Active clinical trials for "Brain Injuries, Traumatic"

The purpose of this study is to determine whether NNZ-2566 is safe and effective in the treatment of Traumatic Brain Injury (TBI).

The purpose of this study is: To determine the safety and feasibility of performing an international multi-centre randomized control trial of early and prolonged hypothermia to improve outcome in children with severe traumatic brain injury (TBI). To determine whether in children with severe traumatic brain injury, prolonged initial hypothermia (minimum 72 hours at 32-33 degrees) improves the proportion of good outcomes 12 months after injury when compared to initial normothermia (36-37 degrees).

Each year in the United States alone, a third of a million persons are hospitalized for traumatic brain injury (TBI), of whom approximately 1/4 die. Most are less than 30 years of age. Not only are the health care costs staggering for both initial care and rehabilitation, but the societal loss in terms of economic impact reaches into the billions of dollars annually in the U.S. alone. Despite advances in neurosurgical interventions and intensive care management, many survivors do not fully recover. A significant cause of this mortality and morbidity is thought due to potentially preventable secondary injury, namely oxidant injury, inflammation, and apoptosis in the penumbra (the area of brain surrounding the primary lesion, which is at-risk, but potentially salvageable), beginning in the first few hours after the severe traumatic event. Despite the current bleak outlook for many of these patients, a series of animal investigations have uncovered a promising solution to the problem of the secondary injury seen in severe TBI and other similar processes, namely the early administration of estrogen, a strong anti-oxidant, anti-inflammatory and anti-apoptotic compound. Based on these encouraging results from animal studies, the investigators hypothesize that early administration of IV Premarin® in patients with severe TBI will safely reduce secondary brain injury, improve neurological outcomes, and improve survival.

The purpose of this study is to test an on-line intervention for families of young children who have experienced moderate or severe traumatic brain injury (TBI). Previous interventions were not designed to address the needs of young children with TBI, and feedback revealed a desire for more examples and materials appropriate for families of younger children. This project builds upon the investigators previous research by modifying the online intervention content to address the needs of young children with TBI. The goal of this project is to develop an intervention that will encourage positive parenting behaviors, improve child behaviors, and reduce parent distress and burden following TBI. The investigators hypothesize that the intervention group will exhibit more effective parenting skills as well as better child functioning and lower levels of parental distress at follow-up than will the active comparison group.

Up to half of all military service members with combat-related traumatic brain injury (TBI) also suffer from Posttraumatic Stress Disorder (PTSD). TBI and PTSD are each associated with cognitive problems in what are called 'executive functions' such as planning actions, inhibiting behavior, monitoring one's own thoughts and feelings, and solving problems day-to-day. These types of impairments occur more often among veterans with both TBI and PTSD than among those with only one of these conditions. The combination of TBI and PTSD in veterans has also been linked to problems with anger and violence, which are common complaints of veterans seeking mental health services post-deployment and have been shown to predict poor treatment outcomes in Iraq and Afghanistan veterans. Although the relationship between combined TBI/PTSD diagnoses and post-deployment adjustment problems has been demonstrated, there has been little research into clinical interventions designed to reduce the severity of cognitive and affective symptoms in veterans with both TBI and PTSD. Therefore, the investigators propose a randomized clinical trial involving a cognitive rehabilitation intervention that targets improved executive functioning, with the participation of N=100 veterans diagnosed with both TBI and PTSD (n=50 in experimental group and n=50 comparison). As part of the study, all participants will receive an iPod touch. Participants will be placed into one of the two study groups randomly. Based on which group participants are placed in, they will receive one of two different sets of iPod touch apps and programs that address and aim to improve different facets of cognitive functioning. Regardless of which group, Veterans will be instructed to daily practice iPod touch applications on cognitive functioning. Also, family members will be trained as "mentors" to reinforce use of the applications in everyday living environments. Trained facilitators will also travel to participants' homes to meet with veterans and family to observe behaviors in the home environment, arrive at strategies for applying new skills in their situations, troubleshoot any iPod technical problems, and review family mentoring processes. The investigators will measure clinical outcomes using a comprehensive array of functional and structural methods at baseline and six months. The investigators hypothesize improved executive function among those in the experimental group as well as reduced irritability/impulsivity and improved social/occupational functioning. The investigators further hypothesize that, as a group, veterans participating in the cognitive rehabilitation program will show significant changes in neural activity associated with executive functions when comparing pre- and post-treatment EEG and fMRI responses. Better understanding of the neural circuitry and neurocognitive function underlying executive function and associated affective control deficits in veterans with both TBI and PTSD, and how they relate to treatment outcome, will allow us to better identify therapeutic targets for cognitive rehabilitation. The current proposal aims to explore the relationship between brain function and connectivity in selective pathways/circuits, neuropsychological functioning, and cognitive rehabilitation response in veterans with both TBI and PTSD. This study of the neurobiology and neuropsychology associated with intervention efficacy will allow us to identify veterans with both TBI and PTSD who are predisposed to positive treatment outcomes. To our knowledge, this will be the first attempt to integrate neurobiological and neurocognitive techniques with information about the efficacy of a theoretically and empirically driven cognitive rehabilitation intervention in veterans with combined TBI/PTSD diagnoses. This research may suggest additional avenues for assessment of clinical intervention efficacy and the identification of therapeutic targets (e.g. alteration of function in fronto-limbic circuits) relevant to the military population. Given links between TBI/PTSD, executive dysfunction, and anger, impulsivity, and aggression, efforts to rehabilitate cognitive function will be particularly important to ensure that current and future veterans adjust successfully when they return home to their families, workplaces, and communities.

