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Cerebral Hypoxia clinical trials

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NCT ID: NCT06320743 Recruiting - Anesthesia Clinical Trials

Cerebral and Peripheral Near Infrared Spectroscopy Monitoring in Low and High Flow Anaesthesia in Pediatric

Start date: March 20, 2024
Phase: N/A
Study type: Interventional

To investigate the effects of non-invasive cerebral and peripheral NIRS monitoring and low and high flow sevoflurane anaesthesia on cerebral and peripheral NIRS in paediatric patients. To determine the effects of two different flows on these monitoring techniques and thus to facilitate intraoperative patient monitoring and to predict complications (hypoxia) that may occur.

NCT ID: NCT06316596 Not yet recruiting - Pregnancy Related Clinical Trials

Brain Oxygenation in Newborns Due to Neuroaksial Methods

oxygenation
Start date: April 1, 2024
Phase: N/A
Study type: Interventional

Epidural and spinal anesthesia techniques are frequently used all over the world in elective cesarean section operations. To evaluate the effects of epidural and spinal anesthesia techniques applied in cesarean section surgery on neonatal cerebral oxygenation using Near Infrared Spectroscopy (NIRS).

NCT ID: NCT06306950 Completed - Clinical trials for Severe Traumatic Brain Injury

Prioritization of Cerebral Deoxygenation in Severe Traumatic Brain Injury and Mortality Benefit.

Start date: April 1, 2021
Phase: N/A
Study type: Interventional

Severe traumatic brain injury with a decrease in cerebral oximetry is associated with multiple impaired systemic microcirculations, more morbidities, and a higher mortality rate. When using the brain as an index organ, interventions to improve brain oxygen delivery may have systemic benefits for these patients.

NCT ID: NCT05652426 Completed - Clinical trials for Cognitive Dysfunction

The Effect of Hypoxic and Normoxic Cerebral Oximetry Levels on Cognitive Functions After Carotid Endarterectomy

Start date: January 1, 2021
Phase:
Study type: Observational

In this study, we investigated the effect of the capacity to cope with oxidative stress (oxidative stress response during and after clamping) in individuals with cerebral oximetry level between 40- 60 % and above 60 % and their effect on cognitive functions. Methods: In this retrospective study, patients who were scheduled for carotid endarterectomy, examined the MOCA tests before and after the operation and collected blood samples intraoperatively were included between January 2020-2021. The time periods specified below, blood samples were taken and serums were frozen at -80 celcius all this patients. Montreal cognitive function assessment test was applied before the operation, 24 hours and 7 days after the operation. Ten mililiters venous blood samples were collected to examine the status of basal neuron specific enolase, S100B, oxydative stress parameters (HAF-1 and DAF-1) at time intervals. Time intervals as follow: T1: Peripheral baseline measurements (blood will be taken from arterial blood sampling) + Cerebral Oxymeter levels + Montreal cognitive performance test + Modified Rankin Scale (mRS) T2: 1 minute before clamping (from peripheral and jugular vena blood sampling) + Cerebral Oxymeter levels T3: Before opening clamp(from peripheral and jugular vena blood sampling) + Cerebral Oxymeter levels T4: 24 hours after the procedure. (peripheral blood sampling) + Montreal cognitive performance test T5: 7 days after the operation. (peripheral blood sampling) + Montreal cognitive performance test + CO levels+ Modified Rankin Scale (mRS) Results: We found significantly positive corelation between cerebral oxymeter levels, oxydative stress parameters and cognitive performance tests in this six patient.

NCT ID: NCT05171881 Recruiting - Cerebral Hypoxia Clinical Trials

Brain Oxygenation-II

BOx-II
Start date: April 7, 2022
Phase: Phase 2
Study type: Interventional

The Brain Oxygenation-II study (BOx-II) is a phase-II, multicenter, single-arm clinical trial evaluating interventions based on near-infrared spectroscopy (NIRS) monitoring of cerebral oxygen saturation in extremely premature infants. Enrolled infants will follow a treatment guideline to maintain cerebral oxygen saturation in a target range within the first 72 hours of life. The primary outcomes will include interventions used to maintain cerebral saturation in target range, rates of cerebral hypoxia and systemic hypoxia, and a composite of death or severe brain injury detected on term-equivalent magnetic resonance imaging.

NCT ID: NCT05048680 Recruiting - Aging Clinical Trials

Effect of Hypoxic Conditioning on Cerebrovascular Health in the Elderly

HYPOXAGE
Start date: October 13, 2021
Phase: N/A
Study type: Interventional

In line with the ever-growing aging of Western populations, the development of preventive strategies to slow down the effects of aging on cardiovascular health represents a major challenge in order to preserve functional capacities and a sufficient quality of life in the elderly. The alteration of vascular function (at the cerebral and systemic level) with aging is an important feature in the clinical picture including a decrease in physical and cognitive capacities. Although physical activity is recognized as an essential means of combating the effects of aging, optimizing its effects by defining the most effective strategies of practice remains a key objective. Offering alternative interventions to exercise training is also necessary for people who are unwilling or unable to engage in a physical activity program. In this context, hypoxic conditioning, alone or in conjunction with rehabilitative exercise training, is a new therapeutic modality with strong preclinical validity, in particular from a cardiovascular standpoint, and used in other pathologies to improve cardiovascular function and exercise performance and quality of life. Our aim is, therefore, to investigate the effect of hypoxic conditioning (alone or in conjunction with exercise training) on cerebrovascular health in the elderly.

