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)

Topiramate, an antiepileptic drug with a number of mechanisms of action including inhibition of glutamate activity at the AMPA and KA receptors, was assessed as a neuroprotective agent following seizures. We administered topiramate, 80 mg/kg, or saline for 4 weeks following a series of 25 neonatal seizures or status epilepticus (SE) induced by lithium-pilocarpine in postnatal day 20 rats. Age-matched control rats without a history of seizures were administered topiramate or saline. Following completion of the topiramate injections, animals were tested in the water maze for spatial learning and the brains examined for cell loss and sprouting of mossy fibers. While there was a trend for improved visual-spatial performance in the water maze following topiramate therapy in rats with neonatal seizures, no differences were found in the histological examination of the hippocampus. Neonatal rats exposed to 4 weeks of topiramate did not differ from non-treated controls in water maze performance or histological examination. In weanling rats subjected to SE, topiramate provided a moderate degree of neuroprotection, with topiramate-treated rats performing better in the water maze than rats receiving saline. However, no differences in cell loss or mossy fiber sprouting were found in the histological examination of the brains. These findings demonstrate that chronic treatment with topiramate following SE improves cognitive function. In addition, long-term administration of high-dose topiramate in the normal developing rat brain does not appear to impair cognitive performance.
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PMID:Effect of topiramate following recurrent and prolonged seizures during early development. 1239 72

Symptomatic temporal lobe epilepsy typically develops in three phases: brain damage --> epileptogenesis --> spontaneous seizures (epilepsy). The challenge is to prevent epileptogenesis after injury. We hypothesized that alleviation of damage by caspase inhibitors will reduce epileptogenesis or at least have disease-modifying effects (less severe epilepsy, milder cognitive decline). Epileptogenesis was triggered by amygdala stimulation-induced status epilepticus (SE) in rats and spontaneous seizures were monitored with video-electroencephalography (EEG). First, we tested the neuroprotective effect of a 1-week treatment with caspase 1, 3 or 9 inhibitors (3 micro g/d/i.c.v., started 3 h after the beginning of SE). The least damage to the hippocampus was observed in animals treated with the caspase 3 inhibitor (z-DEVD-fmk) which reduced the enzyme activity to 6% of that in the vehicle group. Thus, z-DEVD-fmk was chosen for long-term studies, in which the treatment regime remained the same except the dose was doubled (6 micro g/d/i.c.v.). Video-EEG monitoring was performed for 3 to 4 weeks, starting either 8 or 14 weeks after SE. One group of animals was tested in water-maze and fear-conditioning tests, and all animals were perfused for histological analysis. Treatment with the caspase 3 inhibitor neither prevented the development of epilepsy, nor had any disease-modifying effects. Mossy fibre sprouting, however, was reduced. The present data indicate that administration of z-DEVD-fmk monotherapy was not antiepileptogenic despite its short-term neuroprotective effects. These findings challenge the idea that prevention of cell death is the primary target for the development of antiepileptogenic compounds.
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PMID:Administration of caspase 3 inhibitor during and after status epilepticus in rat: effect on neuronal damage and epileptogenesis. 1276

A common policy in research institutions is to kill rats when they display chronic disabilities or recurrent injuries. These guidelines appear to be derived from an oxymoron that "it's better for a rat to be killed so it does not suffer pain" and from untested assumptions that rats cannot control "pain." In a two-bottle paradigm, 10 rats with a history of brain damage following status epilepticus from a single systemic injection of lithium and pilocarpine were given options to consume freely either tap water or 1 mg/cc of acetaminophen in tap water. During periods of fresh lesions due to persistent gnawing or acute injuries associated with tonic-clonic convulsions, the rats consumed 3 to 10 times the fluid from the bottles containing acetaminophen (equivalent to 5 to 10 extra-strength Tylenol tablets per day for a 70-kg person) relative to periods when no lesions or old lesions were present. These results suggest that rats with chronic injuries sufficient to be terminated according to Animal Care guidelines may be capable of reducing the aversive physiological conditions associated with tissue damage by selecting analgesic treatments.
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PMID:Rats' preferences for an analgesic compared to water: an alternative to "killing the rat so it does not suffer". 1291 23

Status epilepticus (SE) is associated with a significant risk of cognitive impairment. While many factors likely determine cognitive outcome following SE, there is evidence that cognitive ability prior to a neurological insult may be an important determinant of outcome. Patients with greater cognitive abilities or so-called cognitive reserve may be less vulnerable to injury than patients with limited cognitive ability. Here we tested the hypothesis that cognitive abilities prior to SE would be predictive of cognitive outcome. Immature rats were tested in the water maze, a test of visual-spatial memory, and divided into fast and slow learners. Animals were then subjected to SE and retested in the water maze 23 days later. Control rats were tested in the same manner but not subjected to SE. SE resulted in marked impairment in water maze performance. However, no statistical difference was noted in performance between slow and fast learners in either the SE or control group. Likewise, no differences were seen in the histopathology of the slow and fast learners. This study demonstrates that SE adversely effects visual-spatial memory equally in both fast and slow learners and does not support the theory that cerebral reserve plays a major role in cognitive function following a cerebral insult.
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PMID:The influence of cognitive reserve on seizure-induced injury. 1289 66

