Active clinical trials for "Brain Injuries, Traumatic"

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.

Traumatic brain injury (TBI) is a major cause of death and disability, with an estimated cost of 45 billion dollars a year in the United States alone. Every year, approximately 1.4 million sustain a TBI, of which 50,000 people die, and another 235,000 are hospitalized and survive the injury. As a result, 80,000-90,000 people experience permanent disability associated with TBI. This project is designed to determine whether a device designed to measure brain tissue oxygenation and thus detect brain ischemia while it is still potentially treatable shows promise in reducing the duration of brain ischemia, and to obtain information required to conduct a definitive clinical trial of efficacy. A recently approved device makes it feasible to directly and continuously monitor the partial pressure of oxygen in brain tissue (pBrO2). Several observational studies indicate that episodes of low pBrO2 are common and are associated with a poor outcome, and that medical interventions are effective in improving pBrO2 in clinical practice. However, as there have been no randomized controlled trials carried out to determine whether pBrO2 monitoring results in improved outcome after severe TBI, use of this technology has not so far been widely adopted in neurosurgical intensive care units (ICUs). This study is the first randomized, controlled clinical trial of pBrO2 monitoring, and is designed to obtain data required for a definitive phase III study, such as efficacy of physiologic maneuvers aimed at treating pBrO2, and feasibility of standardizing a complex intensive care unit management protocol across multiple clinical sites. Patients with severe TBI will be monitored with Intracranial pressure monitoring (ICP) and pBrO2 monitoring, and will be randomized to therapy based on ICP along (control group) or therapy based on ICP in addition to pBrO2 values (treatment group). 182 participants will be enrolled at four clinical sites, the University of Texas Southwestern Medical Center/Parkland Memorial Hospital, the University of Washington/Harborview Medical Center, the University of Miami/Jackson Memorial Hospital, and the University of Pennsylvania/Hospital of the University of Pennsylvania. Functional outcome will be assessed at 6-months after injury.

Mild traumatic brain injury (TBI) is common among veterans who have served in OEF/OIF (Operation Enduring Freedom in Afghanistan/Operation Iraqi Freedom) and other theatres. Delayed symptoms may occur following TBI, including cognitive symptoms (impaired attention, processing speed, executive functioning), as well as behavioral symptoms such as anxiety, depression, and irritability (Fann et al. 2004; Holsinger et al. 2002). Neuroactive steroids have neuroprotective effects in rodent models of TBI (Djebaili et al. 2005; Djebaili et al. 2004; He et al. 2004; Pettus et al. 2005; Roof et al. 1997) and the neuroactive steroid pregnenolone and its sulfated derivative also markedly enhance learning and memory in rats (Akwa et al. 2001; Flood et al. 1992; Flood et al. 1995; Vallee et al. 1997; Vallee et al. 2003). In humans, reductions in pregnenolone (George et al. 1994) and its GABAergic metabolite allopregnanolone (Uzunova et al. 1998) have been associated with depressive symptoms. Pharmacological intervention with the neuroactive steroid pregnenolone could therefore result in a multi-targeted treatment approach, potentially improving cognitive deficits as well as anxiety and depression symptoms following TBI.

The purpose of this study is to determine the efficacy of an intensive short term cognitive rehabilitation program aimed towards improving executive functioning in individuals with traumatic brain injury (TBI).

The purpose of this study is to determine if amantadine hydrochloride given 100 mg in the morning and at noon is safe and effective in the treatment of mood and behavior changes (i.e. irritability) after sustaining traumatic brain injury.

Atomoxetine is the only medication that is currently approved by the FDA for the treatment of attention deficit hyperactivity disorder in adults. It has gained recent interest as an alternative medication for treating attentional problems related to traumatic brain injury (TBI), but it's effectiveness in this population has not been studied. There are a number of advantages of Atomoxetine over traditional neuro-stimulant medications currently used for attentional disorders after traumatic brain injury. This study will use a randomized double-blind placebo-controlled crossover design to investigate the efficacy of atomoxetine to improve attention, behavioral function, and depression in adults with TBI

The primary goal of this project is to demonstrate the feasibility and clinical benefits of a new rapid treatment for secondary treatment for secondary brain injury called Discrete Cerebral Hypothermia System by CoolSystems, Inc., Berkley, CA. This device induced hypothermia in the adult brain without significant whole body hypothermia. Discrete Cerebral Hypothermia System holds a great potential for protecting the brain from the devastating secondary complications of trauma without the associated deleterious system effects.

Traumatic brain injuries (TBI) are a major cause of morbidity and mortality worldwide. Due to improvements in emergency medical care, transportation and specialized trauma facilities, the number of people surviving TBI with impairment has significantly increased in recent years. The long term cognitive sequelae, which are often not visible persist far beyond the resolution of the obvious physical disabilities. This combined with the relatively low awareness of the general public has designated TBI as the "silent epidemic" (TBI CDC 2006). Hyperbaric oxygen therapy (HBOT) has been suggested as a possible treatment modality for these cases and preliminary studies are promising. The purpose of this study is to evaluate the effectiveness of HBOT in the treatment of chronic mild traumatic brain injuries (mTBI). Sequential SPECT scans of the brain and neurocognitive testing will be used to evaluate cerebral blood flow (CBF) response, cognitive and functional improvement following treatment.

We proposed to examine the effect of an aerobic exercise intervention on depression in persons with Traumatic Brain Injury (TBI). We will compare persons with chronic brain injury who are assigned to receive the exercise intervention with those in the control group to determine the effect of exercise on levels of depression and specific symptoms related to depression including anxiety, pain, sleep, and cognition. In addition, the effect of exercise on activity, participation level, and quality of life will be examined. HYPOTHESES: Participation in an aerobic exercise intervention will decrease the severity of depression in persons with chronic TBI. Participation in an aerobic exercise intervention will lead to improvements in negative symptoms associated with depression including anxiety, insomnia, pain, and impaired cognitive functioning. Participation in an aerobic exercise intervention will be related to improvements in activity and participation for patients with TBI. Participation in an aerobic exercise intervention will lead to improvements in perceptions of quality of life.

This study is a prospective consecutive double-blinded randomized study on the effect of PGI2, prostacyclin (epoprostenol, Flolan®) versus placebo (saline)in patients with severe traumatic brain injury. All patients with severe traumatic brain injury were eligible for inclusion. Inclusion criteria: verified traumatic brain injury, Glasgow Coma Score (GCS) at intubation and sedation of ≤ 8, age 15-70 years, a first-recorded cerebral perfusion pressure (CPP) of > 10 mm Hg, and arrival within 24 hours after trauma. Tne primary aim was to evaluate whether treatment with epoprostenol would reduce a lactate/pyruvate ratio,as measured by cerebral microdialysis after 24 hours of treatment. A secondary aim was to evaluate the effect of epoprostenol on systemic inflammatory markers, measured by different cytokines.