Active clinical trials for "Brain Injuries"

In our institute there is ongoing treatment of brain injury patients with Hyperbaric oxygen therapy. These patients undergo neuro-cognitive function tests in addition to brain imaging studies before and after treatment. The aim of this study was to evaluate the perfusion and microstructure changes seen in MRI in addition to the cognitive tests before and after the treatment.

Gyrogenesis is an ontogenic process that transforms the smooth (lissencephalic) cortex toward its mature, convolved (gyrencephalic) state. A tortuous, branching and deepening pattern of sulci and fissures outlines for a well-developed cortex. The aim of this study is to find an algorithm that can detect the sulci in ultrasound images of fetus' brain and measure the length of it. This algorithm can be used for research demands like learning the development of the brain from embryo stages until the birth of the baby

The study of plasma and urine proteomic profiles in patients with ischemic brain injury is important to better understanding of the mechanisms by which thrombolytic agents or other therapy affects clinical outcomes. The purpose of this study is to study the proteomic profile of patients with ischemic brain injury and compare it to control subjects without ischemic brain injury, subjects with other chronic neurologic diseases or systemic vascular diseases, and pre- and post- therapy which may be associated with, or predictive of, therapeutic outcome. The investigators hypothesize that there is a unique set of proteins expressed in serum and urine in patients with ischemic brain injury that may provide a more complete understanding of ischemic brain injury pathophysiology. Ultimately, this study may provide information of direct relevance to the medical care of a large proportion of patients with ischemic brain injury and other neurologic diseases in the future. And proteomic proteomic profile may provide important information about the roles of specific biomarkers. Perhaps the prevention of ischemic injury related complications.

This study is evaluating whether a bedside brainwave monitor can be used to detect early brain injury in premature infants.

A better understanding of the impact of Traumatic Brain Injury (TBI) in the elderly, in terms of brain damage, cognitive and motor functions, sleep quality and quality of life is necessary due to the increasing incidence and prevalence of TBI in this population and its high economic impact on society. Therefore, this study aims at describing the short-term consequences of TBI by studying injury patterns, injury severity, risk profiles, brain damage, co-morbidities, post-traumatic history, level of dependency, serum-based injury biomarkers, cognitive and motor functions, sleep quality and quality of life 6 months after TBI. All the obtained results will be integrated in a new prognostic tool for the course of the outcomes of TBI in the elderly population.

Intracranial pressure (ICP) is defined as the pressure inside the skull, and therefore, the pressure inside the brain tissue and the cerebrospinal fluid (CSF). The relationship between CSF and intracranial blood volumes is described by the Monroe Kellie doctrine; because the brain is incompressible, when the skull is intact, the sum of the volumes of brain, CSF, and intracranial blood is constant.

Primary aim: The primary aim of the study is to compare survival to discharge (or survival to 14 days post-operatively, whichever comes first) following emergency surgery for traumatic brain injury (TBI) across Human Development Index settings. Primary outcome measure: The primary outcome measure will be survival to discharge (or survival to 14 days post-operatively, whichever comes first) Primary comparison: Between country groups defined by human development index. Centre eligibility: Any hospital or clinic worldwide performing emergency surgery for traumatic brain injury is eligible to participate. Patient eligibility: All adult and paediatric patients admitted to the participating institution with a traumatic brain injury for which they receive emergency surgery during the selected 30-day inclusion period are eligible for inclusion in the study. Team: Individual hospital teams with up to four people, collecting data for 30 days. Time period: Local study teams may select any 30-day period from the 1st of November 2018 and the 31st of December 2019 to start their study. Patients operated on who meet the inclusion criteria between 00:01 on day 0 and 23:59 on day 30 of the selected study period will be included. Validation: We will employ a method of data validation in every centre that will give us a quantitative estimate of case ascertainment that is feasible even in low-resource centres.

The goal of this study is to determine whether the addition of aEEG to cEEG in clinical practice does in fact help PICU physicians detect subclinical seizures in this population.

Children born with congenital heart problems face numerous physical, developmental, and social challenges. Complications in pregnancy have potential to impair brain development, leading a smaller brain volume and less mature brain even in babies born at full term. As the brain is less mature, it may be more susceptible to oxygen deprivation and other forms of brain injury. Urgent surgery is often required in the first few weeks of life to improve functioning of the heart, but this surgery also carries a risk of additional brain injuries. The aim of this study is to provide a better understanding of factors associated with the development of brain injury in neonates undergoing heart surgery in the first year or life. The short-term aim of this study is to provide data to help our team to develop advanced monitoring software that can be used to guide perfusion of the brain during surgery with a view to preventing surgery-related brain injury. The mid-term goal of the study is to identify risk factors associated with brain injury and inflammation around the time of surgery, through using MRI and taking blood samples. A longer term aim of this study is to be able to follow the children as they develop to see if any problems develop later in life. In this study, we will ask parents to complete two brief questionnaires when their infant reaches 2 years of age. Overall, this study aims to improve our understanding of the causes of brain injury in patients born with congenital heart problems. The data provided by this study will help us to develop new tools for monitoring brain perfusion during surgery.

The indication of cranial computed tomography (CCT) is difficult to define for patients with mild traumatic brain injury (mTBI). For mTBI patients with a medium risk of intracranial complications, CCT scans are indicated although 90% of them are normal. The interest of the S100B protein has been widely demonstrated in the management of mTBI in adults. Its serum concentration (for blood sampling drawn less than 3 hours after trauma) can accurately predict a normal CCT scan for mTBI patients with a medium risk of intracranial complications. That's why, serum assay of the S100B protein is routinely used in the Emergency Department of Clermont-Ferrand University Hospital for the treatment of patients with mTBI. The objective of the study is to optimize the management strategy for mTBI patients by blood testing of new brain biomarkers. These biomarkers are synthesized by brain cells and are released into the blood in case of intracranial lesions.