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Query: UMLS:C0036572 (seizures)
 80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An experimental model of status epilepticus has been developed in the immature rat by administration of pentylenetetrazol (PTZ) using repetitive, timed intraperitoneal injections of subconvulsive doses. The pattern of behavioral signs has been well characterized in each age group, i.e. 10 (P10), 14 (P14), 17 (P17) and 21 postnatal days (P21). In this model, the dose of convulsant could be adjusted as a function of interindividual sensitivity and status epilepticus lated for quite a long duration to allow the measurement of local cerebral metabolic rates for glucose (LCMRglc) by means of the [14C]2-deoxyglucose method [J. Neurochem., 28 (1977) 897-916]. To estimate LCMRglc during status epilepticus, the lumped constant (LC) was re-calculated in controls and PTZ-treated rats. The control LC was 0.54 at P10 and 0.50-0.51 at the three older ages studied (P14, P17 and P21). During status epilepticus, it increased to 0.64 in P10 rats and decreased to 0.42 and 0.40, respectively, in P17 and P21 animals. At P14, LC was not affected by seizures. The measurements of brain lactate levels showed a large 4.5-10-fold increase in PTZ-treated rats as compared to controls at all ages. The results of the present study show that the immature brain responds to sustained seizure activity in a specific way according to its postnatal age. Moreover, our results underscore the necessity of re-calculation of LC to the quantification of LCMRglc in such pathological states, particularly in immature animals.
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PMID:An experimental model of generalized seizures for the measurement of local cerebral glucose utilization in the immature rat. I. Behavioral characterization and determination of lumped constant. 142 99

The quantitative autoradiographic [14C]2-deoxyglucose technique (2DG) was applied to measure the effects of pentylenetetrazol (PTZ)-induced status epilepticus (SE) on local cerebral metabolic rates for glucose (LCMRglc) in 10 (P10)-, 14 (P14)-, 17 (P17)- and 21 (P21)-day-old rats. To produce long-lasting SE (55 min), the animals received repetitive, timed intraperitoneal injections of subconvulsive doses of PTZ until SE was reached. At P10 and P14, SE induced a marked increase in LCMRglc which affected 66 of the 76 structures studied. Increases were especially high (200-400%) in limbic and motor cortices at P10 and in some brainstem areas at these 2 ages. At P17 and P21, average brain glucose utilization was similar in seizing and control rats, but in PTZ-treated rats reflected a redistribution in local metabolic rates with increases in brainstem, midbrain, hypothalamus and septum, decreases in cortex, hippocampus, some sensory areas and white matter and no change in many motor and limbic structures. In a few cerebral regions, such as hippocampus, dentate gyrus and mammillary body, LCMRglc did not increase at P10 and P14 and decreased at P17 and P21 in PTZ- vs. saline-treated rats. The results of the present study show that the immature brain responds to sustained seizure activity in a specific way according to its maturational state. Moreover, these data allow the mapping of the vulnerability of cerebral structures to seizures, according to their metabolic response to convulsions.
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PMID:An experimental model of generalized seizures for the measurement of local cerebral glucose utilization in the immature rat. II. Mapping of brain metabolism using the quantitative [14C]2-deoxyglucose technique. 142

The present study was devoted to the long-term effects of seizures induced by pentylenetetrazol in immature rats on cerebral metabolic rates in young adult animals. Seizures were induced by repetitive intraperitoneal injections of subconvulsive doses of pentylenetetrazol either in 10- (P10) or in 21- (P21) day-old rats. The long-term metabolic effects of the seizures were studied at P60 in 54 cerebral structures by means of the [14C]deoxyglucose method. At P60, metabolic activity was decreased in 10 brain regions of rats exposed to pentylenetetrazol at P10 and in 29 structures in rats exposed to seizures at P21. Among the structures whose metabolic activity was reduced at P60 by seizures occurring either at P10 or at P21 were mainly sensory, cortical and hippocampal regions plus mammillary body, i.e. all the structures metabolically characterized as most vulnerable to pentylenetetrazol-induced status epilepticus in our previous study [Pereira de Vasconcelos A. et al. (1992) Devl Brain Res. 69, 243-259]. In the animals exposed to seizures at P21, metabolic activity was also reduced at P60 in additional sensory and cortical regions, as well as in limbic, thalamic and hypothalamic nuclei, also considered as highly sensitive to short-term pentylenetetrazol-induced seizures [Pereira de Vasconcelos A. et. al. (1992)]. Rates of glucose utilization were also reduced in a few additional areas such as the monoaminergic cell groupings. In conclusion, there are some parallels between the structures metabolically most sensitive during pentylenetetrazol-induced status epilepticus in immature rats and the long-term regional metabolic decreases recorded at P60. Our data also confirm the well-known higher sensitivity to seizures during the third postnatal week in rodents.
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PMID:Long-term metabolic effects of pentylenetetrazol-induced status epilepticus in the immature rat. 767 78

