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

The majority of patients with acute liver failure (ALF) die waiting for orthotopic liver transplantation (OLT). No other treatment modality is shown to improve survival. This study was conducted to assess the safety and feasibility of hepatocyte transplantation (HT) and subsequent engraftment and function of donor cells. Functional and structural integrity of cryopreserved and thawed human hepatocytes were assessed by their morphological characteristics, induction of P-4501A1 transcription, and survival in vivo by xenotransplantation into rats. Five patients with severe ALF underwent intrasplenic (4 patients) and/or intrahepatic (2 patients) HT through angiography under cyclosporine immunosuppression. All patients had grade III to IV encephalopathy and factor V levels less than 0.5 U/mL, were ventilator and dialysis dependent, and were not OLT candidates. Three of the 5 patients who survived 48 hours after HT had substantial improvement in encephalopathy scores, arterial ammonia levels, and prothrombin times. Clinical improvement was paralleled by an increase in aminopyrine and caffeine clearances. All 3 patients lived substantially longer than expected based on clinical experience after HT (12, 28, and 52 days) but eventually died. Postmortem examination showed the presence of transplanted hepatocytes in liver and spleen by light microscopy and fluorescent in situ hybridization (FISH). Cryopreserved and thawed human hepatocytes can be transplanted into recipients with ALF with some acceptable but definite complications. Engraftment of donor hepatocytes was proven by histological examination and FISH by both transjugular biopsy and at autopsy. Improvement in brain edema, encephalopathy grade, and clearance of antipyrine and caffeine suggested function, albeit with a 24- to 72-hour delay posttransplantation.
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PMID:Hepatocyte transplantation in acute liver failure. 1064 76

Five patients with acute encephalopathy underwent methylprednisolone pulse (mPSL-P), hypothermia and their combination therapies (3 cases, 1 case and 1 case, respectively), with excellent outcome. Two cases with severe brain edema survived. One had severe brain damage as a sequelae. The remaining one recovered well after the combination therapy with mPSL-p and mild hypothermia, despite complete obstruction of the fourth ventricle on the first CT scan; the sequelae, hemiplegia and intelligent disturbance, was only mild. Four patients who received mPSL-P therapy within 6 hours after the onset of CNS symptoms recovered well though one was left with epilepsy. These results indicate that mPSL-P and/or hypothermia therapy will be chosen as the treatment of acute encephalopathy.
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PMID:[Efficacy of methylprednisolone pulse and mild hypothermia therapies in patients with acute encephalopathy]. 1065 54

In the management of severe pediatric brain injury, attention has previously been paid to brain edema, ICP elevation and low cerebral perfusion pressure (CPP). However, in the acute stage within 3-6 hours after trauma, brain hypoxia and hyperglycemia associated with diffuse brain injury are often observed. We have pointed out brain thermo-pooling (elevation of brain tissue temperature) and brain hypoxia caused by defective release of oxygen from hemoglobin (due to decrease in red blood cell enzyme (DPG)) as a new mechanism of brain injury. To treat these pathologic changes, we have developed a brain hypothermia treatment, the major purpose of which is to prevent brain hypoxia, brain thermo-pooling, neurohormonal changes causing cytokine encephalopathy, and a selective, radical-mediated damage of the dopamine A10 nervous system. The brain tissue temperature is initially adjusted to 35 degrees C with adequate cerebral oxygenation, followed by brain hypothermia at 34 degrees C for 1 weeks to prevent brain hypoxia, free radical reactions, brain edema and ICP elevation. What is most difficult in the pediatric brain hypothermia treatment is to maintain metabolic balance in the injured brain tissue and pulmonary infections associated with an immune crisis. When a rapid elevation of serum glucose is noted it is critical to lower the value because glucose quickly penetrates the blood-brain barrier and increases pyruvate and lactate by inhibiting the TCA cycle metabolism. Thus, hyperglycemia during brain hypothermia treatment is one of the major target of management. Another problem is immune crisis associated with secondary pulmonary infections. To prevent them, early enteral nutrition and replacement of L-arginine were most useful, as well as preconditioning for rewarming as follows: serum albumin > 3.0 g/dl; lymphocyte > 1500/mm3; T-H (CD4) lymphocytes > 55%; serum glucose, 120-140 mg/dl; vitamin A > 50 mg/dl; Hb > 12 g/dl and 2,3 DPG, 10-15 mumol/gHb; O2 ER, 23-25% and AT-III, > 100%. The clinical benefit of this therapy is still controversial.
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PMID:[Brain hypothermia treatment for the management of severe pediatric brain injury]. 1072 86

