UMLS:C0036572 - FACTA Search

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

Hyperglycemic hyperosmolar coma is a life-threatening emergency with a mortality much higher than that of other forms of hyperosmolarity such as hypernatremia or diabetic ketoacidosis. Despite the differences in the three conditions, present evidence suggests that correction of hyperosmolarity should proceed slowly to avoid the seizures that may occur in all three conditions. This report describes a 9-month-old diabetic child who initially had hyperglycemic hyperosmolar coma and who is one of the youngest survivors of this syndrome in the American literature. This case report points out the limited understanding of the pathophysiology of this syndrome and the consequent problems of therapy.
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PMID:Hyperglycemic hyperosmolar coma in a 9-month-old child. 42 Jan 89

A 12-year-old juvenile diabetic was inadvertently given 500 ml of hypertonic saline intravenously. He developed hypernatremia, hyperosmolality, metabolic acidosis, and hyperglycemia. Seizures and stupor ensued, followed by coma and death. Computerized cranial tomography revealed numerous small subcortical hemorrhages that were verified postmortem.
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PMID:Hypernatremic hemorrhagic encephalopathy. 47 54

Cerebral cell volume regulatory mechanisms are activated by sustained disturbances in plasma osmolality. Acute hypernatremia causes a predictable shrinkage of brain cells due to the sudden imposition of a plasma-to-cell osmolal gradient. However, during chronic hypernatremia cerebral cell volume is maintained close to the normal range as a result of the accumulation of electrolytes and organic osmolytes including myo-inositol, taurine, glutamine, glycerophosphorylcholine, and betaine. The increased cytosolic level of these molecules is generally accomplished via increased activity of sodium (Na+)-dependent cotransport systems. The slow dissipation of these additional osmotically active solutes from the cell during treatment of hypernatremia necessitates gradual correction of this electrolyte abnormality. Acute hyponatremia leads to cerebral cell swelling and severe neurological dysfunction. However, prolonged hyponatremia is associated with significant reductions in brain cell electrolyte and organic osmolyte content so that cerebral cell volume is restored to normal. While acute hyponatremia can be treated with the administration of moderate doses of hypertonic saline in order to control seizure activity, chronic hyponatremia should be corrected slowly in order to prevent subsequent neurological deterioration. If the rate of correction exceeds 0.5 mmol/l per hour, or if the total increment in serum [Na+] exceeds 25 mmol/l in the first 48 h of therapy, then there is an increased risk of the development of cerebral demyelinating lesions. Chronic hyperglycemia activates the brain cell volume regulatory adaptations in the same manner as hypernatremia. Therefore, during the treatment of diabetic ketoacidosis, it is imperative to restore normoglycemia gradually in order to prevent the occurrence of cerebral edema.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cell volume regulation: a review of cerebral adaptive mechanisms and implications for clinical treatment of osmolal disturbances: II. 153 29

A 39-year-old woman ingested 59 mL of Super Nail Nail Off (American International Industries, Hollywood, CA) (containing 99% acetonitrile) in a suicide attempt. Following a latent period of approximately 12 hours, the patient developed cyanide poisoning with severe metabolic acidosis, seizures, and shallow respirations. She responded to the administration of sodium nitrite and sodium thiosulfate, although the administration of nitrite produced bradycardia and hypotension. She developed several relapses over the course of her hospitalization and each time responded to sodium thiosulfate administration. The patient developed hypernatremia from the sodium load given to her; hemodialysis and charcoal hemoperfusion were initiated to correct the hypernatremia and to attempt to remove cyanide, thiocyanate, and acetonitrile. On the fifth hospital day, the patient was fully recovered and was discharged.
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PMID:Severe cyanide poisoning from the ingestion of an acetonitrile-containing cosmetic. 201