Postictal cognitive impairment following seizures can last from minutes to days and be disabling to the patient. The purpose of this study was to compare the behavioral features of seizures with postictal memory impairment in young seizure-naive rats and rats with a prior history of status epilepticus (SE) and examine the relationship between postictal EEG changes and cognitive recovery. Following training in the water maze to asymptote levels of learning, rats with a prior history of SE and seizure-naive rats had flurothyl-induced generalized seizures and time to recovery to baseline was then measured. Following generalized seizures rats had impaired performance in the water maze with the duration of the cognitive deficits exceeding the length of the seizure. There was not a close relationship between duration of cognitive impairment and either latency to onset of seizure or duration. The animal's neurological status was a factor in the duration of cognitive impairment following seizures; while there were no differences between SE and seizure-naive rats in latency to seizure onset or duration of the seizures, animals with a prior history of SE had a longer period of impairment following a seizure than animals without such a history. Postictal cognitive impairment was associated with changes in theta activity in animals with a prior history of SEs but not in seizure-naive animals. Caffeine, when administered following the seizure, reduced postictal cognitive impairment in a dose-dependent manner. This study demonstrates that duration of postictal cognitive impairment is not directly related to duration of the seizure. The neurological status of the animal is a determining factor in duration of postictal impairment.
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PMID:Effect of the postictal state on visual-spatial memory in immature rats. 1297 71

Fever after acute brain injury affects neuronal function and recovery. Standard therapies have proven to be inadequate in treating hyperthermia in this patient population. We report on safety/efficacy pilot data collected using a noninvasive, novel, water-circulating cooling device in febrile acute brain injury patients. We enrolled patients who developed fever (rectal temperature > or =38.0 degrees C) refractory to pharmacological therapy. The treatment device uses an ice water circulating system embedded in hydrogel-coated, energy transfer pads. Its thermoregulatory feedback control uses cold water (4.0 degrees C-42.0 degrees C) and was set at 36.5 degrees C for this study. We analyzed the temperature response during 600 consecutive minutes of treatment. Six consecutive patients were enrolled and seven episodes of fever were recorded; the mean age of the patients was 59.7 years (range 46-71 years; five male, one female). Diagnoses were as follows: subarachnoid hemorrhage (two), severe traumatic brain injury (two), status epilepticus following massive cerebral infarction (one), and intracerebral/intraventricular hemorrhage (one). Hand warming was applied at treatment onset on all patients; shivering only responsive to meperidine occurred in five of them. Fever of 38.4 degrees C (range 38.0 degrees C-38.9 degrees C) was reduced to 36.9 degrees C (range 36.0 degrees C-38.0 degrees C) after 120 minutes (P<0.001). Core temperature remained "locked" during the remainder of the treatment (36.6 degrees C, P=0.5; 36.6 degrees C, P=0.9; and 36.5 degrees C, P=0.9 at 180, 300, and 600 minutes, respectively). Skin integrity under the pads was preserved in all study subjects. Our results indicate that use of this novel technique is safe, rapidly effective, and able to maintain sustained normothermia following fever in a cohort of critically ill neurologic/neurosurgical patients.
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PMID:Treatment of refractory fever in the neurosciences critical care unit using a novel, water-circulating cooling device. A single-center pilot experience. 1450 72

Malnutrition and/or seizure in the developing brain cause hippocampal damages. However, underlying mechanisms remain unclear. The malnutrition group (MN) subjected with malnutrition alone was culled to 20-22 rats per dam on postnatal day 1 (P1). The rats subjected to lithium-pilocarpine (Li/PC)-induced status epilepticus at P21 were grouped as the SE group. The rats subjected to malnutrition and subsequent status epilepticus were grouped as the MS group. Visual-spatial memory test using the Morris water maze task was performed at P80. Following behavioral tests, the hippocampus was evaluated for histological lesions and phosphorylated cAMP-responsive, element-binding protein at serine-133 (pCREB(Ser-133)), an important transcription factor underlying learning and memory in the mammalian brain. Here, the MN group exhibited decreased body weight at P21. There was no significant difference in the seizure duration and mortality between the SE and MS groups. In adulthood (P80), both the SE and MS groups showed the spatial learning deficit, hippocampal cell loss and decreased pCREB(Ser133) level within hippocampal CA1 region. Although the MN group demonstrated a decreased level of pCREB(Ser133), no distinguishable changes in the cognitive deficit and hippocampal neuronal loss were detected. Collectively, the present results suggest that early-life malnutrition led to a reduced phosphorylation of CREB(Ser133) in hippocampal CA1 in the absence of the long-term spatial learning deficit. This decreased phosphorylation of CREB(Ser133) could suggest that cascades of signal transduction responsible for the phosphorylation of CREB(Ser133) might be disturbed by early-life malnutrition. In addition, malnutrition caused no discernible synergistic effects on Li/PC-induced status epilepticus.
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PMID:Long-term effects of early-life malnutrition and status epilepticus: assessment by spatial navigation and CREB(Serine-133) phosphorylation. 1460 61

