Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0038220 (status epilepticus)
7,272 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Status epilepticus (SE) evolves through several stages when untreated. The later stages of SE are less responsive to standard anticonvulsants and may require general anesthesia to suppress seizures. Antagonists acting at the N-methyl-D-aspartate (NMDA) subclass of glutamate (excitatory) receptors have been demonstrated to exert antiepileptic activity in some seizure models. We report experiments performed to determine if NMDA receptor antagonists are effective in stopping seizures in the late stages of SE. A model of limbic SE induced by 90 min of 'continuous' electrical stimulation of the hippocampus in rats was employed. Three NMDA receptor antagonists, one 'competitive' (CPP) and two 'non-competitive' (ketamine and MK-801), were compared to 3 standard antiepileptic drugs (diazepam, phenobarbital, and phenytoin) for their ability to suppress seizures at a physiologically defined stage of SE. All NMDA receptor antagonists, diazepam and phenobarbital were effective in suppressing behavioral and electrographic seizures for varying periods of time. Phenytoin had no effect on SE. Ketamine and MK-801 induced a paradoxical enhancement of electrographic seizures that preceded SE suppression. We believe that NMDA-receptor antagonists offer a novel approach for treating the late stages of SE.
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PMID:NMDA receptor antagonists and limbic status epilepticus: a comparison with standard anticonvulsants. 216 58

We investigated the neuroprotective effect of the noncompetitive N-methyl-D-asparatate (NMDA) antagonist ketamine when administered after onset of lithium-pilocarpine-induced status epilepticus (SE). Seizures were induced in Wistar rats with lithium chloride (3 mEq/kg) and pilocarpine (PC) (30-60 mg/kg intraperitoneally, i.p.). Fifteen minutes after SE onset, either ketamine 100 mg/kg or normal saline was injected i.p., and 3 h after SE onset atropine, diazepam (DZP), and phenobarbital (PB) were administered i.p. to terminate the seizures. Twenty-four hours later, rats underwent brain perfusion-fixation, with subsequent brain processing for light-microscopic examination. Rats adminstered saline (n = 5) had neuronal damage in 24 of 25 brain regions examined. Rats administered ketamine (n = 7) had significant neuroprotection in 22 of 24 damaged regions. Ketamine reduced the amplitude of seizure discharges, and in 3 rats EEG seizure activity ceased in 30 min; none of these rats had neuronal damage. In the other 4 rats, EEG seizure discharges persisted > 90 min; in these animals, 21 of 24 damaged regions were protected. In contrast, rats with 1-h high-dose PC-induced SE (400 mg/kg i.p. without lithium chloride preadministration) had 14 damaged regions, of which 7 were significantly different from the undamaged regions of the ketamine subgroup with persistent electrographic seizures. Thus, ketamine is remarkably neuroprotective when administered after onset of SE, whether or not seizure discharges are eliminated.
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PMID:Neuroprotective effect of ketamine administered after status epilepticus onset. 782 Dec 77

Animal experimentation has revealed that ketamine has anticonvulsive properties. Changes in the EEG have also been reported in animals; these have been designated non-convulsive generalized electrographic seizures because of their similarities to epileptiform potentials, even though there are no recognizable signs of seizures. The cataleptic condition of the cats in which these changes were observed led to the conclusion that ketamine could cause petit mal seizures, which took the course of petit mal status. Ketamine was therefore also seen as a dangerous anaesthetic agent predisposing to convulsions, the use of which could lead to status epilepticus and irreversible brain damage. These conflicts of opinion should be resolved, as they are based on various misconceptions. (1) The terminology used for epilepsy by specialized clinicians is not always correctly applied in the context of animal experimentation. (2) The activation of epileptiform potentials in the EEG of animals cannot be interpreted as a reliable sign of epileptogenic efficiency in humans. (3) Too little regard is paid to the different actions of anaesthetic agents in various sites of the brain, at different doses and with different routes of administration. (4) The statistical significance and biological relevance of the study results are inadequate because the numbers of observations are too small. Epileptologists regret the insufficiency of animal models as paradigma for the study of efficiency of antiepileptic drugs in humans. The degree by which extensor spasms in the front paw of Gerbils of rats induced by pentylentetrazol or electric current are reduced after application of an anticonvulsive drug is no reliable measure of its anticonvulsive effect in humans.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Ketamine--anticonvulsive and proconvulsive actions]. 784 Apr 10

