View clinical trials related to Brain Injuries.
Filter by:This research aims to develop an intervention that combines mTBI-specific motor and cognitive challenges into a progressive and challenging rehabilitation program. We plan to develop and refine a combined motor and cognitive intervention using healthy athletic young adults (n=12) and people with a positive history of non-resolving mTBI (n=12). We will conduct limited feasibility testing by conducting 6 week training sessions with each subject group. We also plan to identify best measures for determining readiness for duty or full function by incorporating and testing 3 dual-task assessment measures using state-of-the-art wearable sensors to quantify movement.
The objective of this study is to evaluate the efficacy of magnesium in symptomatic reduction of mild traumatic brain injury in the adolescent population in the acute setting of injury.
The intention is to enroll a specific sample of intubated patients. To compare the effect of respiratory gas conditioning on lung deposition and considering the well-known influences of lung pathology on lung deposition, intubated patients with healthy lungs will be included. Postoperative neurosurgery ventilated patients respond perfectly to this criteria. A previous study including 17 postoperative neurosurgery patients was performed in 2013 with a perfect collaboration between the ICU and the Department of Neurosurgery and Anesthesiology.
This study compares the neuroinflammatory response in patients with hypertensive ICH associated with IVH treated with intraventriculary applied rtPA, and the control group. The inflammatory mediator concentration is analyzed in local cerebrospinal liquor.
Traumatic brain injury (TBI) is one of the most frequent injuries affecting service members. Unfortunately, current neurocognitive assessment tools are unable to reliably detect mild TBI more than a few days post- injury. Therefore, development of advanced systems for assessment and diagnosis of TBI are a top priority within Department of Defense. This project aims to evaluate a combined electroencephalography (EEG) and eye tracking system capable of assessing compromised cognitive function stemming from TBI, with the goal of enhancing operational readiness and aiding in diagnosis, improving health care and rehabilitation for affected military personnel.
Most people with moderate or severe TBI have difficulty returning to their usual social roles and activities. The OBIA has developed a program where peers (other individuals living with TBI) coach or mentor those with more recent brain injury. The objective of this project is to evaluate the feasibility of measuring the impact of the OBIA Peer Program on social participation and mood compared to a control group who have not received peer support yet. The proposed study will involve three phases. It will begin with a qualitative component (stakeholder interviews), then a pilot RCT, and end with more interviews to explore the success of the study intervention. A qualitative descriptive approach will be used at these first and last phases of the study. In Phase 1, interviews will be conducted with approximately 15 participants including individuals with moderate to severe TBI, caregivers, Mentors, OBIA staff members, and health researchers. The proposed Phase 2 will be a clinical trial, conducted with 60 participants. These participants will be randomized to one of three groups: a twice a week Program (n=20), a once a week Program (n=20), or the wait list control group (n=20). For Phase 3, a sub group of approximately 25 participants from Phase 2 who participated in the OBIA Peer Support Program will be asked to participate in a one-on-one, telephone/Skype interview. A sub-group of Mentors will also be asked to participate in a one-on-one, telephone/Skype interview. This research project will address the highest priority areas of "strategies to enhance social participation and community life (personal relationships)" and "psychological strategies to improve mood, depression, and irritability", as identified in the ONF's Request for Proposals on "Addressing Evidence Gaps in Moderate to Severe TBI Rehabilitation". The study will provide important results to inform a RCT (of appropriate size) on the impact of peer support on the social participation and mood of individuals with moderate to severe TBI. This study will then provide the best evidence to support the recommendation on "a peer-supported relationship model of intervention", and inform future versions of the INESSS-ONF Guideline.
This randomized study aims at comparing between the effects of amantadine, citcholine and its combinations on arousal and behavioral consequences in early phase of moderate Traumatic Brain injury (TBI).
Mayo Clinic's Traumatic Brain Injury (TBI) Model System Center (TBIMSC) will capitalize on longstanding collaborations with the non-profit Minnesota Brain Injury Alliance (MN BIA) and Minnesota Department of Health (MDH) to test a new way of delivering medical and social services. This trial will address chronic unmet needs expressed by individuals with TBI and their families in the U.S. pertaining to the ineffective connection to specialized medical and community resources in the transition from hospital to community-based care, limited access to TBI experts, and lack of primary care provider (PCP) knowledge about the complex needs of individuals with TBI. Target populations for this study are: 1) individuals with TBI eligible for MN BIA provided Resource Facilitation (RF), 2) their families, and 3) their PCPs. This clinical trial will use a theory-driven complex behavioral intervention that integrates the medical-rehabilitation, therapy, and TBI expertise of Mayo's Brain Rehabilitation Clinic (BRC) with MN BIA's highly developed RF program (a free two-year telephone support service offering assistance in navigating life after brain injury). Mayo Clinic's medical-rehabilitation expertise will be integrated with RF services to deliver direct clinical care remotely using telemedicine and other information and communication technology to test whether outcomes over time are better in a group receiving this model of care compared to a group that receives usual care in their communities. Costs between usual care and intervention groups will be compared in collaboration with the MDH. The overarching goal is development of a replicable, sustainable, and cost effective model of telemedicine care that integrates TBIMS Centers and BIAs nationwide and builds TBI expertise and capacity among PCPs.
Each year, about 2.8 million people sustain a traumatic brain injury (TBI) in the United States, and at least 25 percent of these injuries are classified as moderate to severe. Nearly half of those hospitalized for TBI have long-term disability. Most have psychological, physical, social, or work-related problems, which often become chronic. By talking with patients and family members, we found that returning to daily activities and regaining quality of life are major concerns. Outcomes are affected by the type and severity of the TBI, but the type of treatment someone with TBI receives is also important. What resources are available, whether providers are experienced with the problems associated with TBI, and how much treatment is available can affect outcomes as well. Currently, inpatient rehabilitation professionals are told to give people with TBI information, reassurance, advice, and referral resources. Some promising ways of helping people with TBI include using telephone and other mobile devices to reach patients after they leave the hospital, to regularly assess their individual needs and help them coordinate their health care, and to provide the information and resources that they need. These new strategies may lead to earlier return to activities and improved quality of life. No studies have compared the standard approach to discharge care with an approach that uses telecare to provide information and care coordination after discharge from inpatient rehabilitation for TBI. The main goal of this project is to find out how improving the transition from the hospital to outpatient care can improve the lives of people with moderate to severe TBI and achieve better results that are important to patients with TBI, their families, and healthcare providers. In this study, patients with TBI who are discharged from inpatient rehabilitation at one of six national TBI Model Systems sites (University of Washington, Indiana University, Ohio State University, Mount Sinai Hospital, Moss Rehabilitation, and Baylor Institute for Rehabilitation) will be randomized (like the flip of a coin) to either the standard discharge plan or the standard discharge plan with additional telephone follow up from a TBI care manager for the first 6 months after discharge. The project team will compare patient and caregiver functioning and quality of life at 3, 6, 9, and 12 months after hospital discharge in these two groups.
The aims of this traumatic brain injury (TBI) study are: 1. to evaluate the short and long-term efficacy of two structured outpatient intervention programs, Resilience and Adjustment Intervention (RAI) vs. RAI with follow up booster sessions (RAI+) on resilience 2. to evaluate the short and long-term impact of intervention on emotional well-being and postinjury adjustment with the RAI vs. the RAI+ 3. to evaluate the short and long-term impact of the RAI and the RAI+ on abilities including problem solving, communication, and stress management 4. to determine if demographic, lifestyle, injury, or treatment response information can predict maintenance of gains