Cranial-nerve Non-invasive Neuromodulation (CN-NINM) for Balance Deficits After Mild Traumatic Brain...
Mild Traumatic Brain InjuryThe purpose of this study is to determine the feasibility of combining PoNS therapy with standard vestibular and balance therapy with the proposed double-blind design; evaluate preliminary indications of efficacy. This study is also evaluating recruitment rate, completion rate, device usability, and outcome measures feasibility. Goal for recruitment: 100% of 30 subjects meeting all inclusion criteria can be recruited over the 36 week pilot recruitment phase. Completion and compliance: 90% of subjects will complete the study, 90% of sessions within each subject will be completed, and for completing subjects, 100% of measures will be completed. Useability: all therapists and subjects must rate useability as good or better. Success of blind: subject accuracy at guessing group membership must be at or near 50%.
Amantadine and Temporal Discrimination in Patients With Traumatic Brain Injury (TBI)
Traumatic Brain InjuryThe study will explore the neurocognitive effect of four weeks of treatment with amantadine versus placebo in patients with traumatic brain injury using the Interval Bisection Timing Task. Approximately 16 individuals with traumatic brain injury are expected to participate in this study. Subject participation is expected to last up to 8 weeks with 16 study visits.
Mag Con: Efficacy of Oral Mag. in Acute Concussion in Adolescents
ConcussionMild2 moreThis randomized trial will compare the clinical efficacy of adding oral magnesium oxide to acetaminophen and ondansetron in the treatment of adolescents presenting within 48 hours of a mild traumatic brain injury using the Post-Concussion Symptom Severity Score Index.
Amino Acid Supplementation in Recovery From Traumatic Brain Injury
Traumatic Brain InjuryTraumatic brain injury (TBI) is a leading cause of death and disability in young people. It has been called the "signature wound" of the Iraq war because of its frequency among troops. TBI is associated with many chronic disabilities. Physical alterations include reduced exercise tolerance and profound muscle weakness, whereas psychological alterations include diminished sense of well-being, depression, fatigue and anxiety. Muscle and brain tissues rely upon circulating blood amino acids as precursors for metabolic functions. The investigators have shown that even one year after injury, plasma valine, an essential amino acid (EAA), was markedly reduced in patients with TBI compared to healthy controls. The investigators speculate that low plasma valine concentration contributes to chronic fatigue after TBI, since valine and tryptophan compete for the same transporter into the brain, and a low plasma valine concentration will allow more tryptophan to be transported. As a consequence, increased brain tryptophan will increase serotonin production, which may significantly contribute to the development of fatigue. Thus, the investigators will test if restoring valine concentration in persons with TBI may reduce fatigue perception and improve physical and neuropsychological function. Further, the investigators have previously shown that EAA intake has an anabolic effect in healthy young and elderly individuals. However, no data are currently available in persons recovering from TBI. Thus,the investigators will also test if EAA and/or valine can improve muscle mass in patients with TBI.
Safety of Dexmedetomidine in Severe Traumatic Brain Injury
Traumatic Brain InjuryThe aim of this study is to assess the safety and feasibility of dexmedetomidine as an adjunct to conventional sedative therapy compared to conventional sedative therapy alone in patients with severe traumatic brain injury.
Severe Trauma Registry in Tarragona
Major TraumaTraumatic Brain InjurySevere trauma is one of the leading causes of morbidity, mortality, and disability worldwide. Currently, it is the primary cause of death among individuals under 45 years of age. This disease, considered a "silent pandemic," exhibits heterogeneous physiopathology and unequal geographic distribution in terms of the type of injuries. The prognosis of subjects who have suffered severe trauma is uncertain, especially in patients with traumatic brain injury. The epidemiology of severe trauma has undergone changes in recent years due to the global aging of society, resulting in different populations with older ages and more associated comorbidities. These factors are frequently linked to the use of chronic treatments such as antiplatelet agents or anticoagulants, which could worsen traumatic hemorrhage-the leading preventable cause of death following severe trauma. Despite efforts for primary prevention, such as road safety campaigns and occupational risk prevention, the annual incidence of severe trauma cases worldwide remains high. Enhancing the management of trauma patients would significantly influence the final clinical outcomes. Given the aforementioned, it is of vital importance to understand the local epidemiology of severe trauma for the development of clinical research. This constitutes an effective tool to investigate changes in clinical practices, improve prevention strategies, and determine the global burden of the disease. The hypothesis of the IcuTrauma Project is to create a territorial Registry of adults with severe trauma admitted to the ICU to understand the local epidemiology in Tarragona (Spain). This initiative would facilitate new lines of clinical research aimed at improving outcomes and the quality of care for trauma patients.