The quantitative autoradiographic [14C]-iodoantipyrine technique was applied to measure the effects of a 30-min period of pentylenetetrazol (PTZ)-induced status epilepticus (SE) on local cerebral blood flow (LCBF) in rats 10 (P10), 14 (P14), 17 (P17), and 21 (P21) days after birth. The animals received repetitive, timed injections of subconvulsive doses of PTZ until SE was reached. At P10, SE induced a 32 to 184% increase in the rates of LCBF affecting all structures studied. In P14- and P17 PTZ-treated rats, LCBF values significantly increased in two-thirds of the structures belonging to all systems studied and were not changed by SE in the parietal cortex, dorsal hippocampus, and dentate gyrus. At P21, rates of LCBF were still increased in 48 of the 73 structures studied; however, LCBF values were decreased by SE in most cortical areas, the hippocampus, and the dentate gyrus. CBF and cerebral metabolic rate for glucose (CMRglc) remained coupled in both controls and PTZ-exposed rats. Our results show that changes in LCBF with seizures are age dependent. At the most immature ages, P10 and P14, both LCBF and local CMRglc (LCMRglc) values are largely increased by long-lasting seizures. At P17 and P21, the blood flow response to SE becomes more heterogeneous, with specific decreases in the hippocampus and cortex at P21. The absence of mismatch between LCBF and LCMRglc in PTZ-exposed rats at all ages may explain at least partly why the immature brain is more resistant to seizure-induced brain damage than the adult brain.
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PMID:Effects of pentylenetetrazol-induced status epilepticus on local cerebral blood flow in the developing rat. 786 Jun 61

The ontogeny of kainate induction of AP-1 mRNAs, proteins, and DNA binding activities was examined in the rat hippocampus. In addition, kainate induction of preproenkephalin and preprodynorphin mRNAs was examined; these genes have been shown to be induced by kainate and have been suggested to be targets of AP-1 regulation in adult rat hippocampus. Despite producing seizures at postnatal day (P) 7, kainate failed to induce AP-1 or opiate gene expression and did not increase AP-1 DNA binding activity at this age. Basal levels of AP-1 and opiate mRNAs were low in P7 hippocampus. Basal levels of c-jun protein and AP-1 DNA binding activity were elevated in the P7 hippocampus, to values greater than induced levels in adult hippocampus. Furthermore, AP-1 DNA binding in P7 hippocampal nuclear extract was unaffected by antibodies against fos-related antigens, in contrast to hippocampal extracts from the older rats examined. At P14, induction of AP-1 and preproenkephalin (but not preprodynorphin) mRNAs was observed with kainate treatment, but the time course for inductions was delayed relative to kainate inductions in the adult hippocampus. At P21, responses to kainate were similar to the adult response. Unlike in adult hippocampus, seizure activity caused by kainate treatment does not increase the transcription factor and opioid peptide gene expression in the hippocampi of P7 rats.
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PMID:Ontogeny of kainate-induced gene expression in rat hippocampus. 829 5

