UMLS:C0085584 - FACTA Search

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Query: UMLS:C0085584 (encephalopathy)
18,178 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Levels of BZ receptor ligands are elevated in the brain of animal models of FHF and humans with FHF. Some of these ligands have agonist properties and some are known 1, 4-BZs which bind to the DS receptor. Much of the BZ receptor ligand activity in HE is unidentified and it is possible that some may bind to receptor subtypes other than the DS receptor. 2. Average levels of BZ receptor ligands in the brain in HE do not appear to be sufficient to augment GABAergic tone to a degree that would result in severe encephalopathy (i.e. coma). However, these ligands have a heterogeneous distribution in the brain and their neuroinhibitory effects may be potentiated by increased availability of GABA at GABAA receptors. Furthermore, that these ligands may contribute to HE is suggested by anecdotal reports of ameliorations of HE being induced in a majority of patients by the BZ receptor antagonist flumazenil. 3. The response of HE to flumazenil in humans is usually incomplete and in animal models may be modest. Potential explanations for these findings include pharmacokinetics, BZ receptor subtype specificity and higher levels of BZ receptor ligands in the brain in humans with HE than in animal models. 4. Certain BZ receptor ligands e.g. Ro 15-3505 and Ro 15-4513, that are structurally related to flumazenil, are more efficacious at ameliorating HE than flumazenil in animal models. These findings may be more dependent on differences in BZ receptor subtype specificity than differences in intrinsic activity. The properties of an ideal BZ receptor ligand for administration to a patient with HE would appear to be: (i) antagonist action at BZ receptors, (ii) no intrinsic activity apparent after a conventional pharmacologic dose, (iii) high specificity and affinity for BZ receptors, (iv) slow metabolism, and (v) absence of toxic effects. Promising ligands, such as Ro 15-3505, with weak partial inverse agonist actions and hence analeptic potential, require careful evaluation of their therapeutic index before clinical application. 5. BZ receptor ligands may be useful in the management of HE. Specifically, they may be given IV: (i) to reverse effects of exogenous BZs; (ii) to aid in the differential diagnosis of encephalopathy; (iii) to provide prognostic information; and (iv) to optimize brain function. They may also be given orally with the objective of reducing dietary protein intolerance in patients with chronic liver disease.
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PMID:Do benzodiazepine ligands contribute to hepatic encephalopathy? 811 87

Evidence suggests that liver disease per se may contribute to the cognitive and motor impairments encountered in chronic alcoholics. Neuropathologic studies reveal astrocytic changes (Alzheimer type II astrocytosis) in the brains of alcoholic cirrhotic patients who died in hepatic coma. Pathophysiologic mechanisms responsible for hepatic (portal-systemic) encephalopathy in alcoholics include the loss of neuron-astrocytic metabolic trafficking as well as selective alterations of serotoninergic and dopaminergic function. In addition, there is evidence to suggest that endogenous ligands for both central-type (GABA-related) and "peripheral-type" (astrocytic) benzodiazepine receptors are implicated in the pathogenesis of hepatic encephalopathy in these patients. Chronic liver disease may also interfere with brain thiamine homeostasis and thus contribute to the pathogenesis of the Wernicke-Korsakoff syndrome in chronic alcoholism.
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PMID:Cerebral dysfunction in chronic alcoholism: role of alcoholic liver disease. 897 45

The activity of glutamate decarboxylase, GABA-, aspartate-and alanine aminotransferases, the content of GABA, glutamate, aspartate and alanine were studied in the brain hemispheres and stem of rats that were undergoing the hypoglycemic coma as well as those rats had undergone 7-9 comas on the second day after the last coma. In hypoglycemia, the brain's content of glutamate, alanine and GABA decreased and content of aspartate increased; the activity of enzymes investigated did not change. On the second day after 7-9th hypoglycemic coma, the decrease of activity of glutamate decarboxylase in hemispheres and the decrease of GABA amount in brain stem were detected. This can be an evidence of decrease of GABA amount produced and secreted by nerve ends of the pathways leading from striata to substantia nigra. The detected changes result from multiple influence of hypoglycemia to the brain and may by important in the development of posthypoglycemic encephalopathy.
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PMID:[Enzyme activity and level of GABA-shunt substrates in rat brain during repeated exposure to hypoglycemic doses of insulin]. 925 15

