125-33-7

Basic information

• Product Name: Primidone
• Synonyms: 2-deoxyphenobarbital;2-DESOXYPHENOBARBITAL;5-ETHYLDIHYDRO-5-PHENYL-4,6(1H,5H)-PYRIMIDINEDIONE;5-phenyl-5-ethyl-hexahydropyrimidine-4,6-dione;PRIMIDONE;4,6(1H,5H)-Pyrimidinedione, 5-ethyldihydro-5-phenyl-;5-Aethyl-5-phenyl-hexahydropyrimidin-4,6-dion;5-Ethyl-5-phenyldihydro-4,6(1H,5H)-pyrimidinedione
• CAS NO: 125-33-7
• Molecular Formula: C₁₂H₁₄N₂O₂
• Molecular Weight: 218.25
• EINECS: 204-737-0
• Product Categories: Intermediates & Fine Chemicals;Pharmaceuticals;GABA/Glycine receptor;MYSOLINE
• Mol File: 125-33-7.mol
• Article Data: 5

Chemical Properties

• Melting Point: 281-282°C
• Boiling Point: 358.94°C (rough estimate)
• Flash Point: 9℃
• Appearance: Crystalline solid
• Density: 1.1402 (rough estimate)
• Vapor Pressure: 6.08E-11mmHg at 25°C
• Refractive Index: 1.6660 (estimate)
• Storage Temp.: Store at RT
• Solubility: Very slightly soluble in water, slightly soluble in ethanol (96 per cent). It dissolves in alkaline solutions.
• PKA: 12.26±0.40(Predicted)
• Water Solubility: <0.1 g/100 mL at 19℃
• Merck: 14,7746
• CAS DataBase Reference: Primidone(CAS DataBase Reference)
• NIST Chemistry Reference: Primidone(125-33-7)
• EPA Substance Registry System: Primidone(125-33-7)

Safety Data

• Hazard Codes: Xn,T,F
• Statements: 22-40-39/23/24/25-23/24/25-11
• Safety Statements: 22-36-45-36/37-16-7
• RIDADR: 3249
• WGK Germany: 3
• RTECS: UV9100000
• HazardClass: 6.1(b)
• PackingGroup: III
• Hazardous Substances Data: 125-33-7(Hazardous Substances Data)

Usage

Description

Different sources of media describe the Description of 125-33-7 differently. You can refer to the following data:
1. Primidone is chemically and structurally similar to phenobarbital with the exception that the carbonyl group on C2 is replaced by a methylene group. This modification leads to the production of a drug with strong anticonvulsant properties without expressed soporific effects.
2. Primidone (Item No. 19277) is an analytical reference material categorized as a barbiturate that can be detected in urine. The physiological and toxicological properties of this compound are not known; however, it is presumed to be a modulator of GABAA receptors. This product is intended for research and forensic applications.

Chemical Properties

Crystalline Solid

Uses

Different sources of media describe the Uses of 125-33-7 differently. You can refer to the following data:
1. Primidone is mainly used for major attacks.
2. Primidone is an Anticonvulsant.
3. Anticonvulsant

Definition

ChEBI: A pyrimidone that is dihydropyrimidine-4,6(1H,5H)-dione substituted by an ethyl and a phenyl group at position 5. It is used as an anticonvulsant for treatment of various types of seizures.

Brand name

Mysoline (Valeant); Mysoline (Xcel).

General Description

Odorless white crystalline powder. Slightly bitter taste. No acidic properties.

Air & Water Reactions

Insoluble in water.

Reactivity Profile

Primidone is an amide. May react with azo and diazo compounds to generate toxic gases. May react with strong reducing agents to form flammable gases. A very weak base. The Combustion generates toxic mixed oxides of nitrogen (NOx).

Fire Hazard

Flash point data for Primidone are not available; however, Primidone is probably combustible.

Biological Activity

Anticonvulsant.

