Neurological research
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Neurological research · Sep 2005
Comparative StudyComparison of ventricular drainage in poor grade patients after intracranial hemorrhage.
The selection of patients and treatment criteria for acute hydrocephalus and intracranial pressure (ICP) after intracranial hemorrhage remains unclear. In general neurosurgical practice, there is a tendency to use external ventricular drainage (EVD) for the patients. This study was undertaken to analyse the complications and efficiency of the different treatment modalities. ⋯ This study indicates that single and short-term use of EVD and/or early VP shunting are associated with a low risk of infection. Furthermore, early VP shunting may protect the brain from the irregular control of intracranial hypertension and may allow more time for resolution of CSF circulation and significantly lowers the mortality rates.
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Neurological research · Jul 2005
Comparative StudyMathematical model of the rupture mechanism of intracranial saccular aneurysms through daughter aneurysm formation and growth.
Daughter aneurysms have been strongly associated with saccular aneurysm rupture. We constructed a mathematical model to help explain this association as a possible hemodynamic mechanism for intracranial saccular aneurysm rupture. ⋯ Daughter aneurysm formation is a likely path to aneurysm rupture. The formation of a daughter aneurysm temporarily decreases the tensile stress within a parent aneurysm in which rupture is imminent, indicating a temporary protective role of daughter aneurysm development. Aneurysms harboring daughter aneurysms are at a more advanced stage of development, hence at a greater risk for rupture. The severity of the rupture risk can be estimated on the basis of daughter aneurysm geometry; aspect ratio lambda > 0.577 indicates a greater risk of rupture. Furthermore, daughter aneurysms with larger orifices are associated with a greater risk of rupture.
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Neurological research · Jun 2005
Comparative StudyAccuracy of frameless and frame-based image-guided stereotactic brain biopsy in the diagnosis of glioma: comparison of biopsy and open resection specimen.
Tissue heterogeneity and rapid tumor progression may decrease the accuracy a prognostic value of stereotactic brain biopsy in the diagnosis of gliomas. Correct tumor grading is therefore dependent on the accuracy of biopsy needle placement. There has been a dramatic increase in the utilization of frameless image-guided stereotactic brain biopsy; however, its accuracy in the diagnosis of glioma remains unstudied. ⋯ Both frameless and frame-based MRI-guided stereotactic brain biopsy are safe and accurately represent the larger glioma mass sufficiently to guide subsequent therapy. Large tumor volume had a higher incidence of non-concordance. Increasing the number of specimens taken through the long dimension of large tumors may improve diagnostic accuracy.
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Neurological research · Jun 2005
Comparative Study Clinical TrialCerebral salt wasting syndrome in patients with aneurysmal subarachnoid hemorrhage.
Hydroelectrolytic disturbances are part of the complications of subarachnoid hemorrhage. Cerebral salt wasting syndrome (CSWS) must be considered when hyponatremia is associated with a decrease in circulating volume. We performed this study to determine the clinical characteristics and management paradigm of patients with serum sodium concentration abnormalities and aneurysmatic subarachnoid hemorrhage. ⋯ Cerebral salt wasting syndrome, occurring in some patients with subarachnoid hemorrhage, is more commonly related to certain specific anatomic locations of the ruptured aneurysm, responds to sodium replacement therapy and fluids and can be diagnosed and treated based on the clinical, hydroelectrolytic and hemodynamic course of the patient. Further studies are needed to define the underlying mechanism of this condition.
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Neurological research · Jun 2005
Comparative Study Clinical TrialChanges in hemodynamics during isoflurane and propofol anesthesia: a comparison study.
Volatile anesthetics are thought to impair cerebral autoregulation more than i.v. anesthetics. However, few comparative studies have been carried out in humans. The aim of our study was to evaluate the differences in cerebral hemodynamic changes after introduction of isoflurane (a volatile anesthetic) and propofol (an i.v. anesthetic). ⋯ Propofol but not isoflurane decreased cerebral blood velocity thus restoring cerebral autoregulation and the coupling between cerebral blood flow and cerebral metabolism.