Active clinical trials for "Intracranial Hypertension"

The design of the present study will be a multicenter prospective observational protocol. Approximately 100 patients will be recruited over the 24-month period with Acute Brain Injury (trauma brain injury, intracerebral hemorrhage, subarachnoid hemorrhage, ischemic stroke), who in their acute phase of intensive care unit require placement of a catheter capable of monitoring intracranial pressure (intra parenchymal catheter or external ventricular shunt). In addition to all the intensive care provided by the most recent guidelines, patients will undergo measurement of optic nerve sheath diameter through ultrasonography. At least, three measurements will be performed within the first 3 hours after admission, within the first 24-48 hours, and at each invasive intracranial pressure value greater than 18 cmH2O. Those patients with intracranial pressure values greater than 35 mmHg. At the first intracranial pressure measurement, patients with eyeball disease or trauma will be excluded. Measurements will be performed following the CLOSED bundle. Analysis of the results will include correlation between the invasive pressure values and the mean value of optic nerve sheath diameter measurements in the two projections (sagittal and transverse). In addition, the correlation of the absolute value of invasive pressure detected with the ratio of the optic nerve sheath diameter measurement to the eyeball diameter measured always ultrasound will be sought.

This diagnostic study will use 410 retrospectively captured fundal videos to develop ML systems that detect SVPs and quantify ICP. The ground truth will be generated from the annotations of two independent, masked clinicians, with arbitration by an ophthalmology consultant in cases of disagreement.

Idiopathic intracranial hypertension (IIH) is a syndrome characterized by elevated intracranial pressure (ICP) of unknown etiology. The investigators aim to study the quantitative D-dimer level and the role of anticoagulant therapy in the absence of occlusive sinus thrombosis in IIH patients.

If intracranial pressure can be measured non-invasively using single-channel EEG, clinicians will be able to easily monitor changes in intracranial pressure in patients with brain diseases in the clinical setting. Therefore, a more efficient treatment plan can be established and the prognosis of patients with brain disease can be expected to improve in the long term.

Patients with ALF (Acute liver Failure) would undergo a detailed clinical evaluation. Information would be collected regarding the onset and duration of symptoms, etiology, and severity of disease, other baseline clinical features, demographic characteristics, routine biochemical and hematological investigations. Patients would also be screened for the assessment of raised intracranial hypertension by either clinical or neuroimaging or by ONSD (optic nerve sheath diameter) and TCD (Transcranial doppler ultrasonography). Patient found to be having risen ICP (Intra Cranial Pressure) would be randomized in the two groups of the study. The group A would receive intravenous mannitol 20 to 30 minutes every 4 hourly where as those in the group B would be given 3% hypertonic saline as continuous infusion at a rate of 25ml /hr and titrated q4 hrs per sliding scale to achieve a target serum sodium level of 144-155 mmol/L .Both the groups would receive other supportive measures such as head end elevation, oxygen supplementation, dextrose infusion to maintain normoglycemia standard medical treatment.

The investigators aim to demonstrate that use of transpulmonary pressure to guide PEEP management is safe in patients with possible elevations of intracranial pressure.

Laparoscopic cholecystectomy is one of the regularly performed laparoscopic surgical procedures. It resulted in shorter hospital stays, improved cosmetic outcomes, and reduced bleeding and pain. However, during laparoscopic surgeries, the pneumoperitoneum is known to raise intracranial pressure (ICP), reduction in cerebral blood flow (CBF), and as a consequence, cerebral hypoxia. There are various possible advantages of low-flow anesthesia. During laparoscopic procedures, low-flow anesthesia may be used as a means of preventing a rise in intracranial pressure and cerebral hypoxia. But low flow anesthesia effects on İCP are not known in Laparoscopic cholecystectomy. The primary aim of this study is to compare the effects of low-flow (0.75 l/min) and normal-flow (1.5 l/min) anesthesia on ONSD in patients undergoing laparoscopic cholecystectomy. Seconder aims are regional cerebral oxygen saturation (rSO2), bispectral index (BIS), and evaluate the status of cognitive function in the postoperative 24th hours.

Since decades, neurosurgeons and neurooncologists assumed that the mass effect of brain tumors with peritumoral edema or intratumoral hemorrhage might lead to increased ICP. Therefore, decisions on surgical procedures and medical treatments were made based on clinical and radiological findings suggesting increased ICP. But in fact, no measurement has ever confirmed increased ICP in brain tumor patients. From an ethical point of view, it is not justifiable to implant an intraparenchymal ICP probe within an invasive surgical procedure in a brain tumor patient unless the patient is comatose or present with rapid impairment of the level of consciousness. Therefore, with the new medical device for non-invasive ICP measurement presented in this study protocol, we will be able to measure absolute ICP values in patients with brain tumors.

Osmotic therapy is a mainstay in the treatment of intracranial hypertension after traumatic brain injury.This study proposes to compare two hypertonic saline agents in patients with traumatic brain injury.

Caudal anesthesia is a commonly used neuraxial anesthesia method for children. Injection of a certain volume of fluid into the epidural space for cauda anesthesia may push some cerebrospinal fluid towards the head, which may lead to mild increase of pressures inside the head. Such mild changes are compensated well by healthy individuals and no clinical sequel is seen, however at-risk populations may be affected. We aim to see how different amounts of fluid injected into the epidural space may change two clinical parameters affected by intracranial pressure to determine if a lower volume is safer than a higher one.