UMLS:C0494475 - FACTA Search

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Query: UMLS:C0494475 (tonic-clonic seizure)
1,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. An attempt was made to evaluate the pathophysiology of symptoms of hyponatremia as related to changes in brain water and electrolytes. Studies were carried out in 66 hyponatremic patients and 5 groups of experimental animals. 2. In hyponatremic patients, symptoms (depression of sensorium, seizures) correlated well with plasma Na+ (r = 0.64, p less than .001), but there was substantial overlap. In patients with acute hyponatremia, all were symptomatic and 50% died. Among patients with hyponatremia of at least 3 days duration, sympatomatic patients had plasma Na+ (115 +/- 1 mEq/L) which was significantly less (p less than .001) than that of asymptomatic patients (plasma Na+ = 122 +/- 1 mEq/L). Among symptomatic patients, mortality was 12% and 8% had seizures, while none of the asymptomatic patients died or had seizures. 3. Among 14 patients with acute (less than 12 hrs) hyponatremia, the mean plasma Na+ was 112 +/- 2 mEq/L. All such patients had some depression of sensorium and four had grand male seizures. Seven of these patients were treated with hypertonic (862 mM) NaCl, while four were treated only with fluid restriction. Of the seven patients treated with hypertonic NaCl, five survived, while three of four patients treated with fluid restriction died. There was no evidence of circulatory congestion or cerebral damage in the patients treated with hypertonic NaCl. 4. Among rabbits with acute (2-3 hours) hyponatremia (plasma Na+ = 119 +/- 1 mEq/L), all had grand mal seizures and 86% died. All such animals had cerebral edema (brain H2O content 17% above control value) but brain content of Na+, K+ and Cl- was normal. 5. Rabbits with 3 1/2 days of hyponatremia (plasma Na+ = 122 +/- 2 mEq/L) appeared to be asymptomatic, even though brain water content was 7% above normal (p less than .01). 6. Rabbits with 16 days of more severe hyponatremia (plasma Na+ = 99 +/- 3 mEq/L) were weak, anorexic, lethargic and unable to walk. Brain water content was 7% above normal, although brain osmolality (218 +/- 12 mOsm/kg H2O) was similar to plasma (215 +/- 8 mOsm/kg). Brain content of Na+, K+, Cl- and osmoles was 17 to 37% less than normal values, so that the brain established osmotic equilibrium with plasma primarily by means of a loss of electrolytes. 7. These studies suggest that in patients with hyponatremia, symptoms and morbidity are only grossly correlated with either magnitude or duration of hyponatremia. Symptoms appear to correlate best with the interplay between a net increase in brain water versus a loss oof brain electrolytes. However, even asymptomatic animals have subclinical brain edema when plasma Na+ is below 125 mEq/L, and such edema may cause permanent brain damage. Thus, many patients with similar levels of plasma Na+, particularly when they are symptomatic, should probably be treated with hypertonic NaCl infusions.
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PMID:Neurological manifestations and morbidity of hyponatremia: correlation with brain water and electrolytes. 125 11

The mechanisms involved in the production of hypoglycemic coma were studied in rabbits. Measurements were made in brain, cerebrospinal fluid (CSF), and plasma of osmolality, Na(+), K(+), Cl(-), water content, exogenous insulin, glucose, lactate, and glutamate, while pH, Pco(2), Po(2), and bicarbonate were evaluated in arterial blood, 35 min after i.v. injection of insulin (50 U/kg), plasma glucose did not change, but brain K(+) content increased significantly. Grand mal seizures were observed in unanesthetized animals (+/-SD) 133+/-37 min after administration of insulin, at a time when brain glucose was normal, but brain tissue content of Na(+), K(+), osmoles, and water was significantly greater than normal. Coma supervened 212+/-54 min after insulin injection, at which time brain glucose, lactate, and glutamate were significantly decreased. At both 35 and 146 min after insulin administration, exogenous insulin was present in brain, but not in the CSF. After 208 min of insulin administration, animals were given i.v. glucose and sacrificed 35 min later. Most changes in the brain produced by hypoglycemia were reversed by the administration of glucose. Hypoxia (Po(2) = 23 mm Hg) was produced and maintained for 35 min in another group of animals. Hypoxia caused brain edema but did not affect brain electrolyte content. However, brain lactate concentration was significantly greater than normal. The data indicate that the seizures noted early in the course of insulin-induced hypoglycemia are temporally related to a rise in brain osmolality secondary to an increased net transport into brain of Na(+) and K(+), probably caused by insulin, per se. As hypoglycemia persists, there is also depletion of energy-supplying substrates (glucose, lactate, glutamate) in the brain, an event which coincides with the onset of coma. The brain edema observed during hypoxia is largely due to an increase in brain osmolality secondary to accumulation of lactate.
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PMID:Mechanisms of seizures and coma in hypoglycemia. Evidence for a direct effect of insulin on electrolyte transport in brain. 485 37