NCT ID: NCT05028023 Recruiting - Tracheal Stenosis Clinical Trials

Tracheal Dilatation in Pediatric Patients With Acquired Tracheal Stenosis, and the Effects of Apneic Oxygenation

Start date: October 21, 2020
Phase: N/A
Study type: Interventional

The study presents an alternative method of tracheal dilatation in pediatric patients with acquired tracheal stenosis. Dilatation is performed by the use of balloon catheter connected with manometer, that is bronchoscopic guided into trachea in the stenotic area, through the wide canal of supraglottic device i-Gel. Every dilatation cession consists of three consequent tracheal balloon dilatations of maximum 3 minutes duration each, followed by 10-15minutes interval of controlled ventilation. The balloon is inflated for 60 seconds to reach predefined pressure, and then deflated. This method is minimal traumatic for tracheal mucosa, and application of several dilatation procedures every 2-3months, in pediatric patients with acquired tracheal stenosis, may lead to a relative reopening of trachea and recession of clinical symptoms.For the right performance of the dilatation procedure, patients receive general anesthesia with cessation of spontaneous ventilation. During procedure, controlled ventilation-oxygenation is impossible, because the i-Gel canal is occupied by bronchoscope and balloon catheter, so patients will remain apneic for a short period of time. For pediatric patients is important to perform proper preoxygenation prior to procedure, and to maintain oxygenation as long as possible during procedure. This is achieved by application of apneic oxygenation, through a small catheter, connected to high flow oxygen. Participants are exposed during first dilation to no oxygenation, while during second and third dilatation to apneic oxygenation. Aim of the study is to investigate primarily whether application of apneic oxygenation, in pediatric patients during tracheal balloon dilatation, maintains regional cerebral oxygen saturation rSO2 in significant higher levels, compared with no application of oxygenation. rSO2 levels are a sensitive index of oxygenation efficacy of the brain, accordingly this refers to a safe procedure. Secondary issues are whether application of apneic oxygenation maintains pulse oximetry SpO2 and artierial oxygen partial pressure PaO2 in higher levels, and what are the effects on arterial carbon dioxide partial pressure PaCO2 and on haemodynamic parameters (heart rate, blood pressure), compared with no application of apneic oxygenation.

NCT ID: NCT04971564 Not yet recruiting - Ischemic Stroke Clinical Trials

Thrombo-inflammation Biomarkers Trial in Acute Cerebral Hypoxia

RADICAL
Start date: March 15, 2024
Phase:
Study type: Observational

The goal of this trial is to study, in three well-defined clinical situations responsible for cerebral hypoxia, the concentrations of biomarkers of thrombo-inflammation compared to a population of patients without cerebral hypoxia, and to study in patients with cerebral hypoxia the association between these concentrations and the clinical evolution.

NCT ID: NCT04439968 Active, not recruiting - Cerebral Hypoxia Clinical Trials

Neonatal Brain Oxygenation Study

BOX
Start date: August 10, 2021
Phase: N/A
Study type: Interventional

Implementing target ranges for regional cerebral saturations in extremely preterm infants in the first week of life may improve neurodevelopmental outcomes at 22-26 months corrected age compared to those without targeted cerebral saturations (Csat) using near-infrared spectroscopy (NIRS). Infants will be randomized to a targeted cerebral saturation monitoring group with visible reading of Csat or to a control group with cerebral saturation monitoring, but with blinded Csat measures. Those in the targeted Csat group will follow a treatment guideline to maintain cerebral oxygenation in the target range. The primary outcome is neurodevelopmental outcome as determined by Bayley III cognitive scale score.

NCT ID: NCT03916133 Completed - Ischemic Stroke Clinical Trials

Analysis of Selective Cerebrovascular Distribution With FDCT in the Angiosuite

Start date: June 1, 2018
Phase: N/A
Study type: Interventional

The aim of this study is to evaluate the clinical feasibility of the angiographic Flat Detector CT perfusion imaging (6s PBV) technique. The investigators will examine the specific vessel distribution of patients with steno-occlusive disease, treated with a surgical extracranial-intracranial bypass and assess the cerebral perfusion during test occlusion upon a neurovascular treatment and in intracranial tumor patients referred for potential pre-operative embolization. This study encompasses three scientific objectives: 1. What is the selective contribution of an individual bypass artery to the brain perfusion? 2. Is a selective intra-arterial angiographic perfusion examination useful in the decision-making of performing pre-operative embolization of intracranial tumors? 3. What is the usefulness of performing additive 6s PBV images compared to classical 2D angiography and/or clinical neurological evaluation in case of test occlusion in the evaluation of possible mother vessel occlusion in treatment of complex neurovascular diseases?