In order to assess acute, short and long-term effects of seizures in the immature rat brain, we studied the metabolic, circulatory and histopathological changes induced by pentylenetetrazol (PTZ) given at postnatal day 10 (P10) or 21 (P21). Seizures were induced by repetitive subconvulsive injections of PTZ given as a first dose of 40 mg/kg followed 10 min later by 20 mg/kg. Thereafter, rats received every 10 min additional injections of PTZ 10 mg/kg until the onset of status epilepticus. Local cerebral metabolic rates for glucose (LCMRglc) were measured both during the seizures in P10 and P21 rats and in the young adult animal at P60 by means of the quantitative 2-deoxyglucose technique. Rates of local cerebral blood flow (LCBF) were determined during the seizures by the iodoantipyrine technique. Short-term histological changes were assessed by acid fuchsin and hematoxylin-eosin staining and by HSP72 immunohistochemistry. At P10, LCMRglcs uniformly increased (38-400%) over control values during seizures. At P21, metabolic increases (39-181%) occurred only in 20% of the structures while LCMRglcs decreased in most cortical, hippocampal and sensory areas as well as in mammillary body, discrete thalamic nuclei and white matter areas. At P10, LCBF rose (32-184%) in all brain structures whereas, at P21, LCBF decreased in cortical, hippocampal and sensory regions and increased in most other areas. At P60, in animals having seized at either age, significant long-term decreases in LCMRglcs were recorded in hippocampus, auditory and piriform cortex, medial geniculate body and mammillary body. In P60 animals exposed to PTZ at P10, LCMRglcs were also decreased in 3 other sensory areas. In P60 animals exposed to seizures at P21, LCMRglcs were additionally decreased in sensory regions, cortices, thalamic and hypothalamic regions. Neuronal cells were transiently stained with acid fuchsin, with a peak occurring at 24 h after the seizures. The stain was visible in all regions of cerebral cortex and hippocampus and in some thalamic and hypothalamic nuclei. This transient staining was not accompanied by cell degeneration as assessed by hematoxylin-eosin histology. No HSP72 expression could be detected 24 h after the seizures, neither at P10 nor at P21. The present study shows that the immature rat neurons undergo altered metabolic rates and local circulatory decreases in the acute phase, a change in the affinity of acid fuchsin as a short-term effect and long-term metabolic decreases. All these changes are located in the same regions, i.e., cerebral cortex, hippocampus, sensory regions as well as scattered thalamic and hypothalamic nuclei. Thus, short- and long-term metabolic changes induced by seizures can be used as an index of cell stress in the immature rat brain. Since all these changes occur in the absence of visible neuronal death, they might be related to changes in the final arborization and synaptic organization of the developing brain.
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PMID:The model of pentylenetetrazol-induced status epilepticus in the immature rat: short- and long-term effects. 898 91

In the present study, we measured the effects of pentylenetetrazol (PTZ)-induced status epilepticus on the blood-brain barrier (BBB) permeability in rats at postnatal age 10 (P10) or 21 days (P21). Seizures were induced by the repetitive injection of subconvulsive doses of PTZ until the onset of status epilepticus characterized as the loss of quadruped posture. The BBB permeability changes to the poorly diffusible amino acid [14C] alpha-aminoisobutyric acid (AIB) were measured by autoradiography at 10 min after the onset of status epilepticus. Seizures induced a generalized increase in BBB permeability to AIB that was significant in 22 and 26 regions out of the 34 studied at P10 and P21, respectively. Highest increases over control levels (> 250%) were recorded at both ages in interpeduncular nucleus, raphe nuclei and trigeminal nerve tractus. Quite high increases (> 150%) were recorded in cortical, inferior collicular and thalamic areas at P10 and in inferior colliculus, cerebellar cortex, hypothalamic and thalamic regions at P21. Cerebral blood volume measured with [14C]sucrose over a 2-min period was significantly increased over control levels in hypothalamus and cerebellum at P10 and in all brain regions, except hippocampus and brainstem, at P21. The widespread increase in BBB permeability is at least partly related to the blood pressure increase, 55 and 22% over control values at P10 and P21, respectively. In the P10 rat, generalized BBB leakage appears to be correlated to the widespread increase in cerebral metabolic and blood flow rates that we recorded previously in the same experimental conditions. Conversely, at P21, as previously shown in adults, there is a mismatch between the nature of the structures with increased BBB permeability and the regional distribution of cerebral blood flow and metabolism changes induced by PTZ seizures.
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PMID:Changes in transport of [14C] alpha-aminoisobutyric acid across the blood-brain barrier during pentylenetetrazol-induced status epilepticus in the immature rat. 899 84

