View clinical trials related to Brain Injuries.
Filter by:The aim of the study is to measure the effect of Finnish physician-staffed EMS unit treatment methods on traumatic brain injury (TBI) patient prognosis.
Heart Rate Variability (HRV) reflects the responsiveness of the autonomic system to an external stimuli. The aim of this system is to maintain homeostasis.The variability implies on the interaction between the sympathetic and the parasympathetic systems to maintain the ongoing changes of the autonomic system. Following Acquired Brain Injury (ABI), there can be a damage to the Central Nervous System (CNS) function. The damages described in the literature are cognitive, motor and behavioural function, while there is less relation to the autonomic system. The autonomic system can influence the ability of patient with ABI to participate in the rehabilitation program. The aim of this work is to investigate the activity of the autonomic system activity as manifested by HRV among patients with ABI in different conditions: resting, during activity and while listening to different auditory stimuli.
The primary objectives of this study are to assess whether participants with traumatic brain injury (TBI) administered glyburide begun within 10 hours of injury will show a decrease in magnetic resonance imaging (MRI)-defined edema and/or hemorrhage, compared to placebo and to assess the safety and tolerability of glyburide compared to placebo in participants with TBI. The secondary objectives include analyzing brain cell loss, computerized tomography (CT) scan /MRI abnormalities, reduction of mortality and or improvement of function or physiology, incidence of decompression craniectomy, incidence of neuroworsening, and to assess the steady state concentrations of glyburide in TBI participants.
Blunt head trauma (BHT) accounts for >450,000 emergency department (ED) visits for children annually in the US. Fortunately, >95% of head trauma in children is minor in nature. Although most children have minor head trauma, clinicians obtain cranial CTs in 35-50% of these children, which carries a radiation risk of malignancy. Recently, the investigators conducted a study of 44,000 children in the Pediatric Emergency Care Applied Research Network (PECARN) in which the investigators developed and validated clinical prediction rules that identify which children with minor BHT are at very low risk of having clinically-important traumatic brain injuries (TBI) and, therefore, do not require a CT scan. In this proposal, the investigators aim to assess whether implementing the PECARN TBI prediction rules (one for preverbal, one for verbal children) via computerized clinical decision support (CDS) decreases the number of (unnecessary) cranial CT scans obtained by ED physicians for children with minor BHT at very low risk of clinically-important TBIs. After a two-site pilot phase to test and refine the CDS, the investigators will conduct a seven-center prospective trial. The investigators will measure cranial CT use prior to and after the intervention implementation of CDS and clinician education. The investigators will study the use of CT by practitioners for children <18 years for 12 months pre- and post-intervention.
This open label trial is conducted to investigate the efficacy and safety of umbilical cord blood therapy for chronic traumatic brain injury patients. The study hypothesis is that the participants will show significant improvement in cognition and function after Umbilical cord blood (UCB) transplantation.
Following a brain injury (BI) in addition to all other systems, there can be a failure in the control of the autonomic system activity. Heart rate (HR) has its own normal variability. Heart rate is controlled by the Sympathetic and Parasympathetic systems. Therefore, monitoring HR variability (HRV) can help us evaluate the balance of the two systems and their efficiency.Decrease in HRV was found to be in correlation with death among patients in the acute stage following ABI. Decrease in HRV is a pre-stage of HR irregularity and ventricular fibrillation.This disturbance can have a great impact on the patients health condition. In addition there was found an inverse correlation between this situation and the rehabilitation outcomes. Based on this data there is a great importance in monitoring HRV during rehabilitation among patients following BI while the patients are required to perform physical activity.The aim of this work is to check whether we can replace the traditional way of measuring HR by EKG Holter (gold standard) with a more simple,accessible tool-the POLAR watch. The aim of this work is to check if the data collected from a POLAR watch is reliable compared to the data collected from an EKG holter.
Balance control is the sum action of the sense and reaction systems. In order to perform different activities in different postures one must have the ability to control and to adjust his balance in different conditions.A deficit in brain action following injury, disease or aging can undermine the ability to control balance and increase the risk to fall.The limitation in gait and mobility can increase morbidity. There is a limited number of tools evaluating and recording balance control ability. Most of this tools are observational and can be used in the clinical field. The aim of this work is to estimate the feasibility of an objective tool that can evaluate balance by tracking objective quantitative measures during the standard physical therapy session without using an expensive equipment. By using this tool the therapist can monitor the patient and collect quantitive data while performing tasks while keeping balance. This tool will allow the therapist to detect changes in balance and evaluate the effect of different conditions on the patients balance. This tool is based on the well known functional reach test. The addition of this tool to the test is the use of a simple camera and a computer softwear that will collect the data and analyze it while performing the test. This tool will give the therapist information on the responsiveness and the spatiotemporal measures of the performance. The aim of this work is to check what is the contribution of spatiotemporal measures of the functional reach test among patients suffering from acquired brain injury to the understanding of the motor function and balance control of people suffering from brain injury. .
The primary objective of the protocol is to study the long-term outcome of a large group of traumatic brain injury patients. This outcome is to be described in terms of activity, participation, quality of life, SOCIO-professional outcome and impact on caregivers, and in relation to health care provision. The secondary outcome is to measure the impact on functional outcome of several predictive factors, and their relative importance on outcome. Our principal hypothesis is that SOCIO-professional and health provision factors play a major role on long-term outcome, further even than initial severity of brain injury.
The purpose of the current study is proposed to prospectively assess how accurately the BrainScope® Ahead™ M-100 can distinguish risk categories for acute head injury.
Tampere Traumatic head and brain injury study is a prospective study aiming to explore neuroradiological, neuropsychological, neurological and biochemical aspects of mild traumatic brain injury (mtbi). The main interest is on factors that effect to the outcome after mtbi. The study is conducted in Tampere University Hospital's emergency department between the 1st of August 2010 and 31st of July 2013.