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Query: UMLS:C0036572 (seizures)
 80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The authors report a case of post-traumatic intracranial hypertension with ICP paroxysmal rise related to subclinical epileptic seizures. The interest of detecting such a phenomenon is emphasized from a practical therapeutic point of view.
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PMID:Post-traumatic acute rise of ICP related to subclinical epileptic seizures. 11 92

Six cases of interhemispheric subdural empyema are reported. It is a rare disease due to different infections origins. All of them are under 24 years old. The characteristics symptoms of these cases were intracranial infection, increased ICP, cerebral falx syndrome and focal seizure. The specific appearances on the films of angiography and CT scan were discussed. It could be located these lesions exactly. The surgical treatments were continuous drainage though cranial burr hole or excision of abscess. All 6 cases are cured with no recurrence.
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PMID:[Interhemispheric subdural empyema]. 257 54

There is a type of cerebral lesion, which kills neuronal cells at a later stage (greater than 48 hrs) post CA, while the systemic circulation is functioning normally. Although this lesion is probably dependent on multiple factors (----multiple therapies), a keyfactor in the pathogenesis is the loss of autoregulation and "finetuning" of the cerebral bloodflow according to local tissue metabolic needs. Although beneficial effect of almost none of the following therapies has been documented in randomised clinical studies, the following suggestions are made: a) In the CA-CPR phase: efficient respiratory care and external cardiac compressions (ECC), especially during bicarbonate administration; consider open chest CPR early, especially in cases of long arrest time and ineffective ECC. The socalled new CPR does not improve neurological outcome. b) In the post CPR phase: The non-autoregulated brain (cfr. focal ischemia) is kept preferentially at pCO2 values 25-30 mmHg, pO2 values greater than 100 mmHg, and normotension. Some form of stress, seizure and hyperthermia control prevents further imbalance metabolism/bloodflow. Relative dehydration, oncotic balance, steroids, early control of sepsis and uremia, early CT scan and measurement/control of ICP. All the above is currently grouped under "standard neuro-intensive therapy". Some other therapies, presently suggested by animal research are not very obvious, need first randomised clinical studies and are not suggested at this stage for clinical use: barbiturate coma, diphantoine, streptokinase, multifaceted therapy including hemodilution-brainflushing, Ca++ influx blocking drugs (lidoflazine). One such "innovative" therapy, barbiturate coma, has already been proven to be relatively ineffective (BRCT I) (Acta anaesth. belg., 1984, 25, suppl., 219-226).
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PMID:Brain protection in the immediate post-resuscitation phase. 651 33

Haemophilus influenzae type b (HIb) is the most common cause of bacterial meningitis in children with a mortality rate ranging from 1.6% to 14%. Most patients have a 2-3 day history of symptoms prior to admission. A few have fulminating disease with rapid neurological deterioration. Review of 191 cases of HIb meningitis revealed a mortality rate of 2.1% but all who died had fulminating meningitis (FM). Four of six patients with FM died. FM patients had symptoms for less than 24 hours before rapid neurological deterioration with increased ICP, seizures, coma and/or respiratory arrest. Review of 10 FM cases revealed that on admission, 5 had hypotension, 3 had thrombocytopenia, and 8 had coma. Typical CSF changes were seen in only 7. All fatal cases died within 24 hours. Brain swelling and tonsillar herniation were found at autopsy. SDS-PAGE outer membrane protein subtyping did not show one "killer strain". Animal and autopsy data suggest that diminished CSF outflow and cerebral edema contribute to increased ICP. To improve survival of FM patients, initial treatment must (1) decrease ICP below levels impairing cerebral perfusion, (2) maintain adequate ventilation and blood pressure, and include (3) LP when stable, (4) antibiotics, and (5) close monitoring. Utilizing these principles, two FM patients survived without major sequelae.
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PMID:Fulminating haemophilus influenzae b meningitis. 670 99

