View clinical trials related to Brain Injuries.
Filter by:The objective of this study is to evaluate whether use of TRMDU in addition to medication review leads to improved outcomes and reduced health care costs for patients when compared with medication review alone. The study will be conducted in patients assigned to Department of Defense (DOD) Warrior Transition Units (WTU's), similar DOD units, and VA polytrauma centers.
The Midwest Advocacy Project (MAP) is a community-based multiple-site randomized practical behavioral trial of advocacy skill training for individuals with traumatic brain injury (TBI), their families, and significant others. The purpose is to evaluate the efficacy of a 4-session advocacy training program to improve behavioral advocacy skills compared to self-directed advocacy training of the same session frequency. Groups will be randomly assigned to either a programmed group or a self-directed group in collaboration with the Brain Injury Associations of Minnesota, Iowa, and Wisconsin each year over the 5 year study period. The primary outcome is pre-post measures of written and verbal advocacy skill measured by the Advocacy Behavior Rating Scale. It is hypothesized that subjects who receive programmed advocacy training will show greater positive change on pre-post measures of advocacy skill measures than subjects receiving self-directed training.
The purpose of this research study is to evaluate whether Vyvanse, a psychostimulant, can help with attention deficits due to traumatic brain injury (TBI). Vyvanse is currently approved for the treatment of Attention-Deficit/Hyperactivity (ADHD). The exact effects this drug may have on attention deficits caused by TBI are not known, but we expect that Vyvanse will be of some help in treating those types of problems as well. The study will utilize functional magnetic resonance imaging (fMRI) methods, as well as neurobehavioral measures, to elucidate neural mechanisms of response.
The goal of this study is to evaluate the effect of preventive intravenous infusion of half molar sodium lactate on the onset of hypertensive intracranial episodes in severe head trauma. The investigators hypothesize that preventive intravenous administration of sodium lactate will decrease the number of treatments required to decrease intracranial pressure during 48 hours.
The purpose of this study is to determine whether rosuvastatin could alter the immunological response after head injury by modulating TNF-alpha,IL6,IL-1.
Traumatic brain injury (TBI) is a leading cause of death and long term disability, particularly in young adults. Studies from Australia have shown that approximately half of those with severe traumatic brain injury will be severely disabled or dead 6 months post injury. Given the young age of many patients with severe TBI and the long term prevalence of major disability, the economic and more importantly the social cost to the community is very high. Pre-hospital and hospital management of patients with severe brain injury focuses on prevention of additional injury due primarily to lack of oxygen and insufficient blood pressure. This includes optimising sedation and ventilation, maintaining the fluid balance and draining Cerebrospinal Fluid (CSF) and performing surgery where appropriate. In recent years there has been a research focus on specific pharmacologic interventions, however, to date, there has been no treatment that has been associated with improvement of neurological outcomes. One treatment that shows promise is the application of hypothermia (cooling). This treatment is commonly used in Australia to decrease brain injury in patients with brain injury following out-of-hospital cardiac arrest. Cooling is thought to protect the brain using a number of mechanisms. There have been a number of animal studies that have looked at how cooling is protective and also some clinical research that suggests some benefit. However at the current time there is insufficient evidence to provide enough proof that cooling should be used routinely for patients with brain injury and like all treatments there can be some risks and side effects. The POLAR trial has been developed to investigate whether early cooling of patients with severe traumatic brain injury is associated with better outcomes. It is a randomised controlled trial, which is a type of trial that provides the highest quality of evidence. The null hypothesis is that there is no difference in the proportion of favourable neurological outcomes six months after severe traumatic brain injury in patients treated with early and sustained hypothermia, compared to standard normothermic management.
This study seeks to determine if erythropoietin alpha (EPO) administered to adult critical care patients with moderate or severe traumatic brain injury improves neurological function assessed at six months after injury.
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.
The primary objective of this study is to evaluate the safety and tolerability of long-term (12 months) armodafinil treatment in patients with excessive sleepiness associated with mild or moderate closed traumatic brain injury (TBI).
Neurological complications from cardiac surgery are an important source of operative mortality, prolonged hospitalization, health care expenditure, and impaired quality of life. New strategies of care are needed to avoid rising complications for the growing number of aged patients undergoing cardiac surgery. This study will evaluate novel methods for reducing brain injury during surgery from inadequate brain blood flow using techniques that could be widely employed.