The Multicenter Italian INCEPT (INfarto CErebrale Post-Traumatico) Study
TBI (Traumatic Brain Injury)Stroke AcuteTraumatic brain injury (TBI) is a leading cause of death and disability worldwide (Ghajar, 2000). With an estimated annual incidence of up to 500 per 100,000 population and more than 200 hospital admissions per 100,000 admissions in Europe each year, TBI is a major challenge to public health (Lingsma, 2010). Mortality and morbidity after TBI depend on several factors, either associated with patients characteristics, the cause of TBI, the neurological and general severity and secondary brain insults, the structural brain alterations as diagnosed at brain computed tomography (CT) (Rosenfeld, 2012). The prognostic value of brain CT characteristics is well documented, including the status of basal cisterns, midline shift, the presence and type of intracranial lesions, and traumatic subarachnoid hemorrhage (Maas, 2008). Postraumatic cerebral ischemia, which includes functionally impaired yet still viable tissue, so-called ischemic penumbra, and irreversible cerebral infarction (PTCI), is frequent in patients who die after moderate or severe head trauma (Stocchetti, 2014). Evidence of antemortem occurrence of PTCI is limited to three single-center retrospective studies, reporting a varying prevalence of 1.9%, 8% and 19.1% (Mirvis, 1990; Marino, 2006; Tawil, 2008). Increased intracranial pressure (ICP), blunt cerebral vascular injury, need for craniotomy and treatment with recombinant activated factor VII, have been demonstrated to be risk factors for PTCI. In one study, PTCI was an independent risk factor for poor outcome after moderate or severe head trauma with a two-fold increase in mortality and severe disability (Marino, 2006). PTCI can be an important diagnosis in patients with significant TBI for various reasons. First, it might influence long-term outcome. Second, as an outcome that is measurable, and relevant to survival and lifestyle, PTCI could be used as an outcome measure in randomized controlled trials. Third, diagnosis of PTCI could be used as a standard diagnostic reference to validate early surrogate indicators of cerebral ischemia. The investigators therefore planned a multi-center prospective study to investigate the impact of PTCI on disability at hospital discharge, and on 6-month morbidity and mortality in a population of moderate and severe adult TBI patients. The investigators also evaluated the role of intracranial hypertension, decreased cerebral perfusion pressure, hypotension and other secondary ischemic insults in determining the appearance of PTCI.
Long Term Effects of Erythropoietin in Patients With Moderate to Severe Traumatic Brain Injury
Traumatic Brain InjuryTraumatic brain injury is catastrophic event that commonly require treatment in an intensive care unit. Management is mainly supportive aiming at avoiding hypoxia, hypotension, hypoglycaemia and increased intracerebral pressure. Thus far efforts to find a specific pharmacologic therapies have been disappointing. Recently it was demonstrated that recombinant erythropoietin has been found to decrease mortality at six months from injury but without significantly improving functional neurological outcome (GOSe). Whether this survival benefit of EPO is sustained beyond 6 months is unknown. In the current study survival data will be collected centrally and patients alive or person responsible will be invited to participate in an evaluation of neurological function and quality of life. Factors associated with time to death as well as factors associated with long term quality of life will be determined with statistical methods.
Prehospital Severe Traumatic Brain Injury
Traumatic Brain InjuryThe aim of the study is to measure the effect of Finnish physician-staffed EMS unit treatment methods on traumatic brain injury (TBI) patient prognosis. In the second part of the study the gathered data will be combined with the data from an earlier study (NCT01454648) for regression analysis. The aim of the second study is to identify prehospital factors influencing the prognosis of prehospital TBI patients.
Evaluation of Military Service and Family Members for Post Concussive and Posttraumatic Stress Symptoms...
TBI (Traumatic Brain Injury)This protocol is designed to facilitate the recruitment, screening and registry of Military Service Members (SMs) and individuals eligible for care in the Department of Defense (DoD) healthcare system. This protocol will serve as an entry point for SMs, retirees and other beneficiaries, to facilitate their participation in Center for Neuroscience and Regenerative Medicine (CNRM)-sponsored clinical research studies at participating CNRM sites. Specifically, this protocol will be comprised of an initial evaluation of participants, to include questionnaires, a blood draw, and neuroimaging. This evaluation will enable investigators to direct participants to CNRM-sponsored natural history, observational, or interventional protocols that are most relevant to the individual interests and needs of each participant. Other approved CNRM protocols may continue to recruit participants directly into their respective studies, and may refer participants to this study. The objective of this protocol is to develop a broad-spectrum military subject recruitment database that will collect and store preliminary data on research participants who are interested in and potentially eligible for current and future CNRM sponsored studies. The effectiveness of the recruitment methods utilized in this protocol will be evaluated to determine the most successful outreach approaches and recruitment tools for the enrollment of participants, including both active and reserve component SMs along with others who are eligible for care in the DoD healthcare system, who have experienced traumatic brain injury (TBI), psychological health (PH) concerns, or are interested in participating in studies as controls. Control participants may include (i) those with exposure to primary blast without the development of TBI, (ii) those with physical injuries without experiencing head injury, and (iii) healthy participants (non-injured, non-TBI, non-PH).