Hypernatremia is a common electrolyte disturbance, most often caused by volume depletion. Hypernatremia due to sodium excess occurs less frequently, and fatal hypernatremia solely from ingestion of table salt is rare. We describe a 41-year-old man who had seizures and hypernatremia after ingestion of a supersaturated salt water solution intended for gargling. He had consumed approximately a third cup of table salt (approximately 70 to 90 g of salt or 1,200 to 1,500 meq of sodium). His initial serum sodium concentration was 209 meq/liter. Hypotonic fluid therapy was given to provide free water and to correct the hypernatremia gradually. Our patient, however, failed to recover from the initial insult and died 3 days later. Review of the literature revealed 10 adult and 20 pediatric cases of hypernatremia attributable to exogenous intake of salt. The type of therapy (fluid or peritoneal dialysis), the type of fluid used, and the rate of correction of hypernatremia did not influence survival. The age of the patient and the initial serum sodium concentration were the most important prognostic indicators. Both very young patients and those with lesser degrees of hypernatremia had a better rate of survival than did other patients. In addition, our review illustrates the surprisingly small amount of salt that can cause severe hypernatremia and the danger of using salt or saline as an emetic.
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PMID:Fatal hypernatremia from exogenous salt intake: report of a case and review of the literature. 201 96

Hypernatremia is a potentially life-threatening electrolyte abnormality. This problem develops most often because of loss of water from the animal, but in rare cases hypernatremia results from gain of sodium chloride. Important conditions predisposing to hypernatremia include diarrhea, vomiting, heat stroke, fever, limited access to water, excessive diuretic use, renal diseases, and pituitary diabetes insipidus. This condition rarely develops if animals have adequate access to water. Clinical signs relate to central nervous system derangements and can progress to seizures and coma. Diagnosis is based on the serum sodium concentration; treatment should be instituted if it is greater than 170 mEq per L. Treatment is based on knowledge of the volume status of the patient and the probable cause for the hypernatremia. In general, 5 per cent dextrose in water or other hypotonic fluids are given slowly intravenously. The rate of administration should be adjusted so the water deficit is replaced over 48 to 72 h. Too rapid correction of hypernatremia can lead to cerebral edema and worsening of the animal. In cases of salt intoxication, diuretics must be given in addition to slow water replacement to avoid the development of pulmonary edema.
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PMID:Hypernatremia. 264 64

The schema in Table 1 illustrates the inter-relationship between the major fluid and electrolyte disturbances with their primary site of involvement, that is, the CNS or peripheral nervous system (PNS), their primary effect (nervous system depression or irritability), and the major symptom complex associated with these sites and mechanisms (obtundation, seizures, muscle weakness, and tetany). As can be seen, a pattern emerges. Disorders of sodium and osmolality, whether hypernatremia (hyperNa), hyponatremia (hypoNa), hyperosmolality (hyperOsm), or hypo-osmolality (hypoOsm), all produce CNS depression with encephalopathy as the major clinical manifestation. Disorders of potassium, whether hyperkalemia (hyperK) or hypokalemia (hypoK), produce PNS depression with muscle weakness as the major clinical manifestation. On the other hand, disorders of magnesium and calcemia produce both CNS and PNS manifestations. Hypercalcemia (hyperCa) and hypermagnesemia (hyperMg) produce CNS and PNS depression with encephalopathy and muscle weakness, respectively, being the major clinical manifestations. Hypocalcemia (hypoCa) and hypomagnesemia (hypoMg) produce CNS and PNS irritability with seizures and tetany, respectively, being the major clinical manifestations.
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PMID:Neurologic manifestations of fluid and electrolyte disturbances. 267 34

