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21 results of 8 texts with exact phrase : 'intracranial hypertension'.

1. NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS, vol. 2, 2006, No. 2 , , ,

Hanley DF, Feldman E, Borel CO, Rosenbaum AE, Goldberg AL.Treatment of sagittal sinus thrombosis associated with cerebral hemorrhage and intracranial hypertension.
Hanley DF, Feldman E, Borel CO, Rosenbaum AE, Goldberg AL.Treatment of sagittal sinus thrombosis associated with cerebral hemorrhage and intracranial hypertension.
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2. NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS, vol. 5, 2009, No. 1 , , ,

Echographic measurement of the optic nerve in patients with intracranial hypertension.
Gangemi M, Cennamo G, Maiuri F, D’Andrea F. Echographic measurement of the optic nerve in patients with intracranial hypertension.
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3. NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS, vol. 9, 2013, No. 1 , , ,

A significantly increased prevalence of IJVVI was recently also shown for transient monocular blindness [30], leucoaraiosis [15], primary exertional headache [23], primary intracranial hypertension [40] and chronic obstructive pulmonary disease [19].
Currently, US is one popular technique for imaging the venous system. In the field of neurology, research begun to focus in the mid-nineties of the past century primarily on impaired venous drainage in primarily venous disorders like cerebral venous and sinus thrombosis [12, 55]. Subsequently, primarily non-venous disease entities were studied. In transient global amnesia (TGA) an increased prevalence of IJV valve insufficiency (IJVVI) was seen which occurs in 20-30% of the normal population, but in up to 70% of TGA patients [1, 52, 54]. A significantly increased prevalence of IJVVI was recently also shown for transient monocular blindness [30], leucoaraiosis [15], primary exertional headache [23], primary intracranial hypertension [40] and chronic obstructive pulmonary disease [19]. More recent research data suggest that the venous system may play a considerable role in arterial stroke. Yu and co-workers found that an impaired ipsilateral venous drainage due to a hypoplastic or aplastic lateral sinus (transversus and sigmoid sinus) was accompanied by pronounced infarction leading to higher morbidity and mortality [65]. A further study analysed whether collapsed veins as a result of intracranial artery occlusion might influence the extent
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Site and mechanism for compression of the venous system during experimental intracranial hypertension.
Nakagawa Y, Tsuru M, Yada K. Site and mechanism for compression of the venous system during experimental intracranial hypertension.
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Venous obstruction and jugular valve insufficiency in idiopathic intracranial hypertension.
Nedelmann M, Kaps M, Mueller-Forell W. Venous obstruction and jugular valve insufficiency in idiopathic intracranial hypertension.
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4. NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS, vol. 9, 2013, No. 2 , , ,

Cerebral Hemodynamic Assessment with Transcranial Color Duplex in Intracranial Hypertension Experimental Model.
Cerebral Hemodynamic Assessment with Transcranial Color Duplex in Intracranial Hypertension Experimental Model.
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The measurement of PI is also an useful adjunct to guide the use of hyperosmolar therapy in various conditions with intracranial hypertension.
TCD PI has emerged as a surrogate marker for ICP. The measurement of PI is also an useful adjunct to guide the use of hyperosmolar therapy in various conditions with intracranial hypertension.
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The primary goal monitoring is to prevent secondary insults to the brain, primarily cerebral ischemia due to the posttraumatic vasospasm (PTV), and intracranial hypertension (ICH).
Critical care management of patients with traumatic brain injury (TBI) has undergone tremendous advances. Neurosurgeons, neurologists and neurointensivists, including military, have a large armamentarium of invasive monitoring modalities available to detect secondary brain injury and guide therapy. The primary goal monitoring is to prevent secondary insults to the brain, primarily cerebral ischemia due to the posttraumatic vasospasm (PTV), and intracranial hypertension (ICH). This lecture summarizes the advantages and the specific roles of transcranial Doppler (TCD) ultrasound to establish and monitor the presence of PTV and ICH.
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intracranial hypertension, posttraumatic vasospasm, transcranial Doppler ultrasound, traumatic brain injury.
intracranial hypertension, posttraumatic vasospasm, transcranial Doppler ultrasound, traumatic brain injury.
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CEREBRAL HEMODYNAMIC ASSESSMENT WITH TRANSCRANIAL COLOR DUPLEX IN INTRACRANIAL HYPERTENSION EXPERIMENTAL MODEL
CEREBRAL HEMODYNAMIC ASSESSMENT WITH TRANSCRANIAL COLOR DUPLEX IN INTRACRANIAL HYPERTENSION EXPERIMENTAL MODEL
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The image of the real-time ultrasound combined with pulsed Doppler system is a noninvasive and bedside method that allows the cerebral blood flow velocity and evaluation and flow resistance measurement in intracranial hypertension patients.
The image of the real-time ultrasound combined with pulsed Doppler system is a noninvasive and bedside method that allows the cerebral blood flow velocity and evaluation and flow resistance measurement in intracranial hypertension patients. The intracranial hypertension is an important clinical condition and represents high risk to patients with acute brain injury. In this study, we describe in an experimental model, application of cerebral duplex to evaluate changes in pre and post-intracranial hypertension.
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The intracranial hypertension is an important clinical condition and represents high risk to patients with acute brain injury.
The image of the real-time ultrasound combined with pulsed Doppler system is a noninvasive and bedside method that allows the cerebral blood flow velocity and evaluation and flow resistance measurement in intracranial hypertension patients. The intracranial hypertension is an important clinical condition and represents high risk to patients with acute brain injury. In this study, we describe in an experimental model, application of cerebral duplex to evaluate changes in pre and post-intracranial hypertension.
read the entire text >>

In this study, we describe in an experimental model, application of cerebral duplex to evaluate changes in pre and post-intracranial hypertension.
The image of the real-time ultrasound combined with pulsed Doppler system is a noninvasive and bedside method that allows the cerebral blood flow velocity and evaluation and flow resistance measurement in intracranial hypertension patients. The intracranial hypertension is an important clinical condition and represents high risk to patients with acute brain injury. In this study, we describe in an experimental model, application of cerebral duplex to evaluate changes in pre and post-intracranial hypertension.
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animal model, intracranial hypertension, transcranial color duplex.
animal model, intracranial hypertension, transcranial color duplex.
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The clinical course of patients with fulminant hepatic failure (FHF) is often worsened by loss autoregulation of cerebral blood flow (CBF), which leads to cerebral edema and intracranial hypertension.
The clinical course of patients with fulminant hepatic failure (FHF) is often worsened by loss autoregulation of cerebral blood flow (CBF), which leads to cerebral edema and intracranial hypertension. The development these complications is an important event in patients with FHF that needs intensive care and urgent liver transplantation. To evaluate the hemodynamic and cerebrovascular autoregulation capacity of patients with fulminant hepatic failure before and after liver transplantation and those not undergoing transplantation.
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Transcranial Doppler can evaluate intracranial hypertension relief after this surgical procedure measuring brain blood flow velocities, pulsatility and resistivity index.
shunt (RVSS) is proposed in order to solve the question of ventricular catheterization complications related to siphoning. Transcranial Doppler can evaluate intracranial hypertension relief after this surgical procedure measuring brain blood flow velocities, pulsatility and resistivity index.
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5. NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS, vol. 10, 2014, No. 1 , , ,

Evaluation of the clinical benefit of decompression hemicraniectomy in intracranial hypertension not controlled by medical treatment.
Jourdan C, Convert J, Mottolese C. Evaluation of the clinical benefit of decompression hemicraniectomy in intracranial hypertension not controlled by medical treatment.
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6. NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS, vol. 10, 2014, No. 2 , , ,

Sonographic assessment of the optic nerve sheath in idiopathic intracranial hypertension.
Bauerle J, Nedelmann M. Sonographic assessment of the optic nerve sheath in idiopathic intracranial hypertension.
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7. NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS, vol. 11, 2015, No. 1 , , ,

The study was carried out in 28 clinically healthy subjects (15 men and 13 women in the age range from 22 to 79, mean age 51.3±20.5 years without a history of ophthalmic diseases and syndromes) and 20 patients (12 women and 8 men in the age range from 21 to 85 years, mean age 45±17 years) with ocular pathology: 10 of the patients were with papilledema caused by various pathological processes (bilateral papillitis or intracranial hypertension, brain tumors, arteriovenous malformation, dural transverse sinus venous thrombosis), 6 of the patients were with retinal detachment, 1 – with macular degeneration, 1 – with intraocular metastasis of the right eye, 1 – with amaurosis and visual hallucinations and 1 – with hemophthalmos.
The study was carried out in 28 clinically healthy subjects (15 men and 13 women in the age range from 22 to 79, mean age 51.3±20.5 years without a history of ophthalmic diseases and syndromes) and 20 patients (12 women and 8 men in the age range from 21 to 85 years, mean age 45±17 years) with ocular pathology: 10 of the patients were with papilledema caused by various pathological processes (bilateral papillitis or intracranial hypertension, brain tumors, arteriovenous malformation, dural transverse sinus venous thrombosis), 6 of the patients were with retinal detachment, 1 – with macular degeneration, 1 – with intraocular metastasis of the right eye, 1 – with amaurosis and visual hallucinations and 1 – with hemophthalmos.
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Echographic measurement of the optic nerve in patients with intracranial hypertension.
Gangemi M, Cennamo G, Maiuri F, D'Andrea F. Echographic measurement of the optic nerve in patients with intracranial hypertension. Neurochirurgia (Stuttg) 30, 1987:53-55.
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8. NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS, vol. 12, 2016, No. 2 , , ,

The measurement of PI is also an useful adjunct to guide the use of hyperosmolar therapy in various conditions with intracranial hypertension.
Growing body of literature demonstrates the usefulness of transbulbar B-mode sonography of the optic nerve for detecting increased ICP in patients requiring neurocritical care. TCD findings compatible with the diagnosis of brain death include systolic spikes without diastolic flow or with diastolic reversed flow, and no demonstrable flow in a patient in who flow had been clearly documented on a previous examination. Assessment of cerebral autoregulation using TCD blood flow velocity has been previously validated to be predictive of outcome following traumatic brain injury. The commonly used bedside methods of determining the status of autoregulation include the transient hyperemic response test, the leg-cuff deflation test and reaction to spontaneous blood pressure fluctuations. TCD PI has emerged as a surrogate marker for ICP. The measurement of PI is also an useful adjunct to guide the use of hyperosmolar therapy in various conditions with intracranial hypertension.
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