected of causing hepatotoxicity,[8] so the FDA recommended that regular liver tests should be performed on those treated with it.[9] Since receiving FDA approval in 1975, it has been linked with 21 cases of liver failure, of which 13 resulted in liver replacement or death. Approximately 1–2% of patients taking the drug show elevated levels of liver transaminase enzymes, a marker for liver toxicity, though serious cases are rare. Over 200,000 children with ADHD were prescribed pemoline in the US and Canada alone during the 25 years it was available, plus a smaller number of adults prescribed it for indications such as chronic fatigue syndrome and apathy in the elderly (and not including prescriptions in the rest of the world), so the number of liver failure cases was statistically not that large. However the reactions proved idiosyncratic and unpredictable, with patients sometimes taking the drug with no issue for months or even years, before suddenly developing severe liver toxicity. There was no clear exposure-toxicity relationship, and no characteristic liver pathology findings. Some patients showed as little as one week between first appearance of jaundice and complete liver failure, and some of the patients that developed liver failure had not showed elevated liver transaminase levels when tested previously.[10] In March 2005 Abbott Laboratories and generic manufacturers withdrew pemoline from the American market due to concerns about the liver toxicity risk.[11] Pemoline (as Betanamin) continues to be available in Japan, where no liver failure cases have been reported associated with its use, however it is only prescribed for the niche indication of narcolepsy, and at a lower dose than previously used in the USA.[12]
Overdose[]
Overdose of pemoline may present with choreoathetosis symptoms.[13]
Synthesis[]
Pemoline is synthesized by the condensation of racemic ethyl mandelate with guanidine.
See also[]
- 4-Methylaminorex
- Aminorex
- Clominorex
- Cyclazodone
- Fenozolone
- Fluminorex
- Thozalinone
References[]
- ^ Chemische Berichte, 1913, vol.46, p. 2083
- ^ Acta Academiae Aboensis, Series B: Mathematica et Physica, 1939, vol. 11, #14 p. 3,7
- ^ Annual Estimates Of Requirements Of Narcotic Drugs, Manufacture Of Synthetic Drugs, Opium Production And Cultivation Of The Archived December 5, 2005, at the Wayback Machine
- ^ "Cylert (Pemoline)" (PDF). FDA. December 2002. Archived (PDF) from the original on 4 March 2016. Retrieved 15 February 2014.
- ^ DEA office of Diversion Control site: Federal Register publications of CSA schedules, 2014 Q1
- ^ The A-Z Encyclopaedia of Alcohol and Drug Abuse
- ^ CRC Handbook of Chemistry & Physics
- ^ Marotta PJ, Roberts EA (May 1998). "Pemoline hepatotoxicity in children". J. Pediatr. 132 (5): 894–7. doi:10.1016/S0022-3476(98)70329-4. PMID 9602211.
- ^ Willy ME, Manda B, Shatin D, Drinkard CR, Graham DJ (July 2002). "A study of compliance with FDA recommendations for pemoline (Cylert)". J Am Acad Child Adolesc Psychiatry. 41 (7): 785–90. doi:10.1097/00004583-200207000-00009. PMID 12108802. Archived from the original on 2021-05-31. Retrieved 2020-09-10.
- ^ Etwel FA, Rieder MJ, Bend JR, Koren G (2008). "A surveillance method for the early identification of idiosyncratic adverse drug reactions". Drug Saf. 31 (2): 169–80. doi:10.2165/00002018-200831020-00006. PMID 18217792. S2CID 19964105.
- ^ "Pemoline - Withdrawn due to liver toxicity risk". WHO Pharmaceuticals Newsletter (5). 2005. Archived from the original on 2013-12-03. Retrieved 2012-09-26.
- ^ Shader RI. Risk Evaluation and Mitigation Strategies (REMS), Pemoline, and What Is a Signal? Clin Ther. 2017 Apr;39(4):665-669. Shader, Richard I. (2017). "Risk Evaluation and Mitigation Strategies (REMS), Pemoline, and What is a Signal?". Clinical Therapeutics. 39 (4): 665–669. doi:10.1016/j.clinthera.2017.03.008. PMID 28366595.
- ^ Stork CM, Cantor R (1997). "Pemoline induced acute choreoathetosis: case report and review of the literature". J. Toxicol. Clin. Toxicol. 35 (1): 105–8. doi:10.3109/15563659709001175. PMID 9022662.
- Stimulants
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- Oxazolidinones
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