We explored the constitutive expression, maturational regulation, and relation to kainic-acid-induced apoptosis of cyclooxygenase (COX)-2 mRNA in rat brain. In adult rats, COX-2 mRNA was expressed primarily in limbic structures. Constitutive COX-2 mRNA expression increased markedly between Postnatal Day 7 (P7) and P14, reaching adult levels by P21. Despite intense KA-induced seizures, no COX-2 mRNA induction was found before P14 in any brain region examined. During response to KA-induced seizures in adult brain, COX-2 mRNA induction paralleled temporally and overlapped anatomically the appearance of cellular morphological features of apoptosis in subsets of cells of the pyramidal neuron layer of the hippocampal formation, amygdaloid complex, and pyriform cortex. While COX-2 mRNA showed KA-induced elevation in the granule cell layer of the dentate gyrus, no detectable morphological features of apoptosis were found in this region. Finally, monotypic culture of rat corticohippocampal neurons confirmed the neuronal expression of COX-2 in vitro and revealed that COX-2 is induced during response to glutamate treatment, leading to neuron death. These studies may provide novel insights into the role of COX-2 and mechanisms of action of nonsteroidal anti-inflammatory drugs in Alzheimer's disease.
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PMID:Maturational regulation and regional induction of cyclooxygenase-2 in rat brain: implications for Alzheimer's disease. 916 34

The cerebral metabolic consequences of hypoxia, seizures and hyperbilirubinemia were explored in immature rates between the postnatal age of 10 (P10) and 21 days (P21) by the quantitative autoradiographic [14C]2-deoxyglucose technique. The effects of a previous bilirubin exposure on cerebral regional permeability to bilirubin were measured by autoradiography. Hypoxia was induced by breathing a 7% N2/93% O2 gas mixture and seizures were initiated by injections of pentylenetetrazol. Hyperbilirubinemia was induced by the perfusion of a bilirubin/albumin solution. Hypoxia and seizures induced a general increase in cerebral metabolic rates to glucose (LCMRglc) in P10 rats, except in hippocampus during seizures. At P14, LCMRglc remained increased during seizures, except in the hippocampus. During hypoxia LCMRglc were unchanged in the genu of the corpus callosum and the anterior commissure and decreased in the cerebellar white matter. At P21, LCMRglc decreased in all white matter regions during hypoxia and in the hippocampus during seizures, while they were unchanged in the amygdala and increased in the nucleus of the solitary tract. During hyperbilirubinemia, LMCRglc decreased at all ages with very marked changes in the nucleus of the auditory nerve at P10 and in the inferior colliculus at P21 (72-86%). Twofold decreases were also recorded in the hippocampus. The basic regional cerebral permeability to the anion was higher at P10 than P21 and the marked increases in regional permeability to bilirubin after a previous exposure to the anion were located in the nucleus of the auditory nerve and the hippocampus.
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PMID:Cerebral metabolic consequences of neonatal pathologies in the immature rat. 920 Aug 76

We have previously shown that chronic developmental administration of N-methyl-D-aspartate (NMDA) antagonists reduces synaptic development; however, on withdrawal from NMDA antagonism, there is a rebound period during which synaptogenesis exceeds control levels. The current research was undertaken to explore this period of withdrawal, using the noncompetitive antagonist phencyclidine (PCP), examining 2 behavioral measures in which the NMDA receptor is implicated: 1. NMDA-induced seizures, and 2. learning and memory in the Morris water maze. Using a protocol identical to that previously used to examine synaptic development, male Long-Evans rats were given 1 daily SC injection of either 10 mg/kg PCP or its physiological saline vehicle for a period of 15 days, beginning on postnatal Day 5 (P5) and ending on P20. Animals were then assessed for either sensitivity to NMDA-induced seizures on P21, P26, P36, or P56, or they were assessed for their acquisition performance and initial heading in the Morris water maze on P23, P26, P30, P38, and P75. Chronic treatment with PCP resulted in greater behavioral ratings of seizure activity after NMDA administration, observed 1 (P21), 5 (P26), and 15 (P36) days after the last injection of PCP, indicating increased sensitivity of the NMDA receptor/channel complex during this period after withdrawal from developmental NMDA antagonism. PCP-treated animals also required significantly more trials to reach criterion in the Morris water maze on P23, P26, and P30, and displayed significantly less accurate initial swim headings on all test days. The results are discussed in terms of the role of the NMDA receptor-channel complex in development and learning/memory processes.
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PMID:Altered NMDA sensitivity and learning following chronic developmental NMDA antagonism. 933 87


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