Status epilepticus (SE) is a frequent neurological emergency associated with a significant risk of morbidity in survivors. Impairment of hippocampal-specific memory is a common and serious deficit occurring in many of the survivors. However, the pathophysiological basis of cognitive deficits after SE is not clear. To directly address the cellular concomitants of spatial memory impairment, we recorded the activity of place cells from CA1 in freely moving rats subjected to SE during early development and compared this activity to that in control rats. Place cells discharge rapidly only when the rat's head is in a cell-specific part of the environment called the "firing field." This firing field remains stable over time. Normal place cell function seems to be essential for stable spatial memory for the environment. We, therefore, compared place cell firing patterns with visual-spatial memory in the water maze in SE and control rats. Compared with controls, place cells from the SE rats were less precise and less stable. Concordantly, the water maze performance was also impaired. There was a close relationship between precision and stability of place cells and water maze performance. In contrast, a single, acute, chemically induced seizure produced cessation of place cell activity and spatial memory impairment in water maze performance that reversed within 24 hr. These results strongly bolster the idea that there is a relationship between abnormal place cells and spatial memory. Our findings also suggest that the defects in place cell and spatial memory after SE and acute chemically induced seizures result from different processes.
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PMID:Seizure-induced changes in place cell physiology: relationship to spatial memory. 1468 54

The ketogenic diet (KD) is a high-fat, low-carbohydrate, and low-protein diet that is widely used to treat epilepsy in children. Although the KD has been shown to be efficacious in the treatment of childhood epilepsy, the long-term effects of the KD on brain development are not clear. The objective of this study was to examine the long-term effects of the KD on visual-spatial memory, activity level, and emotionality in immature rats after status epilepticus (SE). Weanling rats were subjected to lithium/pilocarpine-induced SE or saline injections and were then randomized to either the KD or regular rat diet, both fed ad libitum. One month later, rats were evaluated for visual-spatial memory in the water maze, activity level in the open field test, and emotionality with the handling test. Spontaneous recurrent seizures were measured using videotaping, and seizure susceptibility was tested with flurothyl inhalation. Brains were weighed and examined for mossy fiber sprouting and cell loss. Although rats treated with the KD were active and seemed healthy, their weight gain was substantially lower than that in rats that received regular rat diet. The KD reduced the number of spontaneous seizures but had no discernible effect on flurothyl seizure susceptibility. KD-fed rats, with or without SE, had significantly impaired visual-spatial learning and memory compared with rats that were fed regular diet. The KD had minimal effects on activity level and emotionality. Rats that were treated with the KD had significantly impaired brain growth. No differences in pathology scores between the KD and regular diet groups were seen after SE. Despite reducing the number of spontaneous seizures after SE, the KD resulted in severe impairment in visual-spatial memory and decreased brain growth, with no effect on mossy fiber sprouting. This study raises concerns about the long-term effects of the KD on brain development.
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PMID:Detrimental effects of the ketogenic diet on cognitive function in rats. 1531 66

Midazolam, a water-soluble benzodiazepine, is usually given intravenously in status epilepticus. The aim of this study was to determine whether intranasal midazolam is as safe and effective as intravenous diazepam in the treatment of acute childhood seizures. Seventy children aged 2 months to 15 years with acute seizures (febrile or afebrile) admitted to the pediatric emergency department of a general hospital during a 14-month period were eligible for inclusion. Intranasal midazolam 0.2 mg/kg and intravenous diazepam 0.2 mg/kg were administered after intravenous lines were established. Intranasal midazolam and intravenous diazepam were equally effective. The mean time to control of seizures was 3.58 (SD 1.68) minutes in the midazolam group and 2.94 (SD 2.62) in the diazepam group, not counting the time required to insert the intravenous line. No significant side effects were observed in either group. Although intranasal midazolam was as safe and effective as diazepam, seizures were controlled more quickly with intravenous diazepam than with intranasal midazolam. Intranasal midazolam can possibly be used not only in medical centers, but also in general practice and at home after appropriate instructions are given to families of children with recurrent seizures.
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PMID:Comparison of intranasal midazolam with intravenous diazepam for treating acute seizures in children. 1512 28


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