Pharmacokinetics seizures caused

PG, similar to glycerin, is a multifunctional excipient that can be an effective preservative when used at concentrations of 15% to 30% in oral solutions. However, formulations containing 35% PG can cause hemolysis in humans. PG exhibits nonlinear pharmacokinetics and when elimination pathways are saturated, serum levels dramatically increase. Pyruvic and lactic acid are produced from the metabolic degradation of PG and can lead to acidosis. Neonates have a longer PG half-life (16.9 hours) compared with adults (5 hours) and seizures, and respiratory depression has occurred in children who have ingested oral liquid medications containing PG (9). Therefore, special consideration should be placed on the amount of PG in formulations that are intended for infants and children. 

Chloroquine can cause seizures in patients with epilepsy. The mechanism is uncertain, but it may include reductions in inhibitory neurotransmitters and pharmacokinetic interactions that alter anticonvulsant concentrations. Tonic-clonic convulsions were reported in four patients in whom chloroquine was part of a prophylactic regimen. Antiepileptic treatment was required to control the seizures. None had further seizures after withdrawal of the antimalarial drugs (9). 

Co-administration of fenbufen and fluoroquinolones has been associated with seizures (141). The structure at the 7-position greatly affects the risk of NSAID-potentiated nervous system effects. Fluoroquinolones with unsubstituted piperazinyl rings (ciprofloxacin, enox-acin, and norfloxacin) have a strong interaction with NSAIDs (142). The increased risk of seizures is not caused by increased serum concentrations of fluoroquinolones, since their pharmacokinetics are not altered by NSAIDs (143). The mechanism has been suggested to be facilitation by fenbufen of the fluoroquinolone-induced inhibition of GABAa receptor function in the hippocampus and frontal cortex (144). 

The incidence of phenytoin toxicity may be increased in the eideriy, or in those patients with hepatic or renal impairment, because of alterations in its pharmacokinetics. Plasma level determinations may be indicated in these cases. Although a role for P-glycoprotein transporter alleles in the development of phenytoin toxicity remains controversial, phenytoin is a robust substrate for the non-ABC efflux transporter RLIP76. Because RLIP76 has been found to be overexpressed in excised human epileptic foci, its action may account for treatment failures conversely, inhibition of transport may cause toxicity (34). There is a 2 to 3% increase in the risk of fetal epilepsy syndrome if the mother is taking phenytoin. Phenytoin is contraindicated in cardiac patients with bradyarrhythmias. Induction of CYP2C19 by ginkgo biloba may increase phenytoin clearance and precipitate serious seizures (35). 

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