Disorders of neuronal migration in humans are associated with intractable epilepsy and some evidence suggests a causal relationship. This study evaluated electroencephalograms (EEG) of rats with experimentally induced disorders of neuronal migration. Fetal Sprague-Dawley rats were exposed to 196 cGy external irradiation on days 16 and 17 of gestation. This produced adult offspring with diffuse cortical dysplasias, agenesis of the corpus callosum, periventricular heterotopias, and dispersion of the pyramidal cell layer of the hippocampus. Epidural electrodes were implanted in four experimental (irradiated on gestational day 17) and four control rats. EEGs were recorded without anesthesia and in the presence of the anesthetic agents ketamine, acepromazine, and xylazine. In the presence of acepromazine, xylazine, or a combination of the two drugs, two of the four experimental rats had prolonged ictal activity on EEG. In one of the rats the ictal activity progressed to electrographic status epilepticus. Ketamine alone did not produce ictal EEG activity. None of the control rats demonstrated ictal activity under any treatment condition. This study demonstrates that disorders of neuronal migration are associated with an increased propensity for seizures in the presence of certain sedating agents.
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PMID:Experimentally induced disorders of neuronal migration produce an increased propensity for electrographic seizures in rats. 853 74

Pain and its treatment are known to have adverse effects on the organism, including deterioration in myocardial, diaphragmatic, and small bowel function. The provision of adequate intravenous analgesia, and the choice of agent, can ameliorate or exacerbate these manifestations of the stress response. The choice of agent, opioid or non-opioid, has in some respects become more difficult as more information has become available regarding the merits and adverse effects of each. Increased awareness of the frequency of hypoxemia secondary to the opioids' ability to cause an obstructive sleep apnea picture, and the cost efficiency of ketorolac through a reduction in opioid toxicity, contrast with recent studies which suggest that the gastrotoxic and nephrotoxic effects of ketorolac may occur earlier than previously suspected. The suitability of using the dissociative anesthetic agent ketamine in critically ill patients remains to be proven. Ketamine provides intense analgesia at subanesthetic doses. Its centrally mediated sympathomimetic action encourages hemodynamic stability, and it is relatively devoid of respiratory depressant activity. Increasing experience with ketamine outside the operating room has resulted in its successful use in cases of severe bronchospasm and status epilepticus.
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PMID:Intravenous analgesia. 992 88

New treatments are needed to control prolonged status epilepticus given the high failure rate of current therapies. In an animal model of status epilepticus based on electrical stimulation of the hippocampus, rats demonstrate at least 5 five-hours of seizure activity following stimulation. Phenobarbital (70 mg/kg) administered 15 min after stimulation effectively controlled seizures in 66% of animals (n=6). When phenobarbital (70 mg/kg) was administered 60 min after stimulation, seizures were controlled in 25% of animals (n=4). Ketamine (100 mg/kg) administered 15 min after stimulation did not control seizures in any animal (n=4). But when ketamine was administered one hour after stimulation it effectively controlled seizures in all animals (n=4). Increasing doses of ketamine were administered 60 min after stimulation to generate a dose-response curve. The ketamine dose response (fraction of seizure free rats) data were fit to a sigmoid curve to derive an ED(50) of 58 mg/kg. These findings suggest that prolonged status epilepticus becomes refractory to phenobarbital but can be effectively controlled by ketamine. For patients experiencing prolonged status epilepticus that is refractory to phenobarbital, ketamine may be an alternative to general anesthesia.
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PMID:Ketamine controls prolonged status epilepticus. 1107 84

Within 30 min after the initiation of status epilepticus (SE) by lithium and pilocarpine, rats were injected with either acepromazine or ketamine. Compared to the rats that had received the acepromazine, the group that had received the ketamine displayed more accurate spatial memory. Their scores did not differ significantly from normal (non-seized) controls. Although the ketamine treatment did not significantly change the amount of neuronal loss within about 100 Paxinos and Watson structures, it was neuroprotective for several structures within the thalamus and portions of the temporal and parietal cortices. Ketamine-treated rats, however, displayed markedly more damage within the entorhinal cortices and amygdalohippocampal area.
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PMID:Normal spatial memory following postseizure treatment with ketamine: selective damage attenuates memory deficits in brain-damaged rodents. 1132 82

