77-41-8 Usage
Description
Methsuximide is a succinimide that is converted to N-desmethylmethosuximide, a channel blocker that targets low threshold calcium currents. Methsuximide is a substrate of cytochrome P450 (CYP) isoform 2C19 that, in turn, inhibits CYP2C19-mediated metabolism of biguanides. Methsuximide has been shown to have anticonvulsant properties in clinical trials.
Chemical Properties
Light Yellow Oil
Originator
Celontin,Parke Davis,US,1957
Uses
A calcium channel succinimide antiepileptic drug. Anticonvulsant.
Manufacturing Process
100 g of α-phenyl-α-methylsuccinic acid and 110 g of 40% aqueous methyl amine are heated together at 200 to 250°C until no more distillate is obtained. Upon vacuum distillation of the residue, the N-methyl-α-phenyl-αmethylsuccinimide, of BP 121° to 122°C at 0.1 mm is obtained. After recrystallization from aqueous ethanol, this compound melts at 52° to 53°C.
Brand name
Celontin (Parke-Davis).
Therapeutic Function
Anticonvulsant
Clinical Use
Although methsuximide is less commonly used, it may be indicated for the control of absence seizures refractory to other drugs.
Although it does not precipitate tonic-clonic convulsions, it often is combined with phenytoin or phenobarbital when absence
seizures coexist with tonic-clonic symptoms. Much of the efficacy of methsuximide is attributed to its desmethyl metabolite. The
half-life of methsuximide is between 2.6 and 4.0 hours, but the half-life for N-desmethylsuximide is 25 hours, causing it to
accumulate substantially. Concentrations of greater than 40 g/mL may be associated with toxicity. Methsuximide is considered
to be more toxic than ethosuximide.
references
[1] nicholls, p. j., and orton, t.c. the physiological disposition of 14c-methsuximide in the rat. br.j.pharmacol. 45(1), 48-59 (1972).[2] chen g, weston j k, bratton a c. anticonvulsant activity and toxicity of phensuximide, methsuximide and ethosuximide[j]. epilepsia, 1963, 4(1‐4): 66-76.[3] sigler m, strassburg h m, boenigk h e. effective and safe but forgotten: methsuximide in intractable epilepsies in childhood[j]. seizure, 2001, 10(2): 120-124.[4] wright j d, helsby n a, ward s a. the role of s‐mephenytoin hydroxylase (cyp2c19) in the metabolism of the antimalarial biguanides[j]. british journal of clinical pharmacology, 1995, 39(4): 441-444.[5] guengerich f p. human cytochrome p450 enzymes[m]//cytochrome p450. springer us, 1995: 473-535.
Check Digit Verification of cas no
The CAS Registry Mumber 77-41-8 includes 5 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 2 digits, 7 and 7 respectively; the second part has 2 digits, 4 and 1 respectively.
Calculate Digit Verification of CAS Registry Number 77-41:
(4*7)+(3*7)+(2*4)+(1*1)=58
58 % 10 = 8
So 77-41-8 is a valid CAS Registry Number.
InChI:InChI=1/C13H10O6/c1-19-13(18)7-4-6-2-3-8(14)11(16)10(6)12(17)9(15)5-7/h2-5,14,16H,1H3,(H,15,17)
77-41-8Relevant articles and documents
Cu-catalyzed oxygenation of alkene-tethered amides with O2: Via unactivated CC bond cleavage: A direct approach to cyclic imides
Li, Junhua,Wei, Jialiang,Zhu, Bencong,Wang, Teng,Jiao, Ning
, p. 9099 - 9103 (2019/10/22)
The transformations of unactivated alkenes through CC bond double cleavage are always attractive but very challenging. We report herein a chemoselective approach to valuable cyclic imides by a novel Cu-catalyzed geminal amino-oxygenation of unactivated CC bonds. O2 was successfully employed as the oxidant as well as the O-source and was incorporated into alkenyl amides via CC bond cleavage for the efficient preparation of succinimide or glutarimide derivatives. Moreover, the present strategy under simple conditions can be used in the late-stage modification of biologically active compounds and the synthesis of pharmaceuticals, which demonstrated the potential application.