Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

Query: UMLS:C0020672 (hypothermia)
17,327 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have proposed a combined osmolar-hemodynamic disturbance to explain the presence of brain edema in fulminant hepatic failure, a major cause of death in this disorder. The concept of an osmotic disturbance in the brain, emphasizing the presence of astrocyte swelling and low-grade cerebral edema, has been expanded to the entire spectrum of liver disease. The mechanism of cerebral hyperemia in patients with FHF and brain swelling has been studied in experimental models linking hyperammonemia and glutamine generation in astrocytes to the development of this hemodynamic alteration. Measures to control cerebral hyperemia, such as mild hypothermia, are effective in preventing the development of brain edema in experimental models as well as intracranial hypertension in human disease.
...
PMID:Pathophysiology of brain edema in fulminant hepatic failure, revisited. 1172 92

Evidence from both clinical and experimental studies demonstrates that mild hypothermia prevents encephalopathy and brain edema in acute liver failure (ALF). As part of a series of studies to elucidate the mechanism(s) involved in this protective effect, groups of rats with ALF resulting from hepatic devascularization were maintained at either 37 degrees C (normothermic) or 35 C (hypothermic), and neurological status was monitored in relation to cerebrospinal fluid (CSF) concentrations of ammonia and lactate. CSF was removed via implanted cisterna magna catheters. Mild hypothermia resulted in a delay in onset of encephalopathy and prevention of brain edema, CSF concentrations of ammonia and lactate were concomitantly decreased. Blood ammonia concentrations, on the other hand, were not affected by hypothermia in ALF rats. These findings suggest that brain edema and encephalopathy in ALF are the consequence of ammonia-induced impairment of brain energy metabolism and open the way for magnetic resonance spectroscopic monitoring of cerebral function in ALF. Mild hypothermia could be beneficial in the prevention of severe encephalopathy and brain edema in patients with ALF awaiting liver transplantation.
...
PMID:Mild hypothermia prevents cerebral edema and CSF lactate accumulation in acute liver failure. 1172 93

Cerebral edema and hepatic encephalopathy are major complications of acute liver failure. Brain herniation caused by increased intracranial pressure as a result of cell swelling is the major cause of death in this condition. Evidence available currently suggests that the rapid accumulation of ammonia by the brain is the major cause of the central nervous system complications of acute liver failure. Increased brain ammonia may cause cell swelling via the osmotic effects of an increase in astrocytic glutamine concentrations or by inhibition of glutamate removal from brain extracellular space. Acute liver failure results in altered expression of several genes in brain, some of which code for important proteins involved in CNS function such as the glucose (GLUT-1) and glutamate (GLT-1) transporters, the astrocytic structural protein glial fibrillary acidic protein (GFAP) the "peripheral-type" benzodiazepine receptor (PTBR) and the water channel protein, aquaporin IV. Loss of expression of GLT-1 results in increased extracellular brain glutamate in acute liver failure. Experimental acute liver failure also results in post-translational modifications of the serotonin and noradrenaline transporters resulting in increased extracellular concentrations of these monoamines. Therapeutic measures currently used to prevent and treat brain edema and encephalopathy in patients with acute liver failure include mild hypothermia and the ammonia-lowering agent L-ornithine-L-aspartate.
...
PMID:Alterations in expression of genes coding for key astrocytic proteins in acute liver failure. 1174 25

Brain ischemia is the leading pathopysiological mechanism in the development of secondary brain damage after acute subdural hematoma (SDH). Hypothermia has been employed as an effective cerebroprotective treatment on brain injuries, but the control of the general condition is very difficult under hypothermia, and various severe complications have been reported. Cerebral acidosis in the ischemic area is one of the important factors augmenting the brain edema formation. Tris-(hydroxymethyl)-aminomethane (THAM) has been used as an alkalizing agent for acidosis on brain injury and is reported to be effective. In the present study, we used a rat acute SDH model to assess the effect of mild (35 degrees C) hypothermia and THAM combined treatment on brain water content, brain ischemia, and blood-brain barrier (BBB) permeability at 4 h after hematoma induction. Mild hypothermia did not significantly reduce the brain water content beneath the hematoma (79.5 +/- 0.2%) compared to normothermia (80.2 +/- 0.2%), but mild hypothermia combined to THAM resulted in a significant reduction (78.7 +/- 0.0%; p < 0.01). Combined with mild hypothermia, THAM treatment significantly reduced the Evan's blue extravasation (35 +/- 7 ng/g wet tissue; p < 0.05) compared to normothermia (63 +/- 7 ng/g wet tissue). Furthermore, the volume of infarction at 24 h after the hematoma induction (54 +/- 3 mm(3); p < 0.01) was significantly smaller by the combined treatment compared with normothermia (70 +/- 2 mm(3)). The present findings indicate that mild hypothermia of 35 degrees C combined with THAM presents a potent cerebroprotective strategy. The protection of the BBB is one of the possible cerebroprotective mechanisms in this rat acute SDH model.
...
PMID:Effects of mild hypothermia and alkalizing agents on brain injuries in rats with acute subdural hematomas. 1216 34