Pharmacokinetics

Approximately 60 to 80% of an oral dose of primidone is absorbed and slowly metabolized by the liver to phenobarbital and phenylethylmalonamide (PEMA). All three molecules have antiseizure effects, but PEMA appears to be weaker and to be the more toxic metabolite. During chronic therapy, approximately 15 to 25% of an oral dose of primidone is excreted in the urine unchanged, 15 to 25% metabolized to phenobarbital, and 50 to 70% excreted as PEMA (half-life, 24–48 hours). The phenobarbital metabolite may be excreted in the urine unchanged, as its p-hydroxy metabolite, and as glucuronide or sulfate conjugates. Following an oral dose, the peak plasma levels for primidone are reached in approximately 4 hours, with a reported half-life of 10 to 12 hours. Plasma concentrations in the range of 8 to 12 μg/mL control seizures and minimize adverse effects. Primidone shows antiseizure activity before the phenobarbital levels reach therapeutic range. Only after chronic dosing of primidone are the levels of phenobarbital significant, suggesting autoinduction. Serum levels of chronically administered primidone exceed those of its metabolite, phenobarbital, thus demonstrating that it has antiseizure activity independent of phenobarbital. When primidone is coadministered with enzyme-inducing AEDs, the levels of its phenobarbital metabolite may be two- to threefold higher than those in the noninduced state. Protein binding of primidone and PEMA is negligible, and the phenobarbital metabolite is approximately 50% protein bound. Primidone use is associated with decreases in CBZ, lamotrigine, valproate, tiagabine, and zonisamide serum levels. Primidone levels are increased by nicotinamide and isoniazid. Hydantoins increase the plasma concentrations of primidone, phenobarbital, and PEMA. CBZ increases levels of phenobarbital derived from primidone. Primidone levels are decreased by succinimides, CBZ, and acetazolamide.

Clinical Use

Primidone is the 2-deoxy derivative of phenobarbital and is approved by the U.S. FDA for initial or adjunctive treatment of simple partial, complex partial, and tonic-clonic seizures. It is less effective against these types of seizures than is phenytoin or CBZ, and it shares the antiseizure and sedative actions of phenobarbital. Although not approved for the purpose, it often is used to treat benign familial tremor (essential tremor).

Side effects

As with phenobarbital, serious toxicity for primidone is rare, although it may cause disabling sedation, irritability, and decreased mental functioning in a number of persons. Ataxia, dysphoria, idiosyncratic rash, leukopenia, agranulocytosis, lymphadenopathy, hepatitis, and a systemic lupus erythematosus–like syndrome have been reported adverse effects for primidone. Deficiencies of folic acid and of vitamins D and K are possible with long-term therapy of primidone, as is a folateresponsive megaloblastic anemia. Measurement of the complete blood cell count should be performed at 6-month intervals.

Safety Profile

Poison by ingestion and intraperitoneal routes. Human teratogenic effects include developmental abnormalities of the craniofacial area, skin and skin appendages, and cardlovascular system. Human reproductive effects: effects on newborn, including unusual growth statistics, drug dependence, physical and other neonatal changes. Experimental teratogenic and reproductive effects. Human mutation data reported. An addictive drug. When heated to decomposition it emits toxic fumes of NOx. See also BARBITURATES.

Synthesis

Primidone, 5-ethyl-5-phenylhexahydropyrimidinedione-4,6 (9.2.1) is synthesized by reacting ethylphenylmalonic acid diamide with formamide [5,6]. An alternative method is the electrolytic reduction of phenobarbital or the catalytic reduction of the appropriate 2-thiobarbituric acid [7].

Veterinary Drugs and Treatments

Primidone is indicated for seizure control (idiopathic epilepsy, epileptiform convulsions) in the dog. Because it is rapidly converted into phenobarbital in this species (see Pharmacokinetics below), and has a greater incidence of hepatotoxicity and behavioral effects, most neurologists do not recommend its use. However, some clinicians feel that some animals not responding to phenobarbital do benefit from primidone therapy, perhaps as a result that PEMA has been demonstrated to potentiate the anticonvulsant activity of phenobarbital in animals. When compared with phenobarbital, increased incidence of hepatotoxicity associated with primidone is considered the major limitation to long-term therapy with this agent. Primidone is considered more toxic in rabbits and cats than in humans or dogs.