There is scientific agreement that portal systemic encephalopathy (PSE) is caused morphologically by portal systemic shunts and biochemically by constituents of the portal venous blood. Ammonium has a key role in the pathogenesis of PSE. Direct correlations with the degree of PSE have been established exclusively with glutamine, i.e. the terminal product of the peripheral detoxification of ammonium. In PSE, ammonium is probably responsible for damage to astrocytic and neuronal cells. Ammonium's toxic effect is due to the intracerebral glutamine synthesis. After several metabolic steps, which will be discussed in detail, brain cell damage is caused directly or indirectly (exitotoxically) by energy deficiency. Hyperammonemia and PSE are each well defined though different forms of disturbance. Therefore, ammonium is not the sole decisive factor in the pathogenesis of PSE. We performed a detailed and critical analysis of all studies on amino acid therapy of PSE, especially those that were randomized and controlled. This analysis revealed a close and direct correlation between qualitative and quantitative dosages of amino acids on one hand, and parallel improvements of amino acid imbalance (essentially associated with PSE) and degree of PSE on the other. A close and direct dose/efficacy correlation must be assumed. Disturbed plasmatic amino acid homeostasis and cerebral monoaminergic neurotransmission are probably important pathogenic factors of PSE. A fundamental cofactor in the efficacy of each adequate amino acid therapy might be a substantial decrease of endogenous ammonium production. Physiologic benzodiazepines may also have an important function in the pathogenesis of PSE: not so, however, the glutamate-ergic and GABA-ergic neurotransmission, which are disturbed principally in PSE. In close correlation to pathogenesis, established and proposed therapies of PSE are critically discussed.
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PMID:New aspects on etiology, biochemistry, and therapy of portal systemic encephalopathy: a critical survey. 926 39

Numerous studies suggest that modifications in concentrations of both excitatory and inhibitory amino acids are implicated in the pathophysiology of portal-systemic encephalopathy (PSE), a neuropsychiatric disorder associated with chronic liver disease in humans. In this study, amino acid levels were measured by High Performance Liquid Chromatography (HPLC) in Cerebrospinal Fluid (CSF) of 10 dogs (age range: 3 mo.- 3 yr 4 mo.) exhibiting a congenital portal-systemic shunt, either intra or extra-hepatic, and 8 age-matched control dogs who showed no signs of hepatic or neurologic disorders. Dogs with congenital shunts manifested signs of encephalopathy such as disorientation, head pressing, vocalization, depression, seizures and coma. CSF from dogs with congenital shunts contained significantly increased amounts of glutamate (2 to 3-fold increase, p<0.01), glutamine (6-fold increase, p<0.05) and aromatic amino acids (phenylalanine, tyrosine and tryptophan) compared to CSF of control dogs. Concentrations of GABA and branched chain amino acids (valine, leucine, isoleucine) were within normal limits. Modifications of brain glutamate (an excitatory amino acid) as well as tryptophan (the precursor of serotonin) could contribute to the neurological syndrome characteristic of congenital PSE in dogs.
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PMID:Selective alterations of cerebrospinal fluid amino acids in dogs with congenital portosystemic shunts. 947 3