Patients with intracerebral hemorrhage (ICH) may deteriorate progressively after the initial ictus because of the brain edema around the hematoma. Recently, thrombin has become known to play an important role in the brain edema formation after ICH. In this study, we examined the effect of brain hypothermia on brain edema formation after hematoma and thrombin injection into the brain in rats and clarified the mechanism of hypothermia on brain damage. Anesthetized Sprague-Dawley rats received an injection of 100 microL of autologous blood or 10 units of bovine thrombin into the basal ganglia. Animals were divided into the normothermic and hypothermic groups, which were housed in a room at 25 degrees C and in a cold room at 5 degrees C respectively, for 24 hours. Brain water content was significantly reduced with hypothermia in the cortex (80.8 vs. 79.7% p < 0.05) after hematoma induction. After thrombin injection, brain water content was also significantly reduced with hypothermia in the basal ganglia (84.5 vs. 82.2%; p < 0.01), accompanied by a significant reduction in blood-brain barrier (BBB) permeability to Evan's blue (29.4 vs. 11.6 ng/g tissue; p < 0.05) and in accumulation of polymorphonuclear leukocytes (3.03 vs. 0.27 U of myeloperoxidase/g tissue; p < 0.01). This study indicates that brain hypothermia significantly reduces brain edema formation after hematoma and thrombin injection into the brain in rats. Inhibition of thrombin-induced BBB breakdown and inflammatory response with hypothermia appear to contribute to brain protection in this model.
...
PMID:Effects of brain hypothermia on brain edema formation after intracerebral hemorrhage in rats. 1216 13

We examined the effects of mild to moderate hypothermia and the influence of rewarming on electrophysiological function using somatosensory evoked potentials (SEPs) in transient focal ischemia in the brain. Nineteen cats underwent 60 min of left middle cerebral artery occlusion under normothermic (36 degrees-37 degrees C, n = 6) or hypothermic (30 degrees -31 degrees C, n = 13) conditions followed by 300 min of reperfusion with slow (120 min, n = 6) or rapid (30 min, n = 7) rewarming. Whole-body hypothermia was induced during ischemia and the first 180 min of reperfusion. SEPs and regional cerebral blood flow were measured before and during ischemia and during reperfusion. The specific gravity of gray and white matter was examined as the indicator of edema. During rewarming, SEP amplitudes recovered gradually. After rewarming, SEPs in the normothermic and rapid rewarming groups remained depressed (20%-40% of pre-occlusion values); however, recovery of SEPs was significantly enhanced in the slow rewarming group (p < 0.05). Hypothermia followed by slow rewarming reduced edema in gray and white matter. Rapid rewarming did not reduce edema in the white matter. The recovery of SEPs correlated with the extent of brain edema in transient focal ischemia. Rapid rewarming reduced the protective effect of hypothermia.
...
PMID:Effects of hypothermia and rewarming on evoked potentials during transient focal cerebral ischemia in cats. 1223 32

In patients with severe liver failure, brain edema is a frequent and serious complication that may result in high intracranial pressure and brain damage. This short article focuses on basic physiologic principles that determine water flux across the blood-brain barrier. Using the Starling equation, it is evident that both the osmotic and hydrostatic pressure gradients are imbalanced across the blood-brain barrier in patients with acute liver failure. This combination will tend to favor cerebral capillary water influx to the brain. In contrast, the disequilibration of the Starling forces seems to be less pronounced in patients with cirrhosis because the regulation of cerebral blood flow is preserved and the arterial ammonia concentration is lower compared with that of patients with acute liver failure. Treatments that are known to reverse high intracranial pressure tend to decrease the osmotic pressure gradients across the blood-brain barrier. Recent studies indicate that interventions that restrict cerebral blood flow, such as hyperventilation, hypothermia, and indomethacin, are also efficient in preventing edema and high intracranial pressure, probably by decreasing the transcapillary hydrostatic pressure gradient. In our opinion, it is important to recall that rational fluid therapy, adequate ventilation, and temperature control are of direct importance to controlling cerebral capillary water flux in patients with acute liver failure. These simple interventions should be secured before more advanced experimental technologies are instituted to treat these patients.
...
PMID:Brain edema in liver failure: basic physiologic principles and management. 1242 10

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.
...
PMID:Pathophysiology of hepatic encephalopathy: a new look at ammonia. 1260 99

The purpose was to evaluate the feasibility and intensive care complications of long-term hypothermia (>72 hours) in the treatment of severe brain edema after poor-grade subarachnoid hemorrhage (SAH) Hunt and Hess grade 4 to 5. Among 156 patients with SAH, 21 patients were treated with mild hypothermia (33.0 to 34.0 degrees C) combined with barbiturate coma because of severe brain edema and elevated intracranial pressure (>15 mm Hg) after early aneurysm clipping. Hypothermia was sustained for at least 24 hours after maintaining an intracranial pressure of <15 mm Hg. Nine patients were treated for <72 hours (group 1: mean 42.2 hours, range 8-66 hours) and 12 for >72 hours (group 2: mean 153.9 hours, range 78-400 hours). Three patients (14%) died during the hypothermia treatment. Good functional outcome after 3 months (Glasgow Outcome Score 4-5) was achieved in 10 patients (48%). The outcome did not differ between the two groups. All patients developed severe infections. In group 2 the mean value of minimal leukocyte counts during hypothermia was significantly lower (6.9 vs. 11.8 x 109/L; P = 0.001), and thrombocytopenia (<150 x 109/L) occurred significantly more often (48 vs. 33%; P = 0.032). In 48% of patients with poor-grade SAH, good functional outcome was achieved with combined mild hypothermia and barbiturate coma after early aneurysm surgery. This may be a feasible treatment even for longer than 72 hours. All patients developed severe infections as potentially hazardous side effects. To determine whether mild hypothermia alone is effective in the treatment of severe SAH patients, controlled studies to compare the effects of barbiturate coma alone, mild hypothermia alone, and combined barbiturate coma with hypothermia are needed.
...
PMID:Long-term hypothermia in patients with severe brain edema after poor-grade subarachnoid hemorrhage: feasibility and intensive care complications. 1282 72

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.
...
PMID:[Successful use of mild hypothermia therapy in an adult patient of non-herpetic acute encephalitis with severe intracranial hypertension]. 1283 82


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>

---