Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0036572 (seizures)
 80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Glycerol acute renal failure (ARF) was examined to see if it alters theophylline (Th) neurotoxicity in rats. Concentrations of Th in serum, cerebrospinal fluid and in brain at seizure onset were similar in control and ARF rats infused with Th. Thus, glycerol ARF fails to alter Th neurotoxicity, an effect similar to that noted previously with uranyl nitrate but not with ureter ligation.
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PMID:Theophylline neurotoxicity is unaffected by glycerol-induced renal failure. 208 97

Glycerol, the end product of phospholipid degradation, was measured in cat brains under pathophysiological conditions known to cause activation of lipolysis, namely, bicuculline-induced seizures, permanent focal cerebral ischemia (2 hr of middle cerebral artery occlusion), and global cerebral ischemia (15 min of complete cerebral ischemia with or without 2 hr of recirculation). In addition, ATP and lactate were measured in order to correlate the activation of lipid degradation with disturbances in the energy-producing metabolism. A highly significant increase in the tissue glycerol content was observed after 1 hr of bicuculline-induced seizures (from 0.29 +/- 0.07 mumol/g in control animals to 1.30 +/- 0.06 mumol/g in seizure animals; P less than 0.001) or after 15 min of complete cerebral ischemia (from 0.29 +/- 0.07 to 1.17 +/- 0.14 mumol/g; P less than 0.01). Furthermore, a close correlation was found between the increase in glycerol and the increase in lactate or decrease in ATP after permanent focal ischemia. In contrast, following recirculation after complete cerebral ischemia, restoration of the energy pool did not lead to a reduction of the glycerol formed during ischemia. It is concluded that glycerol is a useful indicator of lipid degradation under pathological conditions. Since glycerol formed during vascular occlusion is trapped in brain cells, presumably owing to low glycerol kinase activity, it can be used as a stable postischemic indicator of ischemia-induced lipid degradation.
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PMID:Glycerol as an indicator of lipid degradation in bicuculline-induced seizures and experimental cerebral ischemia. 350 34

Brain cell swelling is a consequence of seizure, ischemia or excitotoxicity. Changes in light reflectance from cortical surface are now used to monitor brain activity but these intrinsic signals are poorly understood. The objectives of this study were first, to show that changes in light transmittance were correlated with cell volume and second, to image increases in light transmittance as they related to neuronal activation. Transverse hippocampal slices from the rat were used for the study. Brief exposure (4-6 min) to hypo-osmotic artificial cerebrospinal fluid (-40 mOsm) elevated light transmittance consistently and reversibly in most regions of the slice and particularly in CA1 dendritic regions. Neither zero-Ca2+ artificial cerebrospinal fluid nor tetrodotoxin altered the transmittance increase and its subsequent reversal, suggesting that it was dependent on osmolality but independent of synaptic transmission and neuronal firing. The amplitude of the CA1 population spike evoked from Schaffer collaterals increased concomitantly with the hypo-osmotic increase in light transmittance, providing evidence that the extracellular tissue resistance increased. Hyper-osmotic artificial cerebrospinal fluid (+40 mOsm) containing impermeant mannitol consistently lowered light transmittance and the amplitude of the population spike. Glycerol (+40 mOsm), which is cell permeant, did not have an affect. Taken together these observations indicate that osmotic challenge alters light transmittance by inducing changes in cell volume. Transmittance increases induced by hypo-osmotic artificial cerebrospinal fluid or 10 microM kainate were small in the CA1 cell body region compared to dendritic regions. Similarly, orthodromic stimulation of axons terminating in stratum oriens or in stratum radiatum evoked transmittance increases only in their respective postsynaptic areas. In contrast, the cell body region and its adjacent proximal-apical dendrites (both sites of action potential initiation) could display dramatic increases in light transmittance upon brief exposure to 20 mM K+. The response, which may represent neuronal damage, was blocked in tetrodotoxin. Antidromic stimulation evoked a weak response in these same proximal areas. We conclude that activity-dependent increases in light transmittance across brain slices primarily reveal glial and neuronal swelling associated with excitatory synaptic input and action potential discharge. The signal can be imaged in real time to reveal neuronal activation, not only among hippocampal areas, but among neuronal regions. Cell swelling is a known consequence of excessive neuronal discharge. Therefore, the imaging of changes in light transmittance across brain slices should prove useful in monitoring epileptiform and excitotoxic states.
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PMID:Imaging cell volume changes and neuronal excitation in the hippocampal slice. 783 Aug 84

Early post-traumatic seizures occur commonly and may have adverse clinical consequences. In order to determine the significance of post-traumatic seizures, we performed a prospective assessment of the consequences of epileptic activity by assessing the change in extracellular glycerol levels. Glycerol is a marker of cellular membrane breakdown. Thirteen patients underwent combined electroencephalography (EEG) and cerebral microdialysis monitoring. Two patients had seizures on EEG with associated delayed elevations of glycerol associated with the seizure activity. Higher mean levels of glycerol were present in those patients with seizures compared to those without seizures (p < 0.001). Preliminary evidence suggests that post-traumatic seizures lead to additional membrane injury as reflected by elevated extracellular glycerol levels.
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PMID:Delayed increase in extracellular glycerol with post-traumatic electrographic epileptic activity: support for the theory that seizures induce secondary injury. 1216 46