Purpose of this study is to determine the efficiency and safety of a Sensory Enrichment Multimodal Device (SEMD) when applied in conjunction with usual care vestibular-balance physical therapy for rehabilitation of patients who fall as a result of vestibular inducted disequilibrium. Study participants will receive regular physical therapy, and some will use the SEMD device while receiving usual care vestibular-balance physical therapy. The device is an elastic belt that holds eight small battery powered vibrating disks. When using the device, you will sit or stand on a force platform that measures body sway. That movement information is sent to a computer which then sends the information to you via the vibrating disks. The vibrating disks are similar to a vibrating cell phone: you can feel the vibration but it is not uncomfortable. You can also see your sway movement on the computer screen. Some tests and activities will be paced with a beeping sound. The aim of this study is six-fold: 1. Demonstrate the relative efficiency between SEMD and conventional vestibular-balance physical therapy as reported by treating physical therapists' by counting number of skills acquired in a treatment session, and the amount of time needed to acquire the skill; 2. Demonstrate greater improvement earlier on in balance test scores when using the SEMD as an adjunct to conventional vestibular-balance physical therapy; 3. Determine the difference in vestibular habituation between physical therapy plus SEMD and conventional vestibular-balance physical therapy; 4. Demonstrate a more immediate reduction in fall occurrence when using SEMD as an adjunct to conventional vestibular-balance physical therapy; 5. Determine the patient's perception of quality of life between physical therapy plus SEMD and conventional vestibular-balance physical therapy; 6. Determine difference in acquisition of large movement tasks of tandem walk, step quick-turn, and kneel-shoulder rifle-return to stand between subjects that have trained with SEMD and conventional vestibular-balance physical therapy . In addition to primary and secondary outcome measurements, efficiency of skill acquisition, devised for this study, will be evaluated by tracking the number of skills and length of time needed to acquire each skill for each physical therapy session using the Patient Skill Acquisition Chart (PSAC). Usefulness of Tandem Walk, Step Quick-turn, and Kneel- Shoulder Rifle-Return to Stand as intervention outcome, also devised for this study, will be evaluated with pre test to post tests Modified Functional Independence Measure - Motor (MFIM-Motor). These measurements were devised for this study, and will be evaluated for informational purposes only.

This is a randomized clinical trial which compares a standard day treatment program for individuals with TBI with the "Executive Plus" program; the latter emphasizes training of attention, emotional self-regulation and problem solving. The goal of the Executive Plus program is to maximize executive functioning, as well as the long-term outcomes of community participation and satisfaction with daily life.

Randomized clinical trial that compares the effects of cognitive behavioral therapy (CBT) and supportive psychotherapy for depression. Short- and long-term outcomes will be evaluated in terms of changes in mood (primarily depression and anxiety), participation in activities and life satisfaction.

The purpose of this study is to determine if bone marrow progenitor cell (BMPC) autologous transplantation in children after isolated traumatic brain injury is safe and will improve functional outcome.

Each year a large number of patients are hospitalized at Shock Trauma Centers with severe head injuries. Bleeding into and swelling of these patients' brains may cause compression of vital structures, disability and death. Sometimes surgery is needed. Unfortunately, the investigators have no medication to treat the bad effects of head trauma. Part of the brain damage is due to toxic chemicals (including one called glutamate) that are released by the damaged nerves. Dexanabinol may prevent some of the bad effects of glutamate on the brain and may protect the brain against uncontrollable swelling and death.