Treatment of ischemic deficits caused by vasospasm relies on enhancing cardiac output, inducing arterial hypertension, and expanding the intravascular volume in an attempt to improve CBF. Different treatment protocols exist from institution to institution to achieve these goals. The role of calcium-channel blockers now is well established. The newest focus on prevention of vasospasm includes tPA and a variety of anti-inflammatory drugs and potential neuroprotective drugs under research. Endovascular therapy for vasospasm has an increasing role in treating patients who are unable to tolerate induced hypertension or aggressive volume augmentation. We will return to our index case of the 63-year-old woman with SAH caused by an ACoA aneurysm to review some major management issues. After placing a ventriculostomy and slowly lowering ICP, the patient became alert and was fully oriented. She had aneurysm surgery on hospital day 2, with an uncomplicated immediate postoperative course. A Swan-Ganz catheter, placed for intraoperative monitoring, was kept in place and she was hydrated with 125 mL/hour of normal saline, achieving a PAWP of 10 to 16 mm Hg. Her mean arterial blood pressure without pharmacologic intervention was 95 to 110 mm Hg. She had continued clinical improvement with resolution of her left hemiparesis. On hospital day 5, her ventriculostomy was clamped because cerebrospinal fluid drainage was minimal. The following morning, the patient was arousable only to deep pain and her left side was flaccid. An emergent CT scan demonstrated no new hemorrhage, no increase in ventricular size, and no infarct. Vasospasm was considered the most likely cause. Hypertensive therapy was about to be initiated with a phenylephrine drip, but within an hour she was fully alert and moving all extremities equally. A search for other potential causes of neurologic decline was undertaken and revealed a phenytoin level of 5.5. It was thought that the patient most likely had had a seizure and that her clinical deterioration represented a postictal state. She received a bolus infusion of phenytoin. On hospital day 7, the patient became confused, insisting that her nurse was her son and ordering him out of her "apartment." Lower extremity weakness was detected. CT scan was unchanged. Phenylephrine was started but she developed precordial lead ST elevation and elevated cardiac enzymes. Topical nitrate therapy was initiated and phenylephrine was discontinued. The patient underwent emergent cerebral angiography, which demonstrated moderate to severe bilateral ACA spasm and moderate right MCA spasm.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Management of aneurysmal subarachnoid hemorrhage. 747 15

Neurologically critically ill patients, more often than others, are unable to communicate and, for a crucial period of time, have the vital functions of their brains hidden in the "black box" of the cranial vault behind a curtain of ambiguity and immobility. Customarily--and naively--we have relied upon beside clinical observations to pierce these barriers. Recent insights lead us to conclude that these "neurochecks" no longer suffice. This article has surveyed four major monitoring systems relied upon by neurointensivists to evaluate the pathophysiology of their patients. Of these, ICPM has the longest clinical track record. It provides a quantitative measure of the brain's capacity to withstand ICP and helps us monitor interventions to reduce it. To utilize this information intelligently requires an understanding of the principles of ICC, CPP, ICP wave morphology, and the hardware available. NICU-CEEG is a more recent introduction but, in principle, it transfers from the laboratory and operating suite to the ICU bedside, established correlations among electrophysiology, CBF, and CM. Digital EEG has allowed us to overcome significant logistical barriers and made NICU-CEEG a practical ICU tool. Early but impressive data suggest that NICU-CEEG has a significant clinical impact in patients with ACI, uncontrolled seizures, or coma. It also has revealed that NICU patients have a surprisingly high incidence of NCS, which may adversely affect their outcome. TCD has contributed greatly to diagnosis and management of SAH vasospasm. It also can be applied with benefit to patients with increased ICP, and has promising value in patients with ACI. It may prove beneficial in monitoring unstable cerebral embolization. Several bedside methods for monitoring CBF are available, but they require refinement to become true monitoring systems. These methods have revealed clinically important insights in patients with head trauma, SAH vasospasm, and ACI. Methods for directly monitoring CM and CMRo2 are improving our understanding of the brain's responses to injury, and becoming increasingly relevant to bedside management. SjvO2 can detect cerebral ischemia caused by overzealous hyperventilation and accelerated ICP. ICO holds promise as a noninvasive transcranial method for assessing Scvo2. We soon may see a scalp array of such detectors, similar to an EEG "montage," that allows us to assess multiregional Scvo2. To be useful, a clinical method should raise questions for further investigation. If the neurophysiologic monitoring systems described here provide us with some answers and lead us to ask useful new questions, they will prove their benefit to our patients.
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PMID:Neurophysiologic monitoring in the neuroscience intensive care unit. 747 20

Intracranial hypertension is the final common denominator of morbidity and mortality for diverse neurologic problems, and its proper treatment requires the heuristic application of the available therapeutic alternatives when the clinical situation and patient's prognosis warrants treatment. The initial therapeutic focus for ICP reduction should be control of factors that may aggravate intracranial hypertension such as inappropriate head and body position, elevated body temperature, pain, noxious stimuli, elevated airway pressure, elevated blood pressure, seizures, and hypotonic intravenous fluids. The appropriate conventional therapies (e.g., hyperventilation, osmotic agents, sedatives, barbiturates, and cerebrospinal fluid removal) should be selected based on the details of each individual case. Surgical removal of intracranial mass lesions may be indicated in some circumstances, particularly for intractable intracranial hypertension and progressive, severe brain tissue shifts.
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PMID:Management of intracranial hypertension. 841 24

