Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019158 (hepatitis)
 30,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Brain edema and intracranial hypertension are major complications of fulminant hepatic failure. We investigated the development of brain edema and monitored intracranial pressure in rabbits with toxic hepatitis induced by galactosamine. Using a gravimetric technique to assay small tissue samples, we found that brain water was increased in cortical grey matter, but not in subcortical, mesencephalic, and pontine white matter, or in the cerebellum. The proportion of water in cerebral grey matter in control animals was 80.96% +/- 0.49% with significant elevations to 81.96% +/- 0.47% and 82.95% +/- 1.49% in mild and severe encephalopathy, respectively. This corresponds to mean increases in tissue volume of 5.5% and 11.7%. The hippocampal grey matter also accumulated water in severe encephalopathy with a 30% increase in mean tissue volume. The regional increase in brain water was confirmed by the wet-dry weight method. Neither hypotension, hypoxia, nor severe hypoglycemia were present to account for the edema. Intracranial pressure was monitored continuously in unanesthetized rabbits via an intraventricular cannula as encephalopathy developed. The pressure was normal in the mild stage, but was intermittently elevated in animals with severe encephalopathy. The normal range of intracranial pressure was 2-9 mmHg and the range of peak values in galactosamine-treated rabbits was 18-55 mmHg. The regional differences in brain water accumulation suggest that cellular swelling and abnormalities in the movement of water across the blood-brain barrier may account for the brain edema in this model.
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PMID:Brain edema in rabbits with galactosamine-induced fulminant hepatitis. Regional differences and effects on intracranial pressure. 377 Mar 59

We report two cases in which neurological examination met the Second Tentative Criteria for Brain Death of Chiba University Medical School, except for spontaneous contractions of the rectus abdominis muscle during apnea testing. In Case 1, a 54-year-old man with brainstem infarction, judgement of brain death was suspended initially, but was ultimately declared after the contractions were deemed to be spinal in origin. MRI findings after declaration and autopsy were compatible with brain death. In Case 2, a 27-year-old man with fulminant hepatitis and subsequent severe brain edema, judgement was postponed due to detection of the contractions at the second testing, and was ceased with family intent. Several cases of abnormal gross and fine movements in brain-dead patients have been reported. These paradoxical phenomena may confuse an inexperienced examiner and delay the declaration of brain death. Whether brain death should be considered real death of the person or not, neurologists should be aware of the occasional presence of neurological problems in the diagnosis of brain death, such as spinally-mediated movements. Since the major opposition to brain death is the distrust of medical doctors, we propose a pilot system of a "brain death judging doctor".
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PMID:[Neurological problems in the diagnosis of brain death--observation of spinally-mediated movements in brain-dead patients and proposal of a "brain death judging doctor" system]. 817 37

Tacrolimus is a potent immunosuppressive agent and has been used in liver transplantation (LTx) for nearly a decade. More than 70% of children can be maintained on tacrolimus monotherapy, without steroids, by the end of 1 yr post-Tx. This freedom from steroids does not appear to change significantly in subsequent years. The use of steroids has obvious metabolic and cosmetic disadvantages, besides affecting linear growth in children. The present study identifies why some children still require steroid therapy after successful LTx. One hundred and sixty-six consecutive pediatric patients who had undergone primary LTx between October 1989 and December 1992, were included in this study. Follow-up ranged from 6 to 9 yr (mean 7.5 +/- 0.8 yr). One hundred and forty-one children were alive in November 1998 and these patients constituted the study group. Their current rate of prednisone use, reason for prednisone use, and prednisone dose were examined retrospectively. Of the 141 patients, 139 (98.5%) had stopped taking steroids at some time-point after LTx. Thirteen patients (9%) were off immunosuppression altogether (group I), 97 were undergoing tacrolimus monotherapy (group II), and the remaining 31 were receiving therapy with steroids and tacrolimus (group III). The mean prednisone dose at the last follow-up was 6.5 +/- 4.9 mg/day (median 5.0 mg/day). In group III, two children were never weaned off steroids because of inadequate follow-up (both lived outside the country), and the remaining 29 children completely stopped steroid therapy at some time-point after LTx; however, prednisone was re-introduced for clinically suspected or biopsy-proven rejection in 24. Seven children in group III had completely stopped immunosuppressive therapy either as part of an immunosuppression reduction protocol (n = 3) or for suspected or proven post-transplant lymphoproliferative disorder (PTLD) (n = 4). In eleven of the 18 children in group III, requirement of steroid for rejection was thought to be related, in part, to non-compliance. In three children in group III, steroids were re-introduced for renal dysfunction, and two of these patients subsequently received a kidney Tx. In one child with cerebral ischemia, steroids were used to reduce brain edema, and another child had features of auto-immune hepatitis. Hence, almost all children can be weaned off steroids when tacrolimus is used as primary immunosuppression after primary LTx. However, approximately 22% of children may need re-institution of steroids because of late acute rejection or renal dysfunction. The concomitant use of other non-steroidal immunosuppressive agents with tacrolimus may further reduce the dose and rate of steroid use.
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PMID:Reasons why some children receiving tacrolimus therapy require steroids more than 5 years post liver transplantation. 1132 46

In Japan, living donor liver transplantation has been established as a therapeutic strategy for the rescue of terminal liver disease, including fulminant hepatic failure that shows no signs of recovery. We performed living donor liver transplantation for a subacute type fulminant hepatic failure patient, who had developed a hepatic coma of grade V (no right reflex, no response to pain stimuli). The electroencephalogram indicated almost flat waves. However, cranial computed tomography revealed that brain edema was not severe in this case. The recipient did not have hepatitis virus and had not taken medication that had been determined to cause hepatitis. The recipient was a 12-year-old boy, 165.5 cm in height and 45.5 kg in weight. The donor was his mother, who was 42 years old; her blood type, type B, was identical to that of the boy. The mother's right hepatic lobe was transplanted to her son (the recipient). The post-transplantation condition of recipient was quite excellent. He recovered consciousness 3 days after liver transplantation, and rapidly attained normal hepatic function. The donor was discharged on the 20th postoperative day without any problems. The recipient was discharged on the 79th postoperative day without any neurological deficits. This case suggests that deep coma without electroencephalogram waves may not be a contraindication for living donor liver transplantation in fulminant hepatic failure patients, if the brain edema is not severe.
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PMID:Complete recovery from fulminant hepatic failure with severe coma by living donor liver transplantation. 1274 61

To evaluate indications for living-donor liver transplantation (LDLT), we examined 25 consecutive patients with acute hepatic failure admitted to the Department of Medicine III, Kyushu University Hospital between November 2001 and July 2004. These cases were diagnosed as fluminant hepatitis (n=13), severe-type acute hepatitis (n=11), or late-onset hepatic failure (n=1). Nine patients (36%) improved with conservative treatment (conservative treatment group), and the other 16 patients (64%) needed LDLT (LDLT indicated group). In the LDLT indicated group, 11 patients received LDLT, and 4 died because of lack of LDLT donors (n=3), or renal failure (n=1). The LDLT survival rate was 82% (9/11); two patients died due to hepatic infarction and brain edema, respectively. It is very important to predict whether a patient with acute hepatic failure belongs to the conservative treatment group or the LDLT indicated group on admission. Therefore, we analyzed variables that could influence prognosis, including, parameters of hepatic function and platelet counts on admission, and relative hepatic volume (%), which represents the ratio of hepatic volume measured by CT relative to standard hepatic volume calculated with body surface area. Univariate logistic analysis showed that relative hepatic volume, gammaglutamyl transpeptidase (gamma-GTP), alkaline phosphatase (ALP), and the ratio of direct bilirubin to total bilirubin (DB/TB) were significant predictors of survival (p < 0.05). Using these factors plus prothrombin time (PT) and total cholesterol, both of which were relatively significant predictors of survival (p < 0.2), we proposed a model for predicting the probability of survival by the stepwise method. Consequently, we proposed a model using four parameters: ALP, GGTP, PT, and relative hepatic volume (Volume) as shown below: p(%) = 1/(1+exp (-(-36.2375 + ALP x 0.0251 + gamma-GTP x 0.0102 + PT x 0.2558 + Volume 21.2158))) x 100. This model showed a significant correlation between prediction and consequence of survival (r2 = 0.7388, p = 0.0003). In conclusion, LDLT is an effective treatment for acute hepatic failure. The results of this study suggested that our model can adequately predict prognosis in the early phase of acute hepatic failure.
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PMID:[Evaluation of acute hepatic failure treated at the Department of Medicine III, Kyushu University Hospital: indications for living-donor liver transplantation]. 1573 74

Brain edema is a leading cause of death in fulminant hepatic failure (FHP). Animal studies are needed to gain further insight into its pathogenesis. The authors describe and analyze the results of brain studies in two animal models of FHF, the rabbit with galactosamine induced hepatitis and the anhepatic model of liver desvascularization. A gravimetric technique is used to determine water content in brain samples as small as 10 mg in weight. Results showed that water content is increased and correlates with the severity of encephalopathy in both experimental models of encephalopathy. The possible pathogenic role of ammonia and octanoic acid are discussed.
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PMID:Brain edema in acute liver failure. Insight from experimental studies. 1925 51

Living donor liver transplantation (LDLT) is the ultimate cure for fulminant hepatitis. Successful outcomes rely on the precise evaluation of the reversibility of hepatic encephalopathy, and a swift execution of necessary examination of both the donor and the recipient. The case was a 63-years old woman, presented with fever and loss of appetite. She was hospitalized for acute hepatitis and treated at a nearby hospital. She was transferred to the tertiary hospital for the acute deterioration of her liver function on the 7th day after the emergence of the initial symptoms. On the 10th day, she showed Grade 2 encephalopathy and underwent plasma exchange. She was transported to our hospital for possible LDLT on the 11th day. CT scan on arrival showed severe atrophy of her liver and no definite brain edema despite acutely deteriorating encephalopathy (Grade 3). LDLT was launched after 7 hours from her transport. She was discharged from the intensive care unit on the 6th day and was discharged without severe complications on 42th day after the LDLT.
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PMID:[A successful case of living donor liver transplantation performed in 7 hours for sub acute fulminant hepatitis]. 2297 67

Acute liver failure is uncommon but not a rare complication of liver injury. It can happen after ingestion of acetaminophen and exposure to toxins and hepatitis viruses. The defining clinical symptoms are coagulopathy and encephalopathy occurring within days or weeks of the primary insult in patients without preexisting liver injury. Acute liver failure is often complicated by multiorgan failure and sepsis. The most life-threatening complications are sepsis, multiorgan failure, and brain edema. The clinical signs of increased intracranial pressure (ICP) are nonspecific except for neurologic deficits in impending brain stem herniation. Computed tomography of the brain is not sensitive enough in gauging intracranial hypertension or ruling out brain edema. Intracranial pressure monitoring, transcranial Doppler, and jugular venous oximetry provide valuable information for monitoring ICP and guiding therapeutic measures in patients with encephalopathy grade III or IV. Osmotic therapy using hypertonic saline and mannitol, therapeutic hypothermia, and propofol sedation are shown to improve ICPs and stabilize the patient for liver transplantation. In this article, diagnosis and management of hepatic encephalopathy and cerebral edema in patients with acute liver failure are reviewed.
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PMID:Assessment and management of cerebral edema and intracranial hypertension in acute liver failure. 2368 64