Careful clinical delineation and advances in analytical methods have opened new possibilities for the detection of inherited neurometabolic disorders, some of which require specific CSF analyses for diagnosis. Although patients suffering from these disorders have recognizable phenotypes, there are strong indications that remain many undiagnosed, leading to a continuation of futile diagnostic searches and, for most disorders, withholding of available rational therapy. As there is still widespread uncertainty about when to perform specialist CSF investigations, it is the aim of this paper to define the place for CSF investigations in the diagnostic work-up of a child with an encephalopathy of unknown origin. Most neurometabolic disorders can be identified through serum, plasma and urine analyses in conjunction with neuroradiological investigations. Whenever CSF investigations are performed, the analysis should include quantitative determination of lactate, pyruvate and amino acids, the latter by methods especially suited for CSF, in addition to cells, glucose, protein, immunoglobulin classes, specific immunoglobulins, and an evaluation of the blood-brain barrier. If the disease course is non-progressive or if extracerebral symptoms are present in addition to an encephalopathy, e.g. endocrinological, hepatic, muscular or renal symptoms, investigations of metabolites in CSF over and above lactate, pyruvate and amino acids are generally noncontributary. Specific CSF investigations, which are discussed in detail, test metabolic pathways of brain metabolism, especially of neurotransmission. For a successful diagnosis of these defects, analyses must be planned individually, before CSF samples are taken, based on family history, clinical findings and disease course. Different determinations require different logistics from taking of the sample to shipment. One indication for specialized CSF analyses including biogenic monoamines and GABA is severe neonatal/infantile epileptic encephalopathy. In addition to a therapeutic trial of B6, folinic acid should be tried empirically for two to three days as the emerging syndrome of folinic acid responsive seizures appears to be the underlying cause in a sizable proportion of patients. In later infancy and childhood, defects in the metabolism of the biogenic monoamines may be suspected in patients with (fluctuating) extrapyramidal disorders, in particular Parkinsonism dystonia or more general "athetoid cerebral palsy", and vegetative disturbances. A severe epileptic encephalopathy and progressive mental retardation may be present. Neuroimaging findings do not show specific lesions. Determinations of folates and organic acids in CSF appear at present only warrantable individually in special constellations, e.g. classical clinical findings and disease course suggestive of glutaryl-CoA dehydrogenase deficiency with repeated negative quantitative analyses of organic acids in urine. The diagnosis of disorders, which require specific analyses of CSF, can only be achieved by conscious diagnostic decisions based on a concept of the respective disease and repeated scrupolous expert clinical evaluation aided by an array of investigations in blood and urine as well as neuroimaging findings. No single one investigation in CSF can serve as a "selective screening" test. A growing awareness of these disorders is needed and should lead to increased and earlier diagnosis of patients through fewer rather than more lumbar punctures.
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PMID:Cerebrospinal fluid investigations for neurometabolic disorders. 963 60

Convulsive seizure with unconciousness is an adverse effect of new quinolone antibiotics including fleroxacin. A block of GABA receptor in CNS has been reported as pathomechanism. A 48-year-old female patient with Machado-Joseph disease (MJD) had encephalopathy induced by fleroxacin. She revealed unconsciousness after the administration of fleroxacin (200mg/day) for three days. Electroencephrogram (EEG) showed diffuse slow waves. The administration was discontinued and her consciousness became clear after a day. The abnormal findings on EEG disappeared gradually. The concentrations of fleroxacin were within normal limits in serum and cerebrospinal fluid. The patient with MJD might have a tendency to develop encephalopathy by fleroxacin, because the GABA-ergic nervous system could be involved in MJD.
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PMID:[Encephalopathy induced by fleroxacin in a patient with Machado-Joseph disease]. 1007 39