Encephalitis/encephalopathy is a neurological syndrome characterized by acute onset, symptoms of intracranial hypertension accompanying severe sequels or death. Encephalitis is caused by microbial infection of central nervous system, such as neurotrophic or conventional viruses. Infectious encephalopathy shows similar clinical symptoms to acute encephalitis, without any evidence of inflammation and microbial infection in brain tissues. The national epidemiological surveillance of the diseases is carried out to study the frequency and prognosis of patients with both diseases. The principal treatment is quite different in the both, in the former the eradication of microbial from the brain and in the latter the reduction of pressure of brain edema. Furthermore, the improvement of the brain with severe destruction requires such new step to reduce the activities of enzymes or cytokines to destroy brain tissues, as a mild hypothermia to lower body and brain temperature to 33-34 degrees C.
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PMID:[Current topics of acute encephalitis and encephalopathy: introductory remarks]. 1072 88

CT/MRI findings, laboratory examinations and prognoses of 42 patients with acute encephalopathy (AE) (Japan Coma Scale > or = 200) were reported. 1. Findings on CT/MRI were divided into the following 7 categories: Group 1 (normal), Group 2 (CT/MRI looked normal in acute phase, but brain atrophy developed and progressed slowly by weeks or months), Group 3 (CT/MRI looked normal within a few days after the onset of AE, but cortical laminar necrosis developed at 4-5 days after the onset), Group 4 (marked brain edema developed within 2 days after the onset of AE), Group 5 (AE with symmetric thalamic lesions), Group 6 (symmetric pallidum, lesions on MRI which appeared after brain edema disappeared), and Group 7 (the brain shrinked during acute phase, which normalized on the follow up CT/MRI). 2. Serum AST elevated in approximately 50% of the patients with AE. Sixty percent of them exhibited DIC, whose prognoses were poor. Cerebrospinal fluids (CSF) neopterin (NP) and/or interleukin (IL)-6 were elevated in all the 8 patients examined. In the two cases whose serum NP and IL-6 were measured at the same time, their values in the CSF were higher than those in the serum in one case, and almost the same in the other. In a patient with a condition mimicking hemorrhagic shock and encephalopathy, serum IL-6 concentration was very high (94,000 pg/ml). 3. Mild hypothermia (around 34 degrees C) combined with methylprednisolone pulse therapy was excellently effective on AE. A 6-year-old boy exhibited tonsillar herniation at admission recovered well to be able to run. 4. Differentiation between Reye syndrome and HSE, and the pathogenesis of AE were also discussed.
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PMID:[Infection-related acute encephalopathy: CT scan/MRI finding, laboratory examination and prognosis]. 1072 91

Mild hypothermia is effective in the prevention of brain edema associated with cerebral ischemia and traumatic brain injury. Brain edema is also a serious complication of acute liver failure (ALF). To assess the effectiveness of hypothermia in ALF, groups of rats were subjected to hepatic devascularization (portacaval anastomosis, followed 48 hours later by hepatic artery ligation), and body temperatures were maintained at either 35 degrees C (hypothermic) or 37 degrees C (normothermic). Mild hypothermia resulted in a significant delay in the onset of severe encephalopathy and in reduction of brain water content compared with normothermic ALF rats (control [n = 8] 80.22%; ALF-37 degrees C [n = 8] 81.74%; ALF-35 degrees C [n = 8] 80.48% [P <.01 compared with ALF-37 degrees C]). This protective effect was accompanied by a significant reduction of cerebrospinal fluid (CSF) (but not plasma) ammonia concentrations (CSF ammonia: control: 0.05 mg/dL; ALF-37 degrees C: 1.01 mg/dL; ALF-35 degrees C: 0.07 mg/dL, P <.01 compared with ALF-37 degrees C). In vivo cerebral microdialysis studies revealed that mild hypothermia resulted in a significant reduction of extracellular glutamate concentrations in the brains of rats with ALF (control: 1. 06 micromol/L; ALF-37 degrees C: 2.74 micromol/L; ALF-35 degrees C: 1.49 micromol/L [P <.01 compared with ALF-37 degrees C]). These findings suggest that: 1) mild hypothermia is an effective approach to the prevention of the central nervous system consequences of experimental ALF; and that 2) the beneficial effect of hypothermia is mediated via mechanisms involving reduced blood-brain transfer of ammonia and/or reduction of extracellular brain glutamate concentrations. Mild hypothermia may be an effective approach to delay the onset of brain edema in patients with ALF awaiting liver transplantation.
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PMID:Mild hypothermia delays the onset of coma and prevents brain edema and extracellular brain glutamate accumulation in rats with acute liver failure. 1073 42

