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

Following complete middle cerebral artery (MCA) infarction, up to 10% of all patients develop space-occupying brain edema. Despite intensive care therapy, 80% of these patients die due to transtentorial herniation. Over the past years, two alternative therapeutical options for the therapy of space-occupying MCA infarction have been developed. Decompressive surgery effectively decreases ICP and helps to improve outcome of these patients. Mortality can be reduced from 80% to less than 20%. Moderate hypothermia induced within the first hours after stroke has been shown to decrease ICP as well. However, the routine use of this therapy should not be recommended since further clinical studies are available. Knowledge on indications and limitations of different antiedema therapies will allow an effective therapy of increased ICP.
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PMID:[Therapy of increased intracranial pressure in space-occupying media infarcts]. 1041

Moderate hypothermia was induced in 30 patients with malignant middle cerebral artery (MCA) territory infarction. Patients were kept at 33 degrees C body-core temperature for 48 to 72 h, and ICP, CPP, and brain temperature were monitored. Outcome at 4 weeks and at 3 months after the stroke as well as side effects of moderate hypothermia were analysed. Mortality of malignant MCA infarction could be reduced from 80% in historical controls, to 43% (13/30) under hypothermia. During hypothermia elevated ICP values could be significantly reduced. Herniation due to a secondary rise of ICP after rewarming was the cause of death in all 13 patients. The most frequent complication of moderate hypothermia was pneumonia in 12 of the 30 patients (40%). Other severe side effects of hypothermia could not be detected. Moderate hypothermia may improve clinical outcome in patients with malignant MCA infarction.
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PMID:[Moderate hypothermia for the treatment of malignant middle cerebral artery infarct]. 1041 99

Following central nervous system insults, control of intracranial pressure may lessen the incidence of morbidity and mortality. Therapies to control intracranial pressure include osmolar agents, prevention of and control of seizures, drainage of cerebrospinal fluid, hypothermia, and barbiturates. Control of agitation and excessive patient movement are additional components in the management of ICP. Although opioids and benzodiazepines are generally effective, in a small subset of patients, alternative agents may be necessary. The authors present 2 children with increased ICP in whom propofol was used to provide sedation and control ICP. The use of propofol in this setting and its possible applications in the children with increased ICP are discussed.
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PMID:Propofol for sedation and control of intracranial pressure in children. 1070 29

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

Therapeutic hypothermia may improve outcome after severe head injury, but its efficacy has not been established in children with a severe head injury. The authors evaluated the effects of hypothemia (33-34 degrees C) in 9 severely closed head-injured children (under 16 years old). The cooling period was 3 to 21 days (mean 9.3). Hypothermia significantly reduced ICP when it reached 33-34 degrees C. From 3 to 6 months after injury, 6 (67%) of the 9 patients had good outcome (good recovery in 2 and moderate disability in 4), but 3 (33%) had poor outcome (severe disability in 2 and vegetative state in one). Complications, including infectious disorders (pneumonia, meningitis, sepsis), cardio-vascular system dysfunction (cardiac arrhythmia, hypotension), decreased platelet counts, hypokalemia, diabetes insipidus, acute pancreatitis occurred during hypothermia in 7 patients (78%). The results of this study suggest that treatment with hypothermia in children with severe head injury is often accompanied complications, but it is an effective method to control intracranial hypertension and may have improved the outcome.
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PMID:[Clinical analysis of hypothermia in children with severe head injury]. 1112 94

A nationwide survey of the management of severe head injury was carried out in 1988 by sending the questionnaires to 1,088 main neurosurgical hospitals in Japan. The items of the survey included annual number of patients with closed severe head injury (GCS score of 8 or less), place of patients' care, type of neuromonitorings, medical and surgical treatments, severity and outcome measures. Out of 1,088 questionnaires, 457 (42% response rate) were collected and analyzed. Characteristic features of the management status were the scarcity of patients annually in each institution, limited use of specific neuromonitorings, and variety of the actual managements. Aggressive managements such as hyperventilation, barbiturate and/or hypothermia have been employed in many hospitals to control high ICP. External and internal decompression are also used widely for intradural hematomas. These results clarified not only present status of Japan but also the problems to be solved in the actual managements.
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PMID:Result of nationwide survey of the management of severe head injury in Japan. 1178 52

