View clinical trials related to Brain Injuries.
Filter by:Raised intracranial pressure (ICP) is a common and life threatening condition especially in patients with traumatic brain injury.There are many methods for monitoring the increased (ICP) either invasive or non- invasive ,but the gold standard is invasive method. Optic nerve sheath ultrasonography provides a very promising bedside tool for detection of increased ICP. This study will monitor the dynamic changes of intracranial pressure by optic nerve sheath diameter (ONSD) in response to mannitol osmotherapy
Patients with severe brain injuries, such as ischemic stroke and intracranial hemorrhage, frequently require mechanical ventilation. Weaning of stroke patients is complicated by impaired consciousness and respiratory drive. Higher rates of weaning failure and delayed extubation (≥ 48h) lead to ventilator associated pneumonia, higher mortality and necessity of tracheostomy. Therefore, improving the weaning of stroke patients from mechanical ventilation is warranted to prevent ventilator-associated complications and eventually improve clinical outcomes. This single-center, randomized, clinical trial aims at demonstrating that voices of patients' relatives support weaning from mechanical ventilation and reduce weaning failure in brain-injured patients.
The overall aim of this project is to investigate the clinical utility of the Andago System, a CE certified mobile bodyweight supporting walking robot, in children with neuromotor disorders. Clinical utility encompasses practicability, acceptability, appropriateness, and accessibility. In this study, the investigators would like to investigate several aspects of clinical utility that belong to the first three components.
Background: Multiple neonatal disorders are associated with risks of neurological injury. Thus, management of these infants should involve a coordinated approach to permit early diagnosis with improved clinical care. Such initiative involves the use of standardized protocols, continuous and specialized brain monitoring with electroencephalography (EEG), amplitude integrated EEG (aEEG) and Near Infrared Spectroscopy (NIRS), neuroimaging and training. Brazil is a very large country with disparities in health care assessment; some neonatal intensive care units (NICUs) are not well structured and trained to provide adequate neurocritical care. However, the development and implementation of these neurocritical care units requires high expertise and significant investment of time, manpower and equipment. In order to reduce the existing gap, a unique advanced telemedicine model of neurocritical care called Protecting Brains and Saving Futures (PBSF) protocol was developed and implemented in some Brazilian NICUs. Methods: A prospective observational cohort study will be conducted in 20 Brazilian NICUs that have adopted the PBSF protocol. All infants receiving the protocol during January 2021 to December 2023 will be eligible. Ethical approval will be obtained from the participating institutions. The primary objective is to describe the use of the PBSF protocol and clinical outcomes, by center and over a 3 years period. The use of the PBSF protocol will be measured by quantification of neuromonitoring, neuroimaging exams and sub-specialties consultation. Clinical outcomes of interest after the protocol implementation are length of hospital stay, detection of EEG seizures during hospitalization, use of anticonvulsants, inotropes, and fluid resuscitation, death before hospital discharge, and referral of patients to high-risk infant follow-up. These data will be also compared between infants with primarily neurologic and primarily clinical diagnosis. Discussion: The implementation of the PBSF protocol may provide adequate remote neurocritical care in high-risk infants with optimization of clinical management and improved outcomes. Data from this large, prospective, multicenter study are essential to determine whether neonatal neurocritical units can improve outcomes. Finally, it may offer the necessary framework for larger scale implementation and help in the development of studies of remote neuromonitoring.
This study will establish the acceptability and feasibility of enrolling and retaining heavy drinking Veterans with mild traumatic brain injury (mTBI) in an 8-week, randomized cross-over design trial of active VR working memory retraining (WMR). This study will also seek to establish the efficacy of active VR-WMR to increase performance in executive function.
Traumatic brain injury (TBI) is a major cause of disability in the Veteran population, often resulting in chronic pain and sleep disturbances, among other issues. Extensive rehabilitative efforts are usually required and often prevent return to the workforce and community. Disturbed sleep and excessive daytime sleepiness are among the most pervasive and enduring problems after TBI, which the investigators hypothesize is a significant contributor to these functional impairments and an impediment toward rehabilitation. Thus, this research aims to enhance sleep quality as a means to reduce pain and improve quality of life and functional outcome measures in Veterans with TBI. The investigators predict that the proposed intervention, morning bright light therapy, if found effective, will be cost-effective, rapidly deployable, and highly accepted by Veterans with TBI.
All the patients admitted in emergency department for minor traumatized cranial, with antiplatelet therapy, can be included, after checked inclusion and non inclusions criterias. If they are agree, a blood sample for the dosage of S100b will be done. No other modification of the medical care, all patients will have tomodensitometria, according with recommendations. The aim of the study is to validate the negative predictive value of S100b in this population.
Introduction: Traumatic brain injury (TBI) is one of the major health and socioeconomic problems in the world. Immune-enhancing enteral formula has been proven to significantly reduce infection rate in TBI patient. One of the ingredients that can be used in immunonutrition formulas to reduce inflammation and oxidative stress is French maritime pine bark extract. Objective: The main objective of present study is surveying the effect of French maritime pine bark extract on the clinical, nutritional and inflammatory status of TBI patients as the first human study in the world. Method: this is double-blind, randomized controlled trial. Block randomization are used. Intervention group will receive French maritime pine bark extract supplement (OLIGOPIN) 150 mg for 10 days. Control group will receive placebo for the same duration. Inflammatory status (IL-6, IL- 1β, C-reactive protein) and oxidative stress status (Malondialdehyde, total antioxidant capacity), at the base line, at the 5th day and at the end of the study (10th day) are measured. APACHE ІІ (acute physiologic and chronic health evaluation II) for assessment of clinical status of patients and Nutric questionnaires for assessment of nutritional status filled out at the base line, 5th day and the end of study. SOFA (sequential organ failure assessment) questionnaire for assessment of organ failure filled out every other day. The mortality rate will be asked by phone within 28 days of the start of the intervention. Weight, body mass index and body composition at baseline, 5th day and 10th day of intervention are measured. All analyses will be conducted by initially assigned study arm in an intention-to-treat analysis. The data will be expressed as mean ± SD.
This study was conducted to develop and validate integrated eye tracking and EEG measures for assessment of mild traumatic brain injury.
The aim is to evaluate the study design, procedure and measurements in a randomised controlled pilot study.