Drug interactions

Potentially hazardous interactions with other drugs Aminophylline and theophylline: metabolism of aminophylline and theophylline increased, reduced effect. Anthelmintics: concentration of albendazole and praziquantel reduced. Anti-arrhythmics: reduced concentration of disopyramide and possibly propafenone; possibly reduced concentration of dronedarone - avoid. Antibacterials: reduced concentration of chloramphenicol, doxycycline, metronidazole, telithromycin and rifampicin - avoid with telithromycin. Anticoagulants: increased metabolism of coumarins (reduced effect); possibly reduced concentration of apixaban and edoxaban and possibly rivaroxaban. Antidepressants: antagonise anticonvulsant effect; reduces concentration of paroxetine, reboxetine, mianserin and tricyclics; concentration reduced by St John’s wort - avoid. Antiepileptics: concentration increased by fosphenytoin, oxcarbazepine, phenytoin, stripentol and valproate and possibly carbamazepine, also active metabolite of oxcarbazepine reduced and valproate concentration reduced, concentration of fosphenytoin and phenytoin usually reduced but can also be increased; concentration of ethosuximide, rufinamide and topiramate possibly reduced; concentration of lamotrigine, tiagabine and zonisamide reduced. Antifungals: possibly reduced concentration of isavuconazole, itraconazole, posaconazole and voriconazole - avoid concomitant use with voriconazole; reduced absorption of griseofulvin (reduced effect). Antimalarials: avoid with piperaquine with artenimol; anticonvulsant effect antagonised by mefloquine Antipsychotics: antagonise anticonvulsant effect; metabolism of haloperidol increased; possibly reduces aripiprazole concentration - increase aripiprazole dose; concentration of both drugs reduced with chlorpromazine; possibly reduces clozapine concentration; possibly reduces lurasidone concentration - avoid. Antivirals: concentration of abacavir, boceprevir, darunavir, dolutegravir, fosamprenavir, indinavir, lopinavir, rilpivirine and saquinavir possibly reduced; avoid with boceprevir and rilpivirine; concentration of daclatasvir, dasabuvir, ombitasvir, paritaprevir and simeprevir possibly reduced - avoid; avoid with elvitegravir, etravirine, ledipasvir, sofosbuvir and telaprevir. Calcium-channel blockers: effects of calcium-channel blockers probably reduced - avoid with isradipine and nimodipine. Cannabis extract: concentration possibly reduced by primidone - avoid. Ciclosporin: reduced ciclosporin levels. Cobicistat: concentration of cobicistat possibly reduced. Corticosteroids: metabolism of corticosteroids accelerated, reduced effect. Cytotoxics: possibly reduced concentration of axitinib, increase axitinib dose; possibly reduced concentration of bortezomib, bosutinib, cabozantinib, ceritinib, crizotinib, dasatinib, ponatinib and vandetanib - avoid; avoid with cabazitaxel, dabrafenib, gefitinib and panobinostat; concentration of irinotecan and its active metabolite and possibly etoposide reduced; possible increased hypersensitivity reactions with procarbazine. Diuretics: concentration of eplerenone reduced - avoid; increased risk of osteomalacia with carbonic anhydrase inhibitors. Guanfacine: concentration of guanfacine possibly reduced - increase dose of guanfacine. Hormone antagonists: possibly reduced concentration of abiraterone - avoid; metabolism of toremifene accelerated.

Metabolism

Partially metabolised to phenobarbital and phenylethylmalonamide in the liver, both of which are active and have longer half-lives compared to primidone (metabolites may accumulate in renal impairment). It is excreted in urine as unchanged drug and metabolites.

