Anticonvulsants interaction

Gardner, CR and Webster, RA (1977) Convulsant-anticonvulsant interactions on seizure activity and cortical acetylcholine release. Eur. J. Pharmacol. 42 247-256. 

Szefler SJ, EUis EF, Brenner M, Rose JQ, Spector SL, Yurchak A, Andrews F, Jusko WJ. Steroid-specific and anticonvulsant interaction aspects of triacety loleandomycin-steroid therapy. J Allergy Clin Immunol (1982) 69, 455-60. 

Benzodiazepines. Several BZs have anticonvulsant activity and ate used for the treatment of epilepsy producing their anticonvulsant actions via interactions with the GABA /BZ receptor complex to enhance inhibitory GABAergic transmission (1). The anticonvulsant actions of the BZs tend to tolerate upon chronic usage in six months, and BZs also lead to withdrawal symptomatology. Other side effects include sedation, ataxia, and cognitive impairment. 

Discuss the general drug actions, uses, adverse reactions, contraindications, precautions, and interactions of anticonvulsants. 

The interaction of ketamine with each of the three anticonvulsant compounds was also tested. Ketamine, 15 mg/kg, a dose showing no anti-PTZ effect and causing no overt behavioral changes, potentiated the effect of phenobarbital (20 mg/kg) in delaying the clonic and tonic convulsive responses and lethality (figure 3). Ketamine also potentiated the ability of phenytoin (20 mg/kg) to delay... 

The results demonstrate anticonvulsant properties of PCP and ketamine in two quite different seizure models. On the one hand, ketamine was effective in antagonizing several components of PTZ activity. Others have previously reported anti-PTZ effects of ketamine. However, the present results demonstrate that the anticonvulsant effects of ketamine against PTZ seizures closely resembled the effects of phenobarbital in that both compounds delayed clonic convulsions and prevented tonic extension. Moreover, a low dose of ketamine, which alone showed no anticonvulsant effect or overt behavioral changes, potentiated the anti-PTZ effects of phenobarbita 1. These findings suggest that ketamine possesses selective anticonvulsant properties. The anticonvulsant mechanism of action for phenobarbital is not known. However, the similarities between ketamine and phenobarbital, and the interaction between the two compounds, suggest a common mechanism or site of acti on. 

I with seizures and require anticonvulsant therapy. Phenytoin is the most frequently used agent, with a loading dose of 15 mg/kg followed by 300 mg by mouth daily (titrated to therapeutic levels between 10 and 20 mcg/mL). Diazepam 5 mg intravenously may be used for rapid control of persistent seizures. Prophylactic anticonvulsants have been used frequently, but a recent meta-analysis did not support their use.23 Thus, because adverse effects and drug interactions are common, the routine use of prophylactic anticonvulsants is not recommended. 

Cannabinoids appear to have a very complex interaction with seizure activity, exerting both anticonvulsant and proconvulsant effects. Anecdotal testimonies abound (Grinspoon and Bakalar, 1993), but there has been very little controlled human research. In single-case studies both use and withdrawal of marijuana have been linked to the resumption of seizures (Keeler and Reifler, 1967 Consroe et al., 1975). In a randomised placebo-controlled blind study, patients who responded poorly to standard treatments experienced improved seizure control in response to cannabidiol administration. Cannabidiol does not interact with cannabinoid receptors, and animal studies indicate that it has different anticonvulsant effects to other cannabinoids (Cunha et al., 1980). As such it may prove to have useful therapeutic properties. 

From the examination of structure-activity relationships, it has been concluded that a phenyl moiety at C-6 as well as a 4-hydroxypiperidine side-chain attached to C-3 of the pyridazine system is essential for anticonvulsant activity in this class of compounds [184], Compounds (54) and (55) have been found to have similar anticonvulsant profiles in animals (mice, rats and baboons) [165, and literature cited therein] and to represent potent broad-spectrum antiepileptic drugs. Their potency with regard to antagonizing seizures (induced by electro-shock or various chemicals) has been compared with standard anticonvulsants like carbamazepine and phenobarbitone [185, 186], A quantitative electroencephalographic analysis of (55) has been published [187]. From in vitro studies it has been concluded that the anticonvulsant activities of these compounds are not mediated by an enhancement of GABAergic transmission or by an interaction with benzodiazepine receptor sites [ 165,186,187], On the other hand, in vivo experiments showed that (54), at anticonvulsant doses, increases the affinity of flunitrazepam for its central receptor site [ 186], Investigations of (54) and (55) in a behavioural test predictive of antianxiety activity revealed a marked difference in the pharmacological profiles of these structurally closely related compounds the dichloro compound SR 41378 (55) has also been found to possess anxiolytic (anticonflict) properties [165],... 

Changes in the activity of adenosine receptors have been implicated in the stimulant effects of drugs like caffeine. Carbamazepine exhibits a partial agonist effect on adenosine receptors, and experimental evidence suggests that the reduced reuptake and release of noradrenaline caused by the drug are due to its interaction with these receptors. The precise relevance of these findings to its anticonvulsant and psychotropic effects is presently unclear. 

Carbamazepine, phenytoin, pheno-barbital, and other anticonvulsants (except for gabapentin) induce hepatic enzymes responsible for drug biotransformation. Combinations between anticonvulsants or with other drugs may result in clinically important interactions (plasma level monitoring ). 

The following drug classes may have a potential drug interaction with nevirapine Antiarrhythmics, anticonvulsants, antifungals, calcium channel blockers, cancer chemotherapy (cyclophosphamide), ergot alkaloids, immunosuppressants, motility agents, opiate agonists. 

Diazepam (Valium, Diastat) [C-IVj [Anxiolytic, Skeletal Muscle Relaxant, Anticonvulsant, Sedative/Hypnotic/ Benzodiazepine] Uses Anxiety, EtOH withdrawal, muscle spasm, status epilepticus, panic disorders, amnesia, preprocedure sedation Action Benzodiazepine Dose Adults. Status epilepticus 5-10 mg IV/IM Anxiety 2-5 mg IM/IV Preprocedure 5-10 mg IV just prior to procedure Peds. Status epilepticus 0.5-2 mg IV/IM Sedation 0.2-0.5 mg/kg IV (onset w/in 5IV and 30 min IM duration about 1 h IV and IM) Caution [D, / -] Contra Coma, CNS depression, resp d es-sion, NAG, severe uncontrolled pain, PRG Disp Tabs 2, 5, 10 mg soln 1, 5 mg/mL inj 5 mg/mL rectal gel 2.5, 5, 10, 20 mg/mL SE Sedation, amnesia, bradycardia, i BP, rash, X resp rate Interactions T Effects W/ antihistamines, azole antifungals, BBs, CNS depressants, cimetidine, ciprofloxin, disulfiram, INH, OCP, omeprazole, phenytoin, valproic acid, verapamil, EtOH, kava kava, valman T effects OF digoxin, diuretics X effects w/ barbiturates, carbamazepine. 

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