View clinical trials related to Brain Injuries.
Filter by:What is the CHAMP Study? The CHAMP Study is a multisite clinical trial funded by the National Institutes of Health that is comparing the efficacy of alternative therapies for young children with unilateral spastic cerebral palsy (or hemiparetic cerebral palsy). Children who meet study eligibility criteria at one of the three clinical sites (Roanoke, VA; Charlottesville, VA, and Columbus, OH) will be invited to enroll, and their parents will be provided all necessary paperwork along with informed consent documentation. Assignment to one of the alternative therapy conditions will be random. Participation in the study includes assessment of each child prior to treatment, close monitoring of the child's progress during treatment, and post-treatment evaluation at the end of therapy, as well as, 6 and 12 months later. Parents will have an active role in the project, both observing their child during therapy sessions and then engaging in home-based activities that allow the child to practice and extend new motor skills. There will be no charge for the therapy provided. What are the therapies being tested? In the past decade or so, a new form of therapy for children with hemiparetic cerebral palsy was developed and has shown to produce positive changes in individual children and in small clinical trials (e.g., DeLuca, Echols, Ramey, & Taub, 2003; DeLuca, Echols, Law, & Ramey, 2006; Case-Smith, DeLuca, Stevenson, & Ramey, 2012). The therapy is named Constraint-Induced Movement Therapy (CIMT) and refers to a multi-component form of therapy in which the child has the unimpaired or less impaired upper extremity constrained (by a cast or a splint) while also receiving active therapy from a specially trained therapist who shapes new skills and functional activities with the child's more impaired upper extremity. Traditionally, CIMT therapy dosages have been high - often lasting many hours per day, 5 days a week, for 4 consecutive weeks. There are important clinical and scientific questions that need to be answered about the effects of different dosage levels and about different types of constraint on the child's more functional (less impaired) arm and hand. This study will be the first that will directly compare different amounts of therapy and different types of constraint to evaluate what "works best" for young children. The therapy is very play-like and engaging for children, and no negative effects of casting or the high dosages have been detected in previous clinical trials. Who is eligible: Children between 2 and 8 years of age with a diagnosis of unilateral spastic cerebral palsy or hemiparetic cerebral palsy. Children must be relatively healthy, not currently receiving Botox (or other similar medications), and able to understand simple communication and instructions. In advance, the treatment will be explained in detail to parents and a written protocol available to share with the child's physician and other current therapist for review. During the one month of treatment, children will not receive other forms of physical or occupational therapy.
This study is a prospective multi-centre randomized trial to compare the effect of long-term mild hypothermia versus routine normothermic intensive management in patients with severe traumatic brain injury. The primary hypothesis is that the induction of mild hypothermia (maintained at 34-35℃) for 5 days will improve the outcome of patients at six months post injury compared with normothermia.
This open label trial is conducted to investigate the efficacy and safety of allogeneic umbilical cord blood (UCB) therapy for patients with acquired brain injury.
Protective ventilation (association of a tidal volume < 8 ml/kg with a positive end expiratory pressure) is poorly used in severe brain-injured patients. Moreover, a systematic approach to extubation may decrease the rate of extubation failure and enhance outcomes of brain-injured patients. We hypothesized that medical education and implementation of an evidence-base care bundle associating protective ventilation and systemic approach to extubation can reduce the duration of mechanical ventilation in brain-injured patients.
Our overall goal in this proposed study is to describe the current prehospital trauma triage process for older adult (age≥55) patients with suspected Traumatic Brain Injury (TBI), to identify the effect of certain medications (anticoagulants and platelet inhibitors) on TBI-related need for trauma center services, and to identify novel TBI screening strategies that are feasible for use in the prehospital setting.
The primary goal of this study is to establish and evaluate an image-based biomarker for the impaired motor control and sensory information processing present in Cerebral palsy (CP) and stroke patients.
Traumatic brain injury is an extremely common disease, it counts 50.000 deaths and 235.000 hospitalizations every year. Functional consequences of an acquired brain injury have a considerable impact on quality of lives of patients and care-givers with direct effects on balance, mobility and on psycho-social functions. Attention deficits are one of the most frequent and disabling consequences of severe brain injury. Within the wide spectrum of attentive problems, patients with traumatic brain injury frequently have shown difficulties in divided attention. Patients, care-givers and professionals frequently refer difficulties also in selective attention and vigilance as consequence of the trauma. It has been shown how these difficulties are tightly related with the missed return to work after two years from the injury. The hypothesis of this study is to investigate the feasibility of a rehabilitative protocol on gaming using the console Xbox and its efficacy in improving balance, mobility, risk of falling, attentive functions (selective and divided attention) in subjects which have had a traumatic brain injury at least 12 months before.
Stroke, head injury and other forms of brain injury are a major cause of physical, psychological and social disability in the adult population. Psychological distress is common following brain injury, but the evidence base for specific psychotherapeutic methods in this population is limited, and standard treatment approaches may not be suitable. Recently there has been a growing interest in positive psychology - the study of wellbeing, positive emotions and characteristics, and personal growth. The investigators believe that positive psychotherapy interventions may be beneficial after acquired brain injury, to reduce psychological morbidity. Because such interventions have not previously been applied in this population, the investigators propose to conduct a pilot randomised controlled trial to examine