InChI:InChI=1/C12H14N2O2/c1-2-12(9-6-4-3-5-7-9)10(15)13-8-14-11(12)16/h3-7H,2,8H2,1H3,(H,13,15)(H,14,16)

Synthetic route

5-ethyl-5-phenyl-2-thiobarbituric acid (2753-74-4) → pirimidone (125-33-7)

Conditions	Yield
With sodium tetrahydroborate; nickel dichloride In methanol at 20℃; for 5.75h;	81%
With ethanol; nickel
Multi-step reaction with 2 steps 1: 44 percent / 17 h / 22 °C / Irradiation 2: 42 percent / butan-1-ol / 17 h / 22 °C / Irradiation

formic acid (64-18-6) + 2-ethyl-2-phenylmalonamide (7206-76-0) → pirimidone (125-33-7)

Conditions	Yield
for 2h; Product distribution; Further Variations:; reaction time, effect of microwave activation; heterocyclization; Heating;	79%

2-ethyl-2-phenylmalonamide (7206-76-0) + formamide (77287-34-4, 77287-35-5, 60100-09-6) → pirimidone (125-33-7)

Conditions	Yield
at 210℃; for 6h; heterocyclization;	54%

2-Ethoxy-5-ethyl-2-dihydro-5-phenyl-4,6(1H,5H)-pyrimidinedione (117752-97-3) → pirimidone (125-33-7)

Conditions	Yield
In butan-1-ol at 22℃; for 17h; Irradiation;	42%
With formamide durch Reduktion;
With formic acid durch Reduktion;

5-ethyl-5-phenyl-1H-pyrimidine-4,6-dione (694447-38-6) → pirimidone (125-33-7)

Conditions	Yield
With Pd/SrCO3; ethanol Hydrogenation;
With hydrogen; nickel
With ethanol; Pd/CaCO3 Hydrogenation;
With hydrogen; nickel

2-ethyl-2-phenylmalonamide (7206-76-0) → pirimidone (125-33-7)

Conditions	Yield
With formamide
With formamide

phenobarbital (50-06-6) → pirimidone (125-33-7)

Conditions	Yield
durch elektrochemische Reduktion;
durch elektrochemische Reduktion;

5-ethyl-2-methoxy-5-phenyl-1H-pyrimidine-4,6-dione (857411-80-4) → pirimidone (125-33-7)

Conditions	Yield
With ethanol; nickel
With ethanol; nickel

S-methyl-2-thiophenobarbital (343339-89-9, 343339-90-2, 156546-57-5) → pirimidone (125-33-7)

Conditions	Yield
With ethanol; nickel
With ethanol; nickel

2-ethyl-2-phenylmalonamide (7206-76-0) + oxalic acid (144-62-7) → pirimidone (125-33-7)

4-thiophenobarbital (60024-01-3) → pirimidone (125-33-7)

Conditions	Yield
With sodium amalgam; water durch Reduktion;
With formic acid; zinc durch Reduktion;

5-ethyl-5-phenyl-1H-pyrimidine-4,6-dione monohydrochloride → pirimidone (125-33-7)

Conditions	Yield
With acetic acid; platinum Hydrogenation;
With acetic acid; platinum Hydrogenation;

pirimidone (125-33-7) + methyl iodide (74-88-4) → 5-ethyl-1,3-dimethyl-5-phenyl-dihydro-pyrimidine-4,6-dione (104169-76-8)

Conditions	Yield
With potassium hydroxide In acetone Heating;	56%

pirimidone (125-33-7) + ethyl iodide (75-03-6) → 1,3,5-Triethyl-5-phenyl-dihydro-pyrimidine-4,6-dione

Conditions	Yield
With potassium hydroxide In acetone Heating;	39%

pirimidone (125-33-7) → phenobarbital (50-06-6)

Conditions	Yield
In acetonitrile Electrolysis;	24%
Multi-step reaction with 2 steps 1: 22 percent / CrO3 / acetic acid / 0.17 h / 20 °C 2: 38 percent / CrO3 / acetic acid / 0.17 h / 20 °C

pirimidone (125-33-7) → 2-hydroxyprimidone (75524-08-2)

Conditions	Yield
With chromium(VI) oxide In acetic acid at 20℃; for 0.166667h;	22%

pirimidone (125-33-7) → 5-ethyl-5-(3-nitro-phenyl)-dihydro-pyrimidine-4,6-dione (58061-80-6)

Conditions	Yield
With sulfuric acid; nitric acid

pirimidone (125-33-7) + ethyl iodide (75-03-6) + methyl iodide (74-88-4) → 1,5-Diethyl-3-methyl-5-phenyl-dihydro-pyrimidine-4,6-dione