The ammonia and GABAergic neurotransmission hypotheses of the pathogenesis of hepatic encephalopathy (HE) have appeared to be unrelated and perhaps mutually exclusive. Observations in animal models of fulminant hepatic failure, that are consistent with increased GABAergic inhibitory neurotransmission contributing to the manifestations of HE, include: (i) abnormal visual evoked potential waveforms that resemble those induced by GABA(A)/benzodiazepine (BZ) receptor complex agonists; (ii) GABA(A)/BZ receptor complex antagonist-induced ameliorations of encephalopathy; (iii) increased resistance to drugs which decrease GABAergic tone; and (iv) hypersensitivity of CNS neurons to depression by GABA(A)/BZ receptor complex agonists. Mechanisms of increased GABAergic tone in HE may include the following: (i) increased brain concentrations of natural BZs; and (ii) increased GABA concentrations in synaptic clefts, possibly due to increased blood-brain-barrier permeability to GABA and a decrease in GABA(B) receptor density. Both neuroelectrophysiological and behavioral data indicate that ammonia concentrations in the range 0.75-2 mM induce increased excitatory neurotransmission. In contrast, recently, ammonia concentrations in the range 0.15-0.75 mM, i.e. concentrations that commonly occur in plasma in precoma HE, have been shown: (i) to increase GABA-induced chloride current in cultured neurons; and (ii) to enhance synergistically the binding of GABA(A)/BZ receptor agonists. In addition, increased ammonia concentrations enhance synthesis of neurosteroids in astrocytes, and some neurosteroids potently augment GABAergic neurotransmission. Thus, the modestly elevated concentrations of ammonia, that commonly occur in liver failure, may contribute to the manifestations of HE by enhancing GABAergic inhibitory neurotransmission. This concept appears to unify the ammonia and GABAergic neurotransmission hypotheses.
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PMID:Does ammonia contribute to increased GABA-ergic neurotransmission in liver failure? 1020 26

In this study, we attempted to clarify the mechanisms mediating cyclosporine-evoked convulsions. Cyclosporine (50 mg/kg, i.p.) significantly enhanced the intensity of convulsions induced by bicuculline (GABA receptor antagonist), but not those induced by strychnine (glycine receptor antagonist), N-methyl-D-aspartic acid, quisqualic acid or kainic acid (glutamate receptor agonists). Bicuculline plus cyclosporine-induced convulsions were significantly suppressed by an activation of GABAergic transmission with diazepam, phenobarbital and valproate. The GABA turnover estimated by measuring aminooxyacetic acid-induced GABA accumulation in the mouse brain was significantly inhibited by cyclosporine (50 mg/kg, i.p.). When cultured rat cerebellar granule cells were exposed to 1 microM cyclosporine for 24 hr, the specific [3H]muscimol (10 nM) binding to intact granule cells decreased to 53% of vehicle controls. The present study provides the first evidence suggesting that cyclosporine inhibits GABAergic neural activity and binding properties of the GABAA receptor. These events are closely related to the occurrence of adverse central effects including tremors, convulsions, coma and encephalopathy under cyclosporine therapy.
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PMID:Inhibition of GABA system involved in cyclosporine-induced convulsions. 1046 48

Epileptic and cognitive symptomatologies are among the most typical manifestations of uremic encephalopathy. Several guanidino compounds (GCs) may play an important role in the etiology of uremic encephalopathy. Four GCs appeared to be highly increased as well in serum, cerebrospinal fluid, and brain of uremic patients, whereas the levels of other metabolically relevant GCs were not or only moderately increased and others were even decreased. These highly increased compounds or "uremic" GCs are creatinine (CTN), guanidine (G), guanidinosuccinic acid (GSA), and methylguanidine (MG). All four compounds were shown to be experimental convulsants in brain concentrations similar to those found in uremic brain. We have described a possible mechanism for the contribution of GCs to uremic hyperexcitability, referring to the in vitro effects of uremic GCs on inhibitory and excitatory amino acid receptors. The excitatory effects of uremic GCs on the central nervous system may be explained by the activation of N-methyl-D-aspartate (NMDA) receptors by GSA, concomitant inhibition of GABA(A) receptors by uremic GCs, and other depolarizing effects. These effects might also indicate the putative contribution of uremic GCs to the etiology of uremic encephalopathy.
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PMID:Endogenous guanidino compounds as uremic neurotoxins. 1116 88

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