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)

Serum hyperviscosity syndrome was diagnosed in 2 cats with multiple myeloma. Clinical signs included pale mucous membranes, dehydration, retinal hemorrhages, dilated and tortuous retinal vessels, seizures, head-tilt, nystagmus, systolic murmur, and gallop rhythm. Laboratory abnormalities included hyperglobulinemia, azotemia, hyperphosphatemia, nonregenerative anemia, and thrombocytopenia. Both cats had IgG monoclonal gammopathy, Bence Jones proteinuria, increased numbers of bone marrow plasma cells, and high values for relative serum viscosity. Renal disease was suspected in both cats. Cardiac hypertrophy was documented in 1 cat and was suspected in the other cat. Chemotherapy, using melphalan, prednisone, and vincristine, caused short-term remission in both cats, and plasmapheresis was used to lower serum protein concentration in 1 cat. Serum hyperviscosity syndrome rarely develops in cats, but should be suspected when monoclonal gammopathy exists with signs of neurologic, cardiac, or retinal disease.
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PMID:Serum hyperviscosity syndrome associated with multiple myeloma in two cats. 153 97

We studied the distribution of valproic acid (VPA) between brain (gray matter) and serum in 13 patients receiving chronic VPA therapy who underwent cortical resections for intractable seizures. Valproate concentration in cerebral cortex was remarkably low compared with either total or unbound valproate concentration in serum. The respective brain-to-serum partition ratios based on total and free drug in serum were 0.111 +/- 0.051 and 0.544 +/- 0.175. In comparison with other commonly used antiepileptic drugs, valproate has the distinction of exhibiting the lowest brain-to-blood partitioning. Moreover, the brain-to-serum concentration ratio varied over a four-fold range between patients. Some of this variability was related to variation in serum protein binding, as indicated by a modest correlation between the partition ratio and serum free fraction (r = +0.687). However, the brain-to-unbound concentration ratio still showed a three-fold variation. The variability in distribution of VPA between brain and blood is probably one of the underlying factors for the lack of a clearly definable therapeutic range of serum VPA concentration in epileptic patient populations.
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PMID:Low and variable presence of valproic acid in human brain. 154 18

Serum concentration-time course profiles, serum protein binding, and disposition parameters of lorazepam (LRZ), a benzodiazepine with sedative-hypnotic, anxiolytic, and anti-seizure properties, were studied as part of a systematic effort to define population-specific pharmacokinetic behavior in humans with chronic spinal cord injury (SCI). Twenty-four healthy subjects (nine tetraplegic, six paraplegic, nine able-bodied) were given an IV bolus of 2.0 mg of LRZ. Noncompartmental estimation of pharmacokinetic parameters disclosed a 37% decrease in the total systemic clearance (CL) of LRZ in tetraplegic patients. Altered LRZ clearance was observed independently of significant changes in volume of distribution or serum protein binding. The early elimination of LRZ (0-10 hr) was characterized by wide fluctuations in serum concentration suggestive of impaired enterohepatic circulation and could be distinguished from LRZ elimination observed in able-bodied subjects. We conclude that decreased systemic CL and the altered terminal elimination profile of LRZ are attributable to the pathophysiology of SCI.
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PMID:Decreased systemic clearance of lorazepam in humans with spinal cord injury. 189 61

Recent studies have shown significant alterations in serum alpha-1-acid glycoprotein (AGP) concentration in epileptic patients, the major protein to which basic drugs bind in serum. To date, there have been no reports in the literature investigating the effects of generalized seizures as a result of repeatedly administered electroconvulsive therapy (ECT) on this serum protein. As the cyclic antidepressants are basic drugs that bind avidly to AGP, an alteration of AGP concentration by ECT could represent a mechanism of interaction between two somatic treatments for depression. We therefore determined the serial AGP concentrations of 10 patients undergoing repeated ECT. AGP concentrations were determined by radial immunodiffusion on serum samples obtained at each treatment session (course of treatment ranged from 4 to 12 sessions over 8 to 32 days). The mean (SD) AGP concentrations prior to and at the end of ECT were 88.7 (18.3) mg/dl and 97.8 (24.8) mg/dl, respectively. Variability in AGP concentration was observed over the course of treatments with no consistent trend (intrapatient coefficients of variation averaged 11.5%). These data suggest that serial ECT does not produce consistent, significant changes in serum AGP concentrations and should have limited effects on altering the serum protein binding and, therefore, pharmacological effects of concurrently administered cyclic antidepressants.
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PMID:Effect of electroconvulsive therapy on serum concentration of alpha-1-acid glycoprotein. 191 3