Conditions	Yield
With sodium 1.) EtOH, reflux, 2.) reflux, 3-4 h; Yield given. Multistep reaction;

pirimidone (125-33-7) + ethyl iodide (75-03-6) → 1,5-diethyl-5-phenyl-dihydro-pyrimidine-4,6-dione (107480-93-3)

Conditions	Yield
With sodium 1.) EtOH, reflux, 2.) reflux, 3-4 h; Yield given. Multistep reaction;

pirimidone (125-33-7) + 1-iodo-propane (107-08-4) → 5-Ethyl-5-phenyl-1,3-dipropyl-dihydro-pyrimidine-4,6-dione

Conditions	Yield
With tetraethylammonium hydroxide In methanol

pirimidone (125-33-7) + methyl iodide (74-88-4) → 5-ethyldihydro-1-methyl-5-phenyl-4,6(1H,5H)-pyrimidinedione (69243-48-7)

Conditions	Yield
With sodium 1.) EtOH, reflux, 2.) reflux, 3-4 h; Yield given. Multistep reaction;

pirimidone (125-33-7) → 2-ethyl-2-phenylmalonamide (7206-76-0) + phenobarbital (50-06-6)

Conditions	Yield
metabolism study in epileptic fowl;

pirimidone (125-33-7) → 1,5-Diethyl-3-methyl-5-phenyl-dihydro-pyrimidine-4,6-dione

Conditions	Yield
Multi-step reaction with 2 steps 1: 1.) Na / 1.) EtOH, reflux, 2.) reflux, 3-4 h 2: 86 percent / EtONa / acetone / Heating

pirimidone (125-33-7) → 2-ethyl-2-phenylmalonamide (7206-76-0)

Conditions	Yield
Multi-step reaction with 2 steps 1: 22 percent / CrO3 / acetic acid / 0.17 h / 20 °C 2: 68 percent / NaOH / H2O / 8 h / 20 °C

pirimidone (125-33-7) → 5-ethyl-5-(3-amino-phenyl)-dihydro-pyrimidine-4,6-dione (104396-69-2)

Conditions	Yield
Multi-step reaction with 2 steps 1: HNO3; H2SO4 2: platinum; acetic acid / Hydrogenation
Multi-step reaction with 2 steps 1: HNO3; H2SO4 2: platinum; acetic acid / 35304.4 Torr / Hydrogenation

pirimidone (125-33-7) → 3,3'-bis-(5-ethyl-4,6-dioxo-hexahydro-pyrimidin-5-yl)-azoxybenzene

Conditions	Yield
Multi-step reaction with 2 steps 1: HNO3; H2SO4 2: platinum; acetic acid / 35304.4 Torr / Hydrogenation

Upstream product

• 7206-76-0 2-ethyl-2-phenylmalonamide 
• 50-06-6 phenobarbital 
• 2753-74-4 5-ethyl-5-phenyl-2-thiobarbituric acid 
• 857411-80-4 5-ethyl-2-methoxy-5-phenyl-1H-pyrimidine-4,6-dione 
• 343339-89-9 S-methyl-2-thiophenobarbital 
• 117752-97-3 2-Ethoxy-5-ethyl-2-dihydro-5-phenyl-4,6(1H,5H)-pyrimidinedione 
• 60024-01-3 4-thiophenobarbital 
• 77287-34-4 formamide 
• 144-62-7 oxalic acid 
• 694447-38-6 5-ethyl-5-phenyl-1H-pyrimidine-4,6-dione 
• 64-18-6 formic acid 

Downstream Products

• 58061-80-6 5-ethyl-5-(3-nitro-phenyl)-dihydro-pyrimidine-4,6-dione 
• 107480-93-3 1,5-diethyl-5-phenyl-dihydro-pyrimidine-4,6-dione 
• 69243-48-7 5-ethyldihydro-1-methyl-5-phenyl-4,6(1H,5H)-pyrimidinedione 
• 104169-76-8 5-ethyl-1,3-dimethyl-5-phenyl-dihydro-pyrimidine-4,6-dione 
• 7206-76-0 2-ethyl-2-phenylmalonamide 
• 50-06-6 phenobarbital 
• 75524-08-2 2-hydroxyprimidone 
• 104396-69-2 5-ethyl-5-(3-amino-phenyl)-dihydro-pyrimidine-4,6-dione 

