Harmful effect of kainic acid on brain ischemic damage is not related to duration of status epilepticus.

Status epilepticus is common in infants and may have long-term consequences on the brain persisting into adulthood. Vascular ischemia is a common cause of stroke in adulthood. The extent of stroke in 15-day-old rats is larger when previously exposed to kainic acid-induced status epilepticus. In this paper, we assess whether shortening the duration of seizures modifies subsequent susceptibility to middle cerebral artery occlusion. We administered pentobarbital 50 mg/kg to abort seizures after 1 h. Although administration of pentobarbital aborted seizures, it had no effect on volume of infarction following ischemia. This study indicates that there is dissociation between stopping status epilepticus and modifying its long-term consequences.

Effective treatments of prolonged status epilepticus in developing rats.

We determined the efficacy of diazepam (DZP) and pentobarbital (PTB) in controlling prolonged status epilepticus (SE) in developing rats. One-hour-long SE was induced with kainic acid (KA) or lithium pilocarpine (Li-Pilo) in Postnatal Day 9 (P9), 15 (P15) and 21 (P21) rats, which were then treated with varying doses of DZP (20-60 mg/kg) or PTB (20-60 mg/kg). At P9, neither drug stopped SE, and higher doses could not be used because of high mortality. At P15 and P21, DZP and PTB stopped both behavioral and electrographic SE in a dose-dependent fashion, with similar efficacy in the two seizure models. DZP stopped SE significantly faster than PTB. Administration of a low dose of PTB (20mg/kg) following an initially ineffective treatment with DZP 20mg/kg stopped SE in all rats. The data suggest that high doses of DZP and PTB are needed to stop prolonged SE in developing rats, but their effectiveness is age dependent.

Age-dependent consequences of status epilepticus: animal models.

Status epilepticus (SE) is a significant neurological emergency that occurs most commonly in children. Although SE has been associated with an elevated risk of brain injury, it is unclear from clinical studies in whom and under what circumstances brain injury will occur. The purpose of this review is to evaluate the effects of age on the consequences of SE. In this review, we focus mainly on the animal data that describe the consequences of a single episode of SE induced in the adult and immature rat brain. The experimental data suggest that the risk of developing SE-induced brain damage, subsequent epilepsy and cognitive deficits in large part depends on the age in which the SE occurs. Younger rats are more resistant to seizure-induced brain damage than older rats; however, when SE occurs in immature rats with abnormal brains, there is an increase in the severity of seizure-induced brain injury. Better understanding of the pathophysiologic mechanisms underlying the age-specific alterations to the brain induced by SE will lead to the development of novel and effective strategies to improve the deleterious consequences.

Effects of status epilepticus early in life on susceptibility to ischemic injury in adulthood.

PURPOSE: Status epilepticus (SE) commonly occurs in children, whereas ischemic stroke is the most frequent neurologic insult in adults. The purpose of this study was to determine the effect of SE induced in immature (15 days old; PN15) male rats, on susceptibility to subsequent transient focal cerebral ischemia induced in adulthood. METHODS: SE was induced by flurothyl ether (FE) or kainic acid (KA). Rats that did not develop seizures after FE or KA served as controls. Five weeks later, the now-adult rats were subjected to middle cerebral artery occlusion (MCAo) for 1 or 2 h by using the intraluminal filament technique. The extent of the infarct volume was evaluated 24 h later. RESULTS: In rats submitted to 1-h-long FE-SE, the volume of infarction was significantly reduced compared with that in rats exposed to FE without SE. Longer duration of FE-SE was acutely lethal. KA-SE induced prolonged behavioral SE (156 +/- 17.5 min). In these rats, the volume of infarction was significantly larger compared with that in rats that did not show any electrographic seizures after KA administration. Comparison of FE and KA groups revealed that differences in the size of infarction were confined into cortical areas served by the MCA. Neither type of SE induced any obvious histologic changes in these neocortical regions before stroke induction. CONCLUSIONS: Early in life, SE can influence the outcome of a subsequent focal ischemic insult in adulthood. The extent of the infarct is related to the duration and cause of SE. Prolonged SE induced by KA worsens the outcome, whereas FE-SE has a neuroprotective effect.