Sedatives continue to be used on a routine basis in critically ill patients. Although many agents are available and some approach an ideal, none are perfect. Patients require continuous reassessment of their pain and need for sedation. Pathophysiologic abnormalities that cause agitation, confusion, or delirium must be identified and treated before unilateral administration of potent sedative agents that may mask potentially lethal insufficiencies. The routine use of standardized and validated sedation scales and monitors is needed. It is hoped that reliable objective monitors of patients' level of consciousness and comfort will be forthcoming. Each sedative agent discussed in this article seems to have a place in the ICU pharmacologic armamentarium to ensure the safe and comfortable delivery of care. Etomidate is an attractive agent for short-term use to provide the rapid onset and offset of sedation in critically ill patients who are at risk for hemodynamic instability but seem to need sedation or anesthesia to perform a procedure or manipulate the airway. Ketamine administered through intramuscular injection or intravenous infusion provides quick, intense analgesia and anesthesia and allows patients to tolerate limited but painful procedures. The risk/benefit ratio associated with the use of this neuroleptic agent must be weighed carefully. Ketamine is contraindicated in patients who lack normal intracranial compliance or who have significant myocardial ischemia. Barbiturates are reserved mainly to induce coma in patients at risk for severe CNS ischemia, which frequently is associated with refractory intracranial hypertension, or in patients with status epilepticus. When administered in high doses, these drugs have prolonged sedative and depressant effects. Judicious hemodynamic monitoring is required when barbiturate coma is induced. Haloperidol is indicated in the treatment of delirium. Patients should be monitored for extrapyramidal side effects and, when they require higher doses, for potential electrocardiographic prolongation of the QT interval. Dexmedetomidine may evolve into an agent with qualities comparable with midazolam and propofol, and it may even become a drug of choice in select patients. Further study is required, however. Propofol has many of the qualities of an ideal sedative agent. Benzodiazepines and narcotics often are used in concert with propofol to provide reliable amnesia and to relieve pain, respectively. Propofol frequently causes hypotension when administered as a bolus or infusion, particularly in patients with limited cardiac reserve or hypovolemia. More data must be obtained to identify potential deleterious effects of hypertriglyceridemia, and further evaluation of the potential benefits in certain patient populations, such as neurosurgical patients, is needed.
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PMID:Use of propofol and other nonbenzodiazepine sedatives in the intensive care unit. 1176 65

The effect of Cavalheiro's pilocarpine model of epileptogenesis upon conditioned taste aversion (CTA), an important example of nondeclarative memory, was studied in adult Long Evans rats. Deterioration of CTA was studied during the silent period between pilocarpine-induced status epilepticus (SE) and delayed spontaneous recurrent seizures. SE was elicited by i.p. injection of pilocarpine (320 mg/kg ) and interrupted after 2 hours by clonazepame (1 mg/kg i.p.). Peripheral cholinergic symptoms were suppressed by methylscopolamine (1 mg/kg i.p.), administered together with pilocarpine. CTA was formed against the salty taste of isotonic LiCl. In the experiment of CTA acquisition, the CTA was formed and tested during the silent period after SE. In the experiment of CTA retrieval, the CTA was acquired before SE and the retrieval itself was tested during the silent period. Retrieval of CTA acquired before SE was impaired more than the retrieval of CTA formed during the silent period. Our findings indicate that epileptic seizures can disrupt even non-declarative memory but that CTA formed by the damaged brain can use its better preserved parts for memory trace formation. Ketamine (50 mg/kg i.p.) applied 2 min after the onset of pilocarpine-induced status epilepticus protected memory deterioration.
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PMID:Acquisition and retrieval of conditioned taste aversion is impaired by brain damage caused by two hours of pilocarpine-induced status epilepticus. 1182 23

A 44-year-old man with treated neurosyphilis presented with subclinical status epilepticus (SE) refractory to intravenous high-dose lorazepam, phenytoin, and valproic acid over 4 days. Ketamine infusion was instituted after low-dose propofol sedation with gradual control of electrographic seizures over 72h. Reevaluation 3 months later revealed diffuse cerebellar and worsened cerebral atrophy, consistent with animal models of N-methyl-D-aspartate antagonist-mediated neurotoxicity. Animal studies of prolonged ketamine therapy are required before widespread human use in SE.
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PMID:Ketamine for refractory status epilepticus: a case of possible ketamine-induced neurotoxicity. 1260 30


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