Related news

Primidone (cas 125-33-7) and Movement Disorders10/01/2019

Primidone is an anticonvulsant drug and is indicated for the treatment of seizures and essential tremor. The proposed anticonvulsant activity of primidone and its active metabolite, phenobarbital, is by enhancing inhibition via the GABAA receptor. The antitremor mechanism of primidone is not kno...detailed

The antiepileptic Primidone (cas 125-33-7) impairs male rat sexual behavior09/27/2019

Many antiepileptic drugs (AEDs) produce sexual impairments. Of commonly prescribed AEDs, primidone produces the greatest impairments. Here we examined the effects of primidone on male rat sexual behavior. Sexually-experienced male rats received administration of either vehicle or primidone. Afte...detailed

Radiation induced degradation of antiepileptic drug Primidone (cas 125-33-7) in aqueous solution09/26/2019

The present study was to determine the effectiveness of electron beam irradiation for degradation of the antiepileptic drug primidone (PMD) in aqueous solution. The results showed that PMD degradation followed pseudo-first-order kinetics. The dose constant determined in this study ranged from 1....detailed

Suivi thérapeutique pharmacologiqueSuivi thérapeutique pharmacologique de la Primidone (cas 125-33-7) et du phénobarbital09/25/2019

RésuméLa primidone est un antiépileptique mineur de première génération, très peu prescrit dans cette indication actuellement, mais qui, hors autorisation de mise sur le marché, reste un traitement de première ligne du tremblement essentiel. Bien qu’elle se métabolise en phényl-éthy...detailed

Primidone (cas 125-33-7) and Movement Disorders☆09/10/2019

Primidone with its two active metabolites, phenobarbital and phenylethylmalonic acid (PEMA), is an anticonvulsant drug that is indicated for the treatment of partial epilepsy. In addition to treatment of seizures, it is also indicated as the first line therapy for the management of essential tre...detailed

Assessing the contribution of hydroxylation species in the photochemical transformation of Primidone (cas 125-33-7) (pharmaceutical)09/09/2019

Pharmaceutical and personal care products (PPCPs) are a group of emerging contaminants that have frequently been detected in aqueous environments. Phototransformation driven by solar irradiation is one of the most important natural processes for the elimination of PPCPs. In this study, primidone...detailed

Graphene oxide/titania photocatalytic ozonation of Primidone (cas 125-33-7) in a visible LED photoreactor09/08/2019

A graphene oxide-titania (GO/TiO2) composite was synthesized via sol-gel method, and studied in aqueous Primidone mineralization with ozone and LED visible light. The photocatalyst was characterized by different techniques (XRD, TEM, SBET, TGA, UV–vis diffuse reflectance spectroscopy). The band...detailed

Relevant articles and documents

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Desulfurization of thioureas, benzimidazoline-2-thiones and 1,3-dihydro-1,3-diaryl-2-thioxopyrimidine-4,6(2H,5H)-diones with nickel boride at ambient temperature

Nickel boride is reported to bring about desulfurization and reductive cleavage of N,N′-diarylthioureas to give corresponding anilines andN-methylanilines while N,N′-dialkylthioureas have been observed to undergo desulfurization to give formamidines; benzimidazoline-2-thiones are reported to undergo desulfurization to benzimidazoles and 1,3-dihydro-1,3-diaryl-2-thioxopyrimidine-4,6(2H,5H)-diones have been observed to yield corresponding hexahydropyrimidine-4,6-diones in high yields in dry methanol at ambient temperature.

Synthesis of nitrogenous heterocycles under microwave activation

Microvawe activation accelerates heterocyclization of o-phenylenediamine with phenylacetic acid with benzyl cyanide tens times, simultaneously improving the yield and quality of the resulting 2-benzyl-imidazole. The effect of microwave activation on heterocyclization of ethyl(phenyl)malonic acid with formic acid or its amide is not so strong.