We report prolonged unilateral vasodilatation and hemispheric brain edema in a 49-year-old man with fulminant hepatic failure (FHF). The patient presented with a tonic-clonic seizure caused by a hypertensive subcortical hemorrhage in the left parietal lobe. Serial computed tomography (CT) scans showed progressive darkening of the ipsilateral hemisphere, suggesting hemispheric cerebral infarction, but the patient did not show clinical signs of deterioration. Brain magnetic resonance angiography showed dilation of the large arteries of the left hemisphere. Evaluation of cerebral blood flow 7 days postictus with single photon emission CT revealed marked ipsilateral hyperperfusion. The darkening of the hemisphere was brain edema elicited by hyperperfusion. Brain edema was reversible, disappearing 14 days postictus. Hemispheric brain edema was caused by unilateral cerebral vasodilatation and resultant hyperperfusion. Although brain edema is a major complication in FHF patients and cerebral hyperperfusion is responsible for edema formation, CT findings of these patients almost invariably show a bilateral lesion. Unilateral vasodilatation and subsequent hemispheric hyperperfusion may be due to overproduction of vasodilators, already abundant in the brains of patients with severe hepatic failure, by seizure activity.
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PMID:Prolonged unilateral vasodilatation and brain edema in fulminant hepatic failure, associated with symptomatic seizure. 1193 48

We report on the successful regrafting of a transplanted kidney. The donor kidney was first transplanted into a 32-year-old patient with renal atrophy. More than 2 years later, he suffered from severe grand mal seizure with brain edema and the patient met the criteria for brain death. The well-functioning graft was recovered and subsequently transplanted into a 66-year-old woman with chronic glomerular nephritis. Neither the first nor the second recipient experienced any acute rejection. To date, more than 14 years later, she is in good health with excellent graft function. This case report implies that excellent long-term graft function is viable in a graft reused 2 years after the initial transplantation.
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PMID:Fourteen-year survival of a renal graft reused 2 years after initial transplantation: a case report. 2002 94

Eclampsia is a hypertensive disorder of pregnancy that is defined by the new onset of grand mal seizures on the basis of preeclampsia and a leading cause of maternal and fetal mortality worldwide. Presently, magnesium sulfate (MgSO₄) is the most effective treatment, but the mechanism by which MgSO₄ prevents eclampsia has yet to be fully elucidated. We previously showed that systemic inflammation decreases the seizure threshold in a rat eclampsia-like model, and MgSO₄ treatment can decrease systemic inflammation. Here, we hypothesized that MgSO₄ plays a neuroprotective role in eclampsia by reducing neuroinflammation and brain edema. Pregnant Sprague-Dawley rats were given an intraperitoneal injection of pentylenetetrazol following a tail vein injection of lipopolysaccharide to establish the eclampsia-like seizure model. Seizure activity was assessed by behavioral testing. Neuronal loss in the hippocampal CA1 region (CA1) was detected by Nissl staining. Cerebrospinal fluid levels of S100-B and ferritin, indicators of neuroinflammation, were detected by enzyme-linked immunosorbent assay, and ionized calcium binder adapter molecule 1 (Iba-1, a marker for microglia) and glial fibrillary acid protein (GFAP, a marker for astrocytes) expression in the CA1 area was determined by immunofluorescence staining. Brain edema was measured. Our results revealed that MgSO₄ effectively attenuated seizure severity and CA1 neuronal loss. In addition, MgSO₄ significantly reduced cerebrospinal fluid levels of S100-B and ferritin, Iba-1 and GFAP activation in the CA1 area, and brain edema. Our results indicate that MgSO₄ plays a neuroprotective role against eclampsia-like seizure by reducing neuroinflammation and brain edema.
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PMID:Magnesium Sulfate Provides Neuroprotection in Eclampsia-Like Seizure Model by Ameliorating Neuroinflammation and Brain Edema. 2787 53

Eclampsia is a hypertensive disorder of pregnancy that is defined by the new onset of grand mal seizures on the basis of pre-eclampsia. Until now, the mechanisms underlying eclampsia were poorly understood. Brain edema is considered a leading cause of eclamptic seizures; aquaporins (AQP4 and AQP9), the glial water channel proteins mainly expressed in the nervous system, play an important role in brain edema. We studied AQP4 and AQP9 expression in the hippocampus of pre-eclamptic and eclamptic rats in order to explore the molecular mechanisms involved in brain edema. Using our previous animal models, we found several neuronal deaths in the hippocampal CA1 and CA3 regions after pre-eclampsia and that eclampsia induced more neuronal deaths in both areas by Nissl staining. In the current study, RT-PCR and Western blotting data showed significant upregulation of AQP4 and AQP9 mRNA and protein levels after eclamptic seizures in comparison to pre-eclampsia and at the same time AQP4 and AQP9 immunoreactivity also increased after eclampsia. These findings showed that eclamptic seizures induced cell death and that upregulation of AQP4 and AQP9 may play an important role in this pathophysiological process.
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PMID:Changes in the Expression of AQP4 and AQP9 in the Hippocampus Following Eclampsia-Like Seizure. 2935 Dec 12

We report a case of a patient presenting to the emergency department in cardiac arrest following a liposuction procedure, which was performed in a physician office using lidocaine anesthesia. During liposuction of the thighs, using the power-assisted technique, the patient was given a subcutaneous dose of lidocaine equal to 71 mg/kg without any noticeable intraoperative complication. Two hours later, the patient experienced dizziness, a rapid decline in mental status, tonic-clonic seizure, and cardiac arrest. The patient was successfully resuscitated in the emergency department with the return of spontaneous circulation after 22 minutes of continuous advanced cardiovascular life support resuscitation. The patient suffered from subsequent severe hypoxic-ischemic brain injury, and a complicated hospital stay, including brain edema, electrolytes disturbances, and nosocomial infections contributed to her death two months later due to septic shock.
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PMID:Cardiac Arrest Following Liposuction: A Case Report of Lidocaine Toxicity. 3136 Mar 24