Jugular venous oxygen saturation (SjvO2) measures the balance between cerebral oxygen delivery and cerebral oxygen consumption. Abnormalities that increase oxygen consumption (e.g., fever or seizures) or that decrease oxygen delivery (e.g., increased ICP, hypotension, hypoxia, hypocapnia, or anemia) can decrease SjvO2. Measuring SjvO2 continuously in the ICU in 177 patients with severe head injury, jugular venous desaturation (SjvO2 < 50%) was identified at least once in 39% of the patients. Approximately half of the episodes of desaturation were due to intracranial hypertension and half were due to systemic causes. The occurrence of one or more episodes of desaturation was strongly associated with a poor outcome, suggesting that the reduction in oxygen delivery identified with the SjvO2 monitoring contributed to the neurological injury. In the operating room, jugular venous desaturation was identified in 6 of 8 patients who were monitored during emergency evacuation of a traumatic intracranial hematoma. The lowest SjvO2 observed was 28%. In all 8 cases, the SjvO2 increased, from 47 +/- 10% to 63 +/- 5% after evacuation of the hematoma. Additional data supporting the hypothesis that these secondary insults identified with the SjvO2 monitoring contribute to the patient's neurological injury come from measurement of the extracellular concentrations of lactate and excitatory amino acids in the brain using microdialysis. Lactate concentration increased from 0.9 +/- 0.3 to 2.4 +/- 0.5 mumol/L and glutamate increased from 11.5 +/- 8.5 to 55.0 +/- 10.4 mumol/L during 8 episodes of jugular venous desaturation in 7 of 22 patients monitored with microdialysis. SjvO2 identifies global reductions in cerebral oxygenation due to a variety of causes, and is useful as a monitor for secondary insults in patients with severe head injury.
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PMID:SjvO2 monitoring in head-injured patients. 859 16

Cerebrovascular disease may be secondary to various disorders including hypothyroidism, sepsis, neoplasia, hypertension, vascular malformation, and coagulopathy. Brain infarction or hemorrhage should be suspected in an animal with a sudden onset of a focal brain lesion. The recent availability of CT and MRI has improved our ability to diagnose cerebrovascular disease in animals. Treatment is directed at maintaining adequate oxygenation of the brain, controlling elevations of ICP, treating seizures, and identifying and treating any underlying disease. With appropriate care, many animals can recover.
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PMID:Cerebrovascular disease. 881 57

Severe stroke is an emergency and requires rapid neurological assessment and diagnosis. CT scan is the first diagnostic step with the aim of finding out the extent, localization and possible pathophysiology of ischaemia in order to direct specific diagnostic and therapeutic options. An intracranial haemorrhage must be excluded. Early CT signs, including the size of the hypodensity and brain swelling, are important prognostic markers. Extracranial and transcranial Doppler sonography are valid for primary assessment of vascular pathophysiology and haemodynamics in most cases. Cerebral angiography should be performed if acute occlusion of the basilar artery or middle cerebral artery trunk is suspected and intra-arterial thrombolysis is a potential therapy. Intravenous thrombolyis has been proven to be effective in improving outcome in severe stroke; it is safe if the exclusion criteria are strictly applied. Prevention of secondary complications of stroke include general medical treatment with control of blood pressure, infections and cardiac and respiratory function, anti-coagulation. anti-oedematous treatment and surgical decompressive therapy for cerebellar and MCA space-occupying infarcts. Monitoring in the ICU is recommended. The medical therapy of intracerebral haemorrhage consists of control of ventilation and blood pressure, seizure prevention and anti-oedema treatment. Treatment of secondary ICH due to anti-coagulation or thrombolysis consists of administration of specific antidotes and the correction of the coagulopathy. Ventricular drainage should be performed when there is marked ventricular dilatation due to obstruction or blood in the ventricles. Most patients with cerebellar haemorrhage of more than 3 cm in diameter should undergo surgery to avoid brain-stem compression and hydrocephalus. In younger patients, non-dominant hemisphere putaminal and lobar haemorrhages with lateral displacement of midline structures and extensive oedema should be evacuated if the patient's level of consciousness deteriorates rapidly, or if the elevation of ICP cannot be controlled pharmacologically, and herniation is incipient. New techniques such as stereotactic and endoscopic evacuation still need to be tested prospectively. Patient selection for surgery should be cautious considering age, clinical status and possible contraindications such as cerebral amyloid angiopathy and coagulation disorders. Stroke therapy is rapidly becoming a focus of research and major changes in diagnostic and therapeutic options can therefore be expected.
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PMID:Severe stroke. 911 74


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