Active clinical trials for "Brain Injuries, Traumatic"

The goal is to pilot test a highly accessible, web-based, pragmatic, scalable intervention to overcome ongoing problems with high stakes decision-making by surrogate decision-makers of patients in ICUs with severe acute brain injury (SABI), including those with moderate-severe traumatic brain injury, large hemispheric acute ischemic stroke and intracerebral hemorrhage.

In TBI, there is a strong correlation between increased ICP and bad outcome. So, appropriate monitoring can be the gold standard in management of TBI. ICP can be measured by invasive and noninvasive methds. One of these noninvasive methods is bedside measurement of optic nerve sheath diameter (ONSD) by ocular ultrasonography

Despite racial/ethnic disparities in outcomes for younger adults with traumatic brain injury (TBI), there are no U.S. standards for TBI transitional care for patients discharged home from acute hospital care. To enhance the standard of care, the investigators will examine the efficacy of the existing intervention named BETTER (Brain Injury, Education, Training, and Therapy to Enhance Recovery), a culturally-tailored, patient- and family-centered TBI transitional care intervention, compared to usual care, among younger adults with TBI and families. The knowledge generated will drive improvements in health equity for younger adults with TBI of various races/ethnicities and families, resulting in improved health of the public.

Traumatic brain injury (TBI) is an altered brain function caused by an external force, which may annually have 69 million incidence cases all over the world. Increasing evidence suggests that TBI may be a major risk of beta amyloid (Aβ)-associated neurodegenerative disorders, such as Alzheimer's disease, frontotemporal dementia, and Parkinson's disease. Investigations from brain imaging studies revealed that Aβ density maps of TBI patients overlapped with those with Alzheimer's disease, and increased Aβ density not only associated with prolonged TBI duration but also associated with decreased white matter integrity. It has been suggested that the axonal injury and cerebrovascular dysfunction due to TBI may associate with the elevated level of Aβ peptides. The increasing accumulation in Aβ due to TBI may contribute to the initiation of the pathological alterations in neurodegeneration diseases. Recent animal studies suggest that acupuncture may promote regeneration of nerves in injured tissues and reduce the concentration of Aβ in brain. Moreover, recent clinical trials also indicate that acupuncture may improve the vascular cognitive impairment due to cerebral small vessel disease. Thus, acupuncture treatment on TBI may not only be of benefit for the TBI recovery but also act to interrupt the pathological changes in these neurodegenerative diseases.

Traumatic brain injury (TBI) caused by accidents is a very important public health problem in Taiwan. There are many people with brain damage and cognitive dysfunction caused by traumatic brain injury every year. Currently, there is no effective treatment for cognitive dysfunction caused by traumatic brain injury. Evidence from clinical studies in recent years suggests that hyperbaric oxygen therapy may be a treatment for repairing nerves after brain injury. Many studies have shown that oxidative stress and inflammatory responses play an important role in the pathogenesis of the central nervous system. In recent years, our research team has shown that oxidative stress and inflammatory response are significantly associated with the prognosis of patients with traumatic brain injury, cerebral hemorrhage, and stroke patients. More and more evidences also show that oxidative stress and inflammatory response play an important role in the neuropathological changes of mental cognitive sequelae after traumatic brain injury. This injury may be gradual from the time of head trauma. This process begins with the generation of oxidative stress and free radicals. When the cell repair and free radical scavenging system can not effectively overcome the excessive production of free radicals, an oxidative damage reaction will occur, causing a series of inflammatory cells and cytokines to be activated. Studies have also shown that when inhibiting those free radicals that produce oxidative stress, the neurological function and cognitive function of the head after trauma can be significantly improved. It is becoming widely acknowledged that the combined action of hyperoxia and hyperbaric pressure leads to significant improvement in tissue oxygenation while targeting both oxygenand pressure-sensitive genes, resulting in improved mitochondrial metabolism with anti-apoptotic and anti-inflammatory effects. The investigators published an article this year showing that hyperbaric oxygen therapy can improve the prognosis of patients with acute stroke and increase endothelial progenitor cells in the systemic circulation. The investigators plan to conduct this research project through hyperbaric oxygen therapy and neuropsychological therapy, and using scientific tests and neurocognitive function assessments. The investigators hope to answer the following questions: (1) Whether the treatment of hyperbaric oxygen can improve oxidative stress and inflammatory response after brain injury, and observe changes in biomarker concentration; (2) Whether hyperbaric oxygen therapy and neuropsychological therapy can improve cognitive function after brain injury; and (3) which biomarkers are factors that influence cognitive function prognosis.

The purpose of this study is to determine whether NNZ-2566 is safe and well tolerated in the treatment of mTBI in adolescents and adults.

The purpose of this study is to determine whether hypertonic saline is as much effective as mannitol to treat intracranial hypertension after traumatic brain injury and has at least the same effects on PtiO2 and cerebral metabolism studied through microdialysis.

The Citicoline Brain Injury Treatment (COBRIT) is a randomized, double-blind, placebo controlled, multi-center trial of the effects of 90 days of citicoline on functional outcome in patients with complicated mild, moderate and severe traumatic brain injury.

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 current project will examine the effects of aerobic exercise on cognition among a group of veterans who have suffered a mild traumatic brain injury.