The relationships between total and free serum concentrations of phenytoin and the clinical control of seizures were investigated retrospectively in 114 patients. Total phenytoin levels were measured by enzyme-modified immunoassay (EMIT), and the free fraction by ultrafiltration at 37 degrees C using 14C-labelled phenytoin as a tracer. The median free fraction in 188 serum samples was 13.7% (range 8.9-27.0%). The free fraction was greater than 18% in 34 (18.1%) of the serum samples. In all but 5 samples, a likely reason for the elevated free fraction could be determined. The identifiable reasons were commonly hypoalbuminaemia and the presence of liver or renal disease. There was a significant negative correlation between serum albumin level and free fraction of phenytoin (n = 90, r = -0.68, p less than 0.001). The free phenytoin concentration was strongly correlated with the total phenytoin concentration in serum (n = 188, r = 0.94, p less than 0.001). The total phenytoin concentration provided as good an indication of clinical response as the free concentration in 91 patients (85.8% of the patients for whom response could be reliably determined). In the other 15 (14.2%) patients, free phenytoin concentrations were better related to clinical effect. These patients generally had significant reductions in the serum protein binding of phenytoin. The relationship between phenytoin toxicity and free serum concentrations was particularly strong--in 14 patients with toxicity, the total serum concentration of phenytoin was greater than 80 mumol/L in only 42.9% of cases, while the free phenytoin concentration was greater than 8 mumol/L in 85.7% of the cases (p less than 0.05 by chi-square test).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Clinical response in epilepsy in relation to total and free serum levels of phenytoin. 195 33

We suggest that the following therapeutic regimen be followed in cases of isoniazid poisoning in children. In cases of intractable seizure activity in a child which remains unexplained, consider isoniazid poisoning. Give pyridoxine as an intravenous bolus to all children in whom isoniazid toxicity is suspected, who exhibit seizure activity and are known to have been exposed to isoniazid, or who have a history of ingesting one gram or more of isoniazid. It should be given on a gram-for-gram basis, and the clinician need not await serum isoniazid levels before administering pyridoxine. It can be safely given at a rate of five grams per three minutes in a 50 ml volume. In fact, serum isoniazid determinations are not available in many emergency departments and have not been shown to correlate closely with symptomatology. When available, serum isoniazid levels at best are subject to variability owing to sampling procedures (serum protein must be removed within two hours of sampling). The result is that serum isoniazid levels play only a minor role in the emergency department management of isoniazid poisoning. To potentiate the antidotal effects of pyridoxine, diazepam (0.1 mg/kg) may be given intravenously, preferably at a second intravenous site. Because the lactic acidosis seen after seizures resolves spontaneously, and because metabolic alkalosis may result following excess lactate loading, administration of bicarbonate is usually not necessary, and may be harmful in some cases. After pyridoxine treatment, syrup of ipecac may be given to empty the stomach.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Emergency department management of children with acute isoniazid poisoning. 309 25