We studied brain temperature and the effect of mild hypothermia in 58 patients after severe head injury (SHI). Brain tissue oxygen tension (ptiO2), carbon dioxide tension (ptiCO2), tissuie pH (pHti) and temperature (T.br) were measured using a multiparameter probe. Microdialysis was performed to measure glucose, lactate, glutamate, and aspartate in the extracellular fluid. Mild hypothermia (34 degrees-36 degrees C) was employed in 33 selected patients who had persistent increased intracranial pressure (ICP > 20 mmHg). Mild induced hypothermia decreased brain oxygen significantly from 33 +/- 24 mmHg to 30 +/- 22 mmHg (p < 0.05). The ptiCO2 (46 +/- 8 mmHg) was also significantly lower during mild hypothermia (40.4 +/- 4.0 mmHg), p < 0.0001). The pHti increased from 7.13 +/- 0.15 to 7.24 +/- 0.10 (p < 0.0001) under hypothermic conditions. Induced hypothermia may protect patients from secondary ischemic events by lowering the critical ptiO2 threshold, reducing anaerobic metabolism, and decreasing the release of excitatory aminoacids. However, patients with spontaneous brain hypothermia on admission (Tbr < 36.0 degrees C) showed significantly higher levels of glutamate as well as lactate, compared to all other patients, and had a worse outcome. Spontaneous brain hypothermia carries a poor prognosis, and was characterized by markedly abnormal brain metabolic indices.
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PMID:Relationship between brain temperature, brain chemistry and oxygen delivery after severe human head injury: the effect of mild hypothermia. 1187

This report describes a case of two-yr-old female with severe clinical Reye syndrome (Stage III and over), who was treated with not only conventional therapies but also mild hypothermia therapy. She presented acute episodes of tonic convulsion, hepatic dysfunction and intracranial hypertension. The first treatment consisted of the administration of anticonvulsant and mannitol, which were not effective to control intracranial pressure. Therefore, we induced mild hypothermia to rectal temperature of 33-34 degrees C for ten days to control intracranial hypertension as well as barbiturate therapy and hyperventilation under mechanical ventilation. Although she had hypokalemia, atelectasis of the right upper lung lobe and thrombocytopenia as the side effects during this therapy, we effectively controlled ICP. Glucose fluid therapy is recommended for Reye syndrome. We especially should pay attention to hypokalemia because of hyperventilation, absorption of potassium with insulin and transudation of potassium from the intestine. We determined the initiation and weaning of mild hypothermia therapy by findings of MRI as well as intracranial pressure. MRI findings will contribute to the determination of initiation and weaning of mild hypothermia therapy. Mild hypothermia therapy should be considered in patients with severe clinical Reye syndrome if conventional supportive therapies are not effective.
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PMID:[Successful use of mild hypothermia therapy in a patient with severe clinical Reye syndrome]. 1205 35

With complex and extensive pharmacological effects, corticosteroids are widely used in many clinical situations. A survey conducted to define the role of corticosteroids in various settings of peri-operative and critical care gave strong evidence to support that the use of corticosteroid is absolutely indicated in patients with adrenal insufficiency, asthma, anaphylaxis, acute spinal cord injury, and increased ICP resulting from brain tumors. As the benefits of corticosteroids are much in evidence, their uses are recommended to extend to postoperative antiemesis, acute respiratory failure (such as ARDS, COPD, and fat embolism), increased ICP associated with brain abscess, thyroid storm, and refractory hypothermia. Beneficial effect could be expected in septic shock with high-dose corticosteroids. Despite extensive reports on their versatile usefulness, evidence-based review did not recommend the use of corticosteroids in increased ICP associated with traumatic head injury and cerebral infarct, cardiac arrest, post-extubation airway edema, and aspiration pneumonia due to poor effectiveness let alone further worsening of the conditions. Great caution must be taken in clinical situations where administration of corticosteroids is considered contraindicated such as systemic fungal infection, hypersensitivity to the drug, intramuscular injection in idiopathic thrombocytopenia purpura, vaccination with live virus.
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PMID:An evidence-based review on the use of corticosteroids in peri-operative and critical care. 1219 90

There are several medical therapies available to lower unacceptable ICP. We advocate the stepwise institution of these therapies to maintain adequate CPP. At every step in the process, consideration of definitive surgical intervention (e.g., hemicraniectomy, clot evacuation) should be entertained. At this time, we cannot recommend hypothermia as a routine last step of therapy given the complications and lack of clinical effect described previously. Research into this therapy continues, however. The next several years may show us when, how, and in what situations this strategy can be applied.
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PMID:Medical management of increased intracranial pressure after spontaneous intracerebral hemorrhage. 1248 22

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