There is increasing evidence that central noradrenaline (NA) transport mechanisms are implicated in the central nervous system complications of acute liver failure. In order to assess this possibility, binding sites for the high affinity NA transporter ligand [3H]-nisoxetine were measured by quantitative receptor autoradiography in the brains of rats with acute liver failure resulting from hepatic devascularization and in appropriate controls. In vivo microdialysis was used to measure extracellular brain concentrations of NA. Severe encephalopathy resulted in a significant loss of [3H]-nisoxetine sites in frontal cortex and a concomitant increase in extracellular brain concentrations of NA in rats with acute liver failure. A loss of transporter sites was also observed in thalamus of rats with acute liver failure. This loss of NA transporter sites could result from depletion of central NA stores due to a reserpine-like effect of ammonia which is known to accumulate to millimolar concentrations in brain in ischemic liver failure. Impaired NA transport and the consequent increase in synaptic concentrations and increased stimulation of neuronal and astrocytic noradrenergic receptors could be implicated in the pathogenesis of the encephalopathy and brain edema characteristic of acute liver failure.
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PMID:Loss of noradrenaline transporter sites in frontal cortex of rats with acute (ischemic) liver failure. 1091 85

We treated two children with influenza-associated acute encephalopathy by a combination of mild hypothermia and steroid pulse therapy. Case 1, a 2-year-and-3-month-old boy, admitted to our hospital 7 days after the onset of central nervous symptoms. The brain MRI-CT revealed laminar cortical necrosis and severe brain edema. EEG showed very low voltage. Brain edema improved by the combination therapy. He had sequelae, but was able to eat. Case 2, a 1-year-and-10-month-old boy, admitted to our hospital 5 days after the onset of central nervous symptoms. Brain MRI showed frontal dominant cortical edema. EEG showed high voltage delta bursts. The combination therapy was effective, but he remained mental handicapped. The outcome was better compared to our previous cases of acute encephalopathy. The combination therapy is intended to counteract cytokines, and was considered to be an effective treatment against acute encephalopathy associated with an influenza virus infection.
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PMID:[Effects of mild hypothermia and steroid pulse combination therapy on acute encephalopathy associated with influenza virus infection: report of two cases]. 1091 71

Hemorrhagic shock and encephalopathy syndrome (HSES) is a severe disease that affects previously healthy infants of less than 1 year of age and is associated with significant mortality and neurologic morbidity. It is characterized by sudden onset of shock, convulsions and coma, bleeding due to severe coagulopathy, fever, diarrhea, metabolic acidosis, and hepatorenal dysfunction. Central nervous system involvement with recurrent seizures and brain edema is the most common cause of high mortality and neurological morbidity. In this report, we describe four patients of HSES and review the initial and follow-up neurological features, electroencephalography findings, and the results of neuroradiological examinations of this catastrophic illness.
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PMID:Hemorrhagic shock and encephalopathy syndrome: neurologic features. 1096 47

In a newborn infant with galactose-1-phosphate uridyltransferase deficiency and encephalopathy, brain magnetic resonance imaging revealed cytotoxic edema in white matter. Using in vivo proton magnetic resonance spectroscopy, we detected approximately 8 mmol galactitol per kilogram of brain tissue, an amount potentially relevant to the pathogenesis of brain edema.
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PMID:In vivo evidence of brain galactitol accumulation in an infant with galactosemia and encephalopathy. 1117 26

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