Cerebrovascular permeability to protein (CVP-p) was assessed in rats following the systemic injection of either kainic acid (KA) or harmaline. The extravasation of a foreign (horseradish peroxidase, HRP) or an endogenous (rat immunoglobulin G, IgG) tracer protein was determined using immunohistochemical methods. During KA-induced seizures, an extravasation of both HRP and presumed IgG occurred in similar forebrain loci; a lamina-specific extravasation occurred within the dorsal hippocampus. During harmaline-induced tremors protein extravasation also occurred, but was tracer dependent. HRP reaction product was observed within the inferior olive, the cortex of the cerebellar vermis and the neocortex. However, IgG-like immunoreactivity was only detected within the circumventricular organs of harmaline-treated rats. Because KA, but not harmaline, is neurotoxic, the results are consistent with an influence of endogenous serum protein extravasation on seizure-related hippocampal damage. Possible homeostatic properties of altered CVP-p are also considered.
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PMID:Foreign and endogenous serum protein extravasation during harmaline tremors or kainic acid seizures in the rat: a comparison. 314 May 71

This investigation was designed to determine the effect of fever on the neurotoxicity of theophylline as reflected by the concentrations of this drug that cause convulsions in experimental animals. Fever was produced in male, inbred, adult Lewis rats (approximately 180 g) by sc injection of brewer's yeast; an elevation of body temperature of 1.2 +/- 0.4 degrees C (mean +/- SD) was achieved at the time of the pharmacodynamic measurements. Theophylline was infused iv at a rate of 1.03 mg/min until the onset of maximal seizures. Drug concentrations in serum, serum water, brain, and cerebrospinal fluid (CSF) at that time were determined by high-performance liquid chromatography. Compared with the control group, the group of febrile rats had statically significantly lower serum protein concentrations, decreased serum protein binding of theophylline, and slightly increased theophylline concentrations in the CSF at the onset of seizures. Inasmuch as theophylline concentrations in the CSF reflect the concentrations of this drug in the biophase, the results of this study show that fever does not increase the sensitivity of the central nervous system to the neurotoxic effects of theophylline in rats. In fact, a statistically significant positive correlation between theophylline concentrations in the CSF and body temperature was found in this investigation, suggesting a decreased sensitivity of the animals to the neurotoxic effects of theophylline at higher body temperature.
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PMID:Kinetics of drug action in disease states. XXVI: Effect of fever on the pharmacodynamics of theophylline-induced seizures in rats. 317 43

The concentration and time dependence of caffeine-induced neurotoxicity was determined by infusing rats intravenously with caffeine at a rate of about 5, 12.5, and 25 mg kg-1 min-1 until the onset of generalized seizures which occurred at about 82, 28, and 11 min, respectively. The concentration of caffeine in the serum, brain, and cerebrospinal fluid at onset of seizures increased with decreasing infusion rate; the concentrations of caffeine metabolites were negligible and serum protein binding was not affected by the infusion rate. In another experiment, one group of rats was infused with caffeine for 60 min at about 2.2 mg kg-1 min-1 whereas another group was infused with solvent only. Both groups were then immediately infused with caffeine at about 22 mg kg-1 min-1 until onset of seizures. Caffeine concentrations at that time in serum, brain, and cerebrospinal fluid were significantly higher in the caffeine-pretreated animals than in the solvent-pretreated controls. The same pretreatment 17 hr before the fast infusion of caffeine had no apparent effect on caffeine concentrations at onset of seizures. These results show that functional tolerance to the seizure-inducing effect of caffeine in rats develops within minutes and that it is reversible within hours or less.
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PMID:Rapid development of functional tolerance to caffeine-induced seizures in rats. 325 98

The purpose of this investigation was to determine whether the neurotoxicity of theophylline is altered in advanced pregnancy. Sprague-Dawley rats that were 20 days pregnant and nonpregnant rats of the same age and strain received infusions of aminophylline until onset of maximal seizures which occurred after 28 and 30 minutes respectively. Theophylline concentrations at this endpoint in serum (total) and CSF were similar but serum (free) and brain concentrations were slightly different in pregnant rats. Theophylline serum protein binding determined by equilibrium dialysis was lower in pregnant rats. Fetal serum concentrations at onset of seizures in the mother were similar to maternal brain and CSF concentrations and correlated significantly with the former. It is concluded that advanced pregnancy has a negligible effect on the neurotoxic response to theophylline in rats.
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PMID:Theophylline neurotoxicity in pregnant rats. 333 45

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