Literature data on current methods of induced abortion during the 2nd trimester are reviewed with special emphasis on the use of intraamniotic administration of hypertonic saline solution. A 20% saline is injected during amniocentesis either intra-abdominally or through the vagina; the optimum time period for pregnancy termination is 21-23 weeks of gestation. In the majority of patients, miscarriage occurs within 24-36 hours. The incidence of complications after administration of 20% saline ranges from 1.7-2.18%. Complications include hypernatremia, hemolysis, anuria, coma, seizures, incomplete abortion, hemorrhage, and inflammatory pelvic disease. Contraindications for pregnancy termination using hypertonic saline include cardiovascular diseases, central nervous system diseases, kidney diseases, late pregnancy toxemias, presence of postoperative cicatrix on the uterus, and placenta previa. The mechanism of abortifacient action of hypertonic saline may be associated with stimulation of the synthesis of endogenous prostaglandins (PG). The findings that PG can stimulate uterine contractions prompted clinical trials of PG as abortifacient agents. Longterm iv administration of PGF2 alpha and PGE during 2nd trimester was found to be associated with serious complications (nausea, vomiting, diarrhea, phlebitis at the site of vein puncture). For this reason, the method of iv administration of PG was abandoned. Intra-amniotic administration of PGF2 alpha (40-50 mg) was shown to induce abortion in 82-91% of the patients within 48 hours after injection. The incidence of hemorrhage and rupture of the cervix uteri after PG administration was significantly greater than that after saline injection. The intramuscular and vaginal administration of synthetic PG alone or in combination with Laminaria was shown to provide the most effective and safe method of induced abortion during the 2nd trimester.
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PMID:[Artificial termination of pregnancy in late periods]. 332 84

We studied the effect of 8-wk dietary taurine depletion on the vulnerability to hypernatremic dehydration in postweanling kittens. While experimental taurine depletion was not associated with increased susceptibility to acute hypernatremia (1.5 M NaCl/NaHCO3, 35 ml/kg body weight, single injection), there was an increase in mortality (five of seven versus one of seven, p = 0.05) and seizure activity (three of seven versus none of seven, p = 0.08) in taurine-depleted compared to taurine-replete kittens rendered chronically hypernatremic over 96 h. Furthermore, there was a significant decrease in brain cell water (517.4 +/- 21.7 versus 671.6 +/- 32.3 ml/100 g fat-free dry weight, p less than 0.05), derived almost exclusively from the intracellular compartment (352.5 +/- 12.3 versus 483.8 +/- 34.6 ml/100 g fat-free dry weight, p less than 0.05) that correlated with the reduction in the cerebral taurine content in the taurine-depleted versus control kittens during chronic hypernatremic dehydration. These results suggest that taurine is an important cerebral osmoprotective molecule. This aminoacid constitutes nearly 50% of the adaptable intracellular osmolal pool whose concentration varies in the course of osmoregulating in response to perturbations in the extracellular fluid tonicity.
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PMID:Taurine and osmoregulation: taurine is a cerebral osmoprotective molecule in chronic hypernatremic dehydration. 334 Apr 41

We studied 153 children who experienced convulsions associated with shigellosis. The male-female ratio was 1.2:1.0. Thirty-six children had a previous history of febrile convulsions, and 31 children had a family history of convulsive disorder. Most of the children were 0.5 to 3 years of age, although 49 (32%) were older than 3 years of age and 20 (13.1%) were older than 5 years of age. All children were febrile; in 75% of the children, the temperature was over 39 degrees C. The majority of the children had generalized, self-limited convulsions, which lasted less than ten minutes. In 30 children the seizures were categorized as complex; ten of them had recurrent episodes, although none had any residual neurologic deficit. The total leukocyte count was usually within normal limits, but the differential count characteristically showed a marked increase in the number of band forms. Hypocalcemia (blood calcium level, less than 9.01 mg/dL [less than 2.25 mmol/L]) was observed in four patients; hyponatremia (blood sodium level, 130 mEq/L [130 mmol/L]), in 11 patients; and hypernatremia (blood sodium level, 157 mEq/L [157 mmol/L]), in one patient. Electroencephalographic (EEG) studies were performed in ten children, and lumbar punctures were performed in 34 children; both procedures usually yielded normal results. Shigella sonnei was isolated from 69% of the children; Shigella flexneri from 25%; Shigella boydii from 5%; and Shigella dysenteriae from 1%. Due to the benign and self-limited nature of most of the convulsions, neither diagnostic procedures, nor drug therapy, are usually necessary. These measures should, however, be considered in complicated cases characterized by focal or prolonged seizures.
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PMID:Convulsions in childhood shigellosis. Clinical and laboratory features in 153 children. 354 8

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