Active clinical trials for "Brain Ischemia"

The purpose of the research is to determine if the Hepatitis B vaccine after birth provides enough protection after cooling for Hypoxic Ischemic Encephalopathy (HIE). To do this, Hepatitis B titers (blood sample) would be taken before, during, and after administering of the Hepatitis B vaccine series to measure efficacy of the vaccine.

The TIME study is a randomized, controlled trial to evaluate impact on early measures of neurodevelopment and the safety profile of therapeutic hypothermia in term neonates with Mild Hypoxic-Ischemic Encephalopathy who are < 6 hours of age. Neurodevelopmental outcome will be assessed at 12-14 months of age. The study will enroll 68 neonates randomized to therapeutic hypothermia or normothermia across 5 centers in California.

A pilot trial for assessing early microvascular alterations after aneurysmal subarachnoid hemorrhage using dynamic 18F-FDG PET/CT. The primary endpoint will be the measure of early changes in cerebral glucose uptake reflecting microperfusion.

An investigator-initiated clinical drug study Main Objective: To explore neuroprotective properties of xenon in patients after aneurysmal subarachnoid hemorrhage (SAH). Primary endpoint: Global fractional anisotropy of white matter of diffusion tensor imaging (DTI). Hypothesis: White matter damage is less severe in xenon treated patients, i.e. global fractional anisotropy is significantly higher in the xenon group than in the control group as assessed with the 1st magnetic resonance imaging (MRI). After confirmation of aSAH and obtaining a signed assent subjects will be randomized to the following groups: Control group: Standard of Care (SOC) group: Air/oxygen and Normothermia 36.5-37.5°C; Xenon group: Normothermia 36.5-37.5°C +Xenon inhalation in air/oxygen for 24 hours. Brain magnetic resonance imaging techniques will be undertaken to evaluate the effects of the intervention on white and grey matter damage and neuronal loss. Neurological outcome will be evaluated at 3, 12 and 24 months after onset of aSAH symptoms Investigational drug/treatment, dose and mode of administration: 50±2 % end tidal concentration of inhaled xenon in oxygen/air. Comparative drug(s)/placebo/treatment, dose and mode of administration: Standard of care treatment according to local and international consensus reports. Duration of treatment: 24 hours Assessments: Baseline data Information that characterizes the participant's condition prior to initiation of experimental treatment is obtained as soon as is clinically reasonable. These include participant demographics, medical history, vital signs, oxygen saturation, and concentration of oxygen administered. Acute data The collected information will contain quantitative and qualitative data of aSAH patients, as recommended by recent recommendations of the working group on subject characteristics, and including all relevant Common Data Elements (CDE) can be applied. Specific definitions, measurements tools, and references regarding each SAH CDE can be found on the weblink here: https://www.commondataelements.ninds.nih.gov/SAH.aspx#tab=Data_Standards.

The registry is the main objective exhaustive list of cases validated stroke brain on a geographical area defined to calculate an incidence.

Brain lesions in the adult have dramatic consequences, because the spontaneous capacity of the brain to functionally recover is limited. Besides existing rehabilitative therapeutic approaches (e.g. physiotherapy), several lines of research aim at developing treatments to promote and refine brain plasticity to enhance functional recovery following brain injury. This pilot clinical study aims at enrolling subjects victim of a stroke with neuronal destruction leading to a disabling motor deficit. Usually these patients benefit from intensive neurorehabilitation which allows them to progress up to a certain point but when their recovery plateau is reached; current medicine is disarmed and no effective treatment allows, to date, to improve further their performance. This monocentric pilot study aims at evaluating the feasibility and safety of Autologous Neural Cell Ecosystems (ANCE), which is a cortical autograft intended to be used on stroke patients, for the replacement of motor neurons destroyed during an ischemic stroke.

Nearly half of the survivors of subarachnoid haemorrhage (SAH) retain irreversible neurological damage resulting from the early lesions associated with the initial bleeding, and the occurrence of possible delayed cerebral ischaemia (DCI). The early diagnosis of the occurrence of an DCI is therefore a major challenge in order to optimise management before irreversible lesions are formed. However, the means of diagnosis are often not available, and up to a third of DCI are discovered on follow-up images when the lesions are already present. Among the markers of brain injury, S100 calcium-binding protein B (S100B) is an astrocyte protein released into the bloodstream at the time of the appearance of a brain lesion. Its short half-life makes it a prime candidate for patient follow-up to diagnose a new ischemic lesion and assess the effectiveness of its management. Among the elements at the origin of DCI, the occurrence of proximal vasospasm is the main element on which we can have a therapeutic action. The strategy implemented in the department consists of performing a mechanical angioplasty when proximal vasospasm is detected with a decrease in downstream cerebral perfusion. Nevertheless the benefit of this therapeutic action is discussed and there is currently no early marker of the effectiveness of this procedure.

This study aims to determine the inter- and intra-variability of Transcranial Doppler (TCD) ultrasound in neuro-critical care patients who are planned for consecutive daily TCD evaluations.

A phase 1 study investigating the tolerability and pharmacokinetics of caffeine citrate in neonates with hypoxic ischemic encephalopathy receiving therapeutic hypothermia. This study is an essential first step to develop caffeine as a kidney protective medication in this in this vulnerable group of newborns.

The goal of this single centre observational study is to use near-infrared spectroscopy (NIRS) monitoring to investigate cerebral oxygenation in two groups of newborn infants who are at high risk of brain injury. The NIRS monitor used in this study will be the Masimo O3 regional oximeter with neonatal sensors. Near-infrared spectroscopy (NIRS) monitoring uses near-infrared light to measure oxygen levels in the brain tissue (cerebral oxygenation). It provides information about blood flow to the brain and the balance between oxygen supply and demand in the brain tissue. It is non-invasive, safe and used routinely to monitor term and premature babies in the neonatal intensive care unit (NICU). This study will recruit two groups of infants admitted to the NICU who are at risk of brain injury in the newborn period, namely: Term and near-term babies who are undergoing cooling treatment (therapeutic hypothermia) for moderate to severe hypoxic ischaemic encephalopathy (HIE). Preterm babies who are born extremely prematurely (before 28 weeks of pregnancy). In the term/near-term group, the primary aims of the study are: To investigate if cerebral oxygenation during and after cooling treatment relates to markers of brain injury detected on detailed brain scans (MRI and MRS scans). To describe any changes in cerebral oxygenation which occur during and after seizures (fits) in babies undergoing cooling treatment. In the preterm group, the primary aims of the study are: To investigate if any changes in cerebral oxygenation occurring during skin-to-skin care are different in premature babies with brain injury (bleeding or cysts in the brain seen on ultrasound scan) compared to babies without these changes. To investigate if cerebral oxygenation at 36 weeks corrected gestational age differs in babies with bronchopulmonary dysplasia (BDP, a chronic lung disease of prematurity) compared to babies without BPD.