search

Active clinical trials for "Brain Edema"

Results 51-60 of 71

Cytoprotective Effect and Clinical Outcome of Perioperative Proesterone in Brain Tumors

Diffuse Traumatic Cerebral Edema

Neuronal injury is evident in elective craniotomy for space occupying lesions. Surgical trauma and mechanichal impact of the tumor causes neuronal injury. Neurosreroid progesterone is a neurotransmittern , trail to use in abolishing neurotoxcicty

Unknown status3 enrollment criteria

Tadalafil and Acetazolamide Versus Acetazolamide in Acute Mountain Sickness Prevention

Pulmonary EdemaCerebral Edema

To evaluate the additive value of tadalafil given together with Diamox (acetazolamide) in preventing acute mountain sickness in travelers to high altitude areas.

Completed3 enrollment criteria

Haemodynamical Optimization During Brain Surgery

Brain Edema

The decision to give fluids perioperatively could be based on methods used to identify preload responsiveness, either invasive or noninvasive estimates of stroke volume variation during mechanical ventilation. This study compares fluid management using invasive measurement SPV/PPV (Aisys GE) and noninvasive haemodynamic measurement (ClarSight, Edwards).

Unknown status9 enrollment criteria

Noninvasive Monitoring of Cerebral Blood Flow Autoregulation

Intracranial Pressure IncreaseCerebral Edema

Rheoencephalography (REG) shows promise as a method for noninvasive neuromonitoring, because it reflects cerebrovascular reactivity. This protocol will study clinical and technical conditions required to use REG. Additionally, our goal is to study noninvasive peripheral bioimpedance pulse waveforms in order to substitute invasive SAP. A previous study demonstrated that REG can be used to detect spreading depolarization (SD), the early sign of brain metabolic disturbance. SD can be measured invasively with DC EEG amplifiers only. Our goal is to create an automatic notification function for REG monitoring indicating change of clinical conditions.

Completed4 enrollment criteria

Comparison of the Application in Traumatic Brain Edema Between EIT and Non-invasive ICP Monitoring...

Brain Electrical Impedance;Non-invasive Intracranial Pressure

Brain edema is the main reason for the disability and lethality in traumatic brain injury, which is the most difficult part of emergency rescue. Recently, there is no medical equipment to monitor the early brain edema in clinic. We have found that Electrical impedance tomography (EIT) can perform the real-time and bedside monitoring of brain electrical impedance after single-dose mannitol treatment, which may be a new strategy for the surveillance of brain edema. In this study, we would like to compare the application in traumatic brain edema between EIT and Noninvasive intracranial pressure (ICP) monitoring, including the progress of brain edema, the relationship between impedance and ICP, and the improvement for the patients' prognosis. EIT would probably be a new image strategy for the treatment of traumatic brain injury.

Unknown status6 enrollment criteria

Study on the Relationship Between Asymmetric Vascular Sign of Cortex and Prognosis in Massive Cerebral...

Cerebral InfarctionCerebral Edema

Susceptibility weighted imaging (SWI) technology has developed in the decade which is being a kind of cerebrovascular disease diagnostic tools in the clinical application, especially for paramagnetic material (such as DNA hemoglobin and hemosiderin) has a high sensitivity. The change of the signal on SWI bases on the change of local oxygenated hemoglobin content in the blood and deaeration hemoglobin content ratio, which can be used to indirectly reflect the hypoxia group oxygen intake fraction (OEF) and cerebral metabolic rate. When the intracranial vascular occlusion, corresponding responsibility vascular blood flow area of brain tissue will occur hypoperfusion, brain tissue will improve the compensation in accordance with its own OEF, causing ischemia area inside the venous drainage of deaeration hemoglobin content ratio increases and the hypointensity on SWI ,which display the asymmetric cortical vessel sign (ACVS). Studies have suggested that ACVS is more prone to early neurological deterioration and has a poor long-term outcome. After recanalization of ischemic stroke, the presence of equal CVS(return to normal) on SWI is associated with a good clinical outcome. In addition, the relationship between ACVS grade and collateral circulation in patients with acute ischemic stroke has been studied. For patients with massive cerebral infarction, the relationship between ACVS on SWI and the clinical prognosis of cerebral edema and cerebral hemodynamics is not completely clear. In this study, the clinical data of patients with massive cerebral infarction will be analyzed to explore the relationship between ACVS, cerebral edema , cerebral hemodynamic and clinical prognosis. Sodium aescinate is widely used in cerebral edema caused by cerebral hemorrhage or cerebral infarction.The main mechanism of sodium aescinate is anti - inflammatory, anti - exudate, anti - oxygen free radical, anti - edema, increase vein tension, improve blood circulation and nerve protection. In this study, investigators will investigate whether the application of sodium aescinate had an effect on ACVS on SWI in patients with massive cerebral infarction. Plasma s100-β, procalcitonin, neutrophil count, serum fibronectin, and endothelin-1 could predict cerebral edema in patients with cerebral infarction, this study will analyze the relationship between these markers and ACVS on SWI in patients with massive cerebral infarction.

Unknown status10 enrollment criteria

Coagulation Activation by Hyperosmolar Agents in Intracranial Hypertension

Intracranial HypertensionCerebral Edema

Osmotherapy consists in the therapeutic use of osmotically active substances with the aim of reducing the volume and therefore the intracranial pressure. It therefore represents an essential component in the clinical management of cerebral edema and intracranial hypertension, whether they are a consequence of head trauma, ischemic or hemorrhagic stroke, and neoplasm or neurosurgical procedures. The current study aims at evaluating in vivo the effects on haemostasis parameters of hypertonic saline solutions at different concentration, as compared to mannitol, in patients with neuroradiological signs (CT / MRI) of cerebral edema / non-traumatic intracranial hypertension.

Withdrawn15 enrollment criteria

Study on Data Acquisition and Image Characteristics of Brain Multifrequency EIT in Healthy People...

Cerebral HemorrhageCerebral Ischemia2 more

The goal of this observational study is to compare the differences in the features of cerebral multifrequency EIT(cMFEIT) images between healthy subjects and patients with brain diseases and to explore the possibility of applying multifrequency EIT to intracranial abnormality detection.16 healthy volunteers and 8 patients with brain diseases were recruited as experimental subjects, and the cerebral EIT data of 9 frequencies in the range of 21 kHz - 100 kHz of all subjects were acquired with an EH-300 MFEIT system.

Completed10 enrollment criteria

Optical Nerve Sheath Changes During Head Down Laparoscopy

Intracranial HypertensionBrain Edema3 more

Patient undergoing laparoscopic radical prostatectomy in steep trendelenburg position are at risk to develop complication from brain edema. Ultrasound assessment of optical nerve sheath diameter is a simply, non-invasive method to estimate the increase of intracranial pressure. It is unknown how optical nerve sheath diameter changes after prolonged head down position.

Completed8 enrollment criteria

Resting Energy Needs in Brain Dead Patients (reSting EneRgy nEeds iN brAin DEad Patients)

Brain DeathBrain Injuries2 more

The study will examine the resting energy need (REE) in patients suffering from brain damage. For the measurement of REE will be used a metabolic computer (which with continuous recording of breath-to-breath volume (Vt), respiratory rate (RR) of ventilation per minute volume (MV) ), of inhaled and exhaled gases (O2 and CO2) has the ability to calculate the values of VO2, VCO2 and with the help of equations the values of REE and RQ.

Completed7 enrollment criteria
1...5678

Need Help? Contact our team!


We'll reach out to this number within 24 hrs