Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020672 (hypothermia)
17,327 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Results of neuropathologic, spectroscopic, and neurochemical studies continue to confirm a major role for ammonia in the pathogenesis of the central nervous system complications of both acute and chronic liver failure. Damage to astrocytes characterized by cell swelling (acute liver failure) or Alzheimer Type II astrocytosis (chronic liver failure) can be readily reproduced by acute or chronic exposure of these cells in vitro to pathophysiologically relevant concentrations of ammonia. Furthermore, exposure of the brain or cultured astrocytes to ammonia results in similar alterations in expression of genes coding for key astrocytic proteins. Such proteins include the structural glial fibrillary acidic protein, glutamate transporters, and peripheral-type (mitochondrial) benzodiazepine receptors. Brain-blood ammonia concentration ratios (normally of the order of 2) are increased up to fourfold in liver failure and arterial blood ammonia concentrations are good predictors of cerebral herniation in patients with acute liver failure. Studies using 1H magnetic resonance spectroscopy in patients with chronic liver failure reveal a positive correlation between the severity of neuropsychiatric symptoms and brain concentrations of the brain ammonia-detoxification product glutamine. Increased intracellular glutamine may be a contributory cause of brain edema in hyperammonemia. Positron emission tomography studies using 13HN3 provide evidence of increased blood-brain ammonia transfer and brain ammonia utilization rates in patients with chronic liver failure. In addition to the use of nonabsorbable disaccharides and antibiotics to reduce gut ammonia production, new approaches to the treatment of hepatic encephalopathy by lowering of brain ammonia include the use of L-ornithine-L-aspartate and mild hypothermia.
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PMID:Pathophysiology of hepatic encephalopathy: a new look at ammonia. 1260 99

Mild hypothermia (32 degrees C-35 degrees C) reduces intracranial pressure in patients with acute liver failure and may offer an effective adjunct therapy in the management of these patients. Studies in experimental animals suggest that this beneficial effect of hypothermia is the result of a decrease in blood-brain ammonia transfer resulting in improvement in brain energy metabolism and normalization of glutamatergic synaptic regulation. Improvement in brain energy metabolism by hypothermia may result from a reduction in ammonia-induced decrease of brain glucose (pyruvate) oxidation. Restoration of normal glutamatergic synaptic regulation by hypothermia may be the consequence of the removal of ammonia-induced decreases in expression of astrocytic glutamate transporters resulting in normal glutamate neurotransmitter inactivation in brain. Randomized controlled clinical trials of hypothermia are required to further evaluate its clinical impact.
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PMID:Mild hypothermia in the prevention of brain edema in acute liver failure: mechanisms and clinical prospects. 1260 20

A 41-year-old man was admitted to our hospital suffering from generalized convulsion with a high fever and disturbed consciousness one week after exhibiting flu-like symptoms. We made a diagnosis of acute viral encephalitis, based on the clinical features and the evidence of pleocytosis with an increase in protein in the CSF. On admission, MRI was normal and CRP was negative. The levels of transaminase, ammonia, and blood sugar were normal, so that an adult Reye's syndrome could be ruled out. Herpes simplex encephalitis and influenza encephalopathy were also ruled out because of viral examinations, and specific agents could not be determined. Clinical symptoms subsided once after he was treated with dexamethasone, acyclovir, and anti-convulsants, until generalized convulsion accompanied by a high fever again occurred on the 9th day. On the 18th day, the patient showed anisocoria and ataxic respiration due to severe brain edema. Mild hypothermia therapy to rectal temperature 35 degrees C was induced under mechanical ventilation. Cranial CT taken 3 days after the therapy began to show the improvement of the brain edema. After 7 days of the therapy, his clinical symptoms began to recover dramatically. On the 46th day, he was discharged from hospital without showing almost any neurological symptoms. Mild hypothermia therapy should be considered for adult patients as well as non-adult patients suffering from acute encephalitis with severe intracranial hypertension.
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PMID:[Successful use of mild hypothermia therapy in an adult patient of non-herpetic acute encephalitis with severe intracranial hypertension]. 1283 82

Isolated hepatocytes in suspension provide a number of advantages for use in bioartificial liver device, however, poor stability of this cell preparation at physiological temperatures is an apparent barrier preventing their use. We therefore investigated the integrity and differentiated function of isolated rat hepatocytes under conditions of mild hypothermia. Isolated hepatocytes were suspended in a bicarbonate buffered saline medium, supplemented with glucose and bovine serum albumin (BSA), and maintained for 48 h at 25 degrees C on a rotary shaker under an atmosphere of 95% O2 and 5% CO2. Under these conditions there was no significant decline in cell viability and good preservation of cellular morphology on transmission electron microscopy for at least 24 h. Isolated hepatocytes in suspension at 25 degrees C were also able to maintain normal Na+ and K+ ion gradients. The cellular energy status ([ATP], ATP/ADP ratio, cytoplasmic and mitochondrial redox potentials), metabolic function (urea synthesis and ammonia removal), albumin synthesis and phase I and phase II drug detoxification activity of these cells were also maintained for at least 24 h post isolation. These observations demonstrate the robust nature of mildly hypothermic isolated hepatocytes in suspension and encourage further studies re-examining the feasibility of using this cell preparation in bioartificial livers.
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PMID:Maintenance of integrity and function of isolated hepatocytes during extended suspension culture at 25 degrees C. 1295 84

Acute liver failure results in encephalopathy and brain edema that is characterized by astrocytic cell swelling. Molecular biological techniques have led to the identification of alterations in expression of several genes coding for key astrocytic proteins in acute liver failure. Such proteins include amino acid transporters, structural proteins, the endothelial cell glucose transporter GLUT-1, the mitochondrial "peripheral-type" benzodiazepine receptor, and the water channel protein aquaporin IV. Magnetic resonance spectroscopic studies reveal increased brain lactate concentrations that are positively correlated with severity of encephalopathy and brain edema in acute liver failure, suggesting a deficit of cellular oxidative capacity and impending brain energy failure. Mild hypothermia prevents brain edema in acute liver failure, and mechanisms responsible for this beneficial effect include reduced blood-brain ammonia transfer as well as normalization of astrocytic amino acid transport and brain energy metabolism. Further elucidation of the molecular mechanisms responsible for brain edema and encephalopathy in acute liver failure will undoubtedly lead to novel treatment strategies for these complications.
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PMID:Molecular neurobiology of acute liver failure. 1452 78

Increased intracranial pressure (ICP) in patients with acute liver failure (ALF) remains a major cause of morbidity and mortality. Conventional methods of ammonia reduction such as the use of lactulose do not improve outcome, and metabolic substrates such as L-ornithine L aspartate may offer more promise. Mannitol remains the mainstay of therapy. An important role for cerebral hyperemia in the pathogenesis of increased ICP has led to a reevaluation of established therapies such as hyperventilation, N-acetylcysteine, thiopentone sodium, and propofol. Recent studies have focused on the role of systemic inflammatory response in the pathogenesis of increased ICP and support the use of antibiotics prophylactically. Moderate hypothermia reduces ICP in patients with uncontrolled intracranial hypertension and prevents increases in ICP during orthotopic liver transplantation (OLT). Advances in understanding the pathophysiological basis of intracranial hypertension in ALF have outstripped appropriate testing of the newly generated ideas in appropriate clinical trials, and more effort should be mounted at a national level to organize the appropriate multicenter studies required.
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PMID:Intracranial hypertension in acute liver failure: pathophysiological basis of rational management. 1452 80

Brain edema and consequent increase in intracranial pressure is a major complication of acute liver failure (ALF) and is a major cause of death in this condition. Rapid accumulation of ammonia in brain has been implicated in the pathogenesis of brain edema in ALF. Increased brain ammonia may cause brain swelling via the osmotic effects of an increase in astrocytic glutamine concentration or by inhibition of glutamate removal from brain extracellular space. Acute liver failure results in altered expression of several genes in the brain, some of which code for proteins involved in central nervous system function such as the glutamate transporter GLT-1, the astrocytic structural protein, glial fibrillary acidic protein, and the water channel protein, aquaporin IV. Loss of expression of GLT-1 results in increased extracellular brain glutamate. Therapeutic measures currently used to prevent and treat brain edema in acute liver failure include mannitol; strategies aimed at lowering of gut ammonia production are generally ineffective. Studies in experimental animals suggest that mild hypothermia or the use of L-ornithine-L-aspartate may be useful in the prevention of brain edema in these patients.
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PMID:Brain edema in acute liver failure. 1502 58

Brain edema with intracranial hypertension is a major complication in patients with acute liver failure. Current therapies for this complication include a variety of pharmacologic and interventional measures, some of which are frequently associated with adverse effects or contraindications. Even though these measures usually allow the control of intracranial hypertension for a certain period of time, recurrence is common. New therapies are therefore needed. Increasing clinical and experimental evidence suggests that induction of mild hypothermia (32 degrees C-35 degrees C) may be a therapeutic alternative. Similar to traumatic brain injury or brain stroke, induction of mild hypothermia seems highly effective to reduce intracranial pressure in patients with acute liver failure. Several mechanisms by which mild hypothermia may prevent brain edema and intracranial hypertension in this condition have been disclosed and may include beneficial effects on ammonia metabolism, as well as on the disturbances of brain osmolarity, cerebrovascular hemodynamics, brain glucose metabolism, inflammation, and others. Improvement of systemic hemodynamics and amelioration of liver injury may be other benefits of the systemic induction of mild hypothermia, but the impact of potential adverse events, such as infection, should also be taken into account. At a time when mild hypothermia is increasingly used in several specialized centers, performance of a randomized controlled trial seems critical to confirm the benefits of mild hypothermia in acute liver failure and to provide adequate guidelines for its use.
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PMID:Mild hypothermia for acute liver failure: a review of mechanisms of action. 1575 51

In acute liver failure (ALF) patients that have raised increased intracranial pressure (ICP), mortality remains unacceptably high. There has been an explosion in the knowledge about the pathophysiological basis of raised ICP but treatment modalities are limited. Current therapy is aimed at reducing the circulating ammonia levels and attempts to reduce brain swelling which are only moderately effective. More recently, cerebral hyperemia has been suggested as being of major importance in the pathogenesis of increased ICP providing a new look at interventions such as hyperventilation, N-acetylcysteine, thiopentone sodium and propofol. More recently studies have focused upon the role of systemic inflammatory response in the pathogenesis of increased ICP and support the use of antibiotics prophylactically. The application of moderate hypothermia to treat uncontrolled intracranial hypertension seems promising and its exact place will be decided in a large trial being planned in USA and Europe. Early data from studies in an animal model suggests that albumin dialysis is a promising new tool to treat intracranial hypertension in patients with ALF. The recent advance in our understanding of the pathophysiological basis of intracranial hypertension has provided the platform for the discovery of new treatments.
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PMID:Pathophysiological basis of therapy of raised intracranial pressure in acute liver failure. 1592 6

Encephalopathy, brain edema and intracranial hypertension are neurological complications responsible for substantial morbidity/mortality in patients with acute liver failure (ALF), where, aside from liver transplantation, there is currently a paucity of effective therapies. Mirroring its cerebro-protective effects in other clinical conditions, the induction of mild hypothermia may provide a potential therapeutic approach to the management of ALF. A solid mechanistic rationale for the use of mild hypothermia is provided by clinical and experimental studies showing its beneficial effects in relation to many of the key factors that determine the development of brain edema and intracranial hypertension in ALF, namely the delivery of ammonia to the brain, the disturbances of brain organic osmolytes and brain extracellular amino acids, cerebro-vascular haemodynamics, brain glucose metabolism, inflammation, subclinical seizure activity and alterations of gene expression. Initial uncontrolled clinical studies of mild hypothermia in patients with ALF suggest that it is an effective, feasible and safe approach. Randomized controlled clinical trials are now needed to adequately assess its efficacy, safety, clinical impact on global outcomes and to provide the guidelines for its use in ALF.
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PMID:Keeping cool in acute liver failure: rationale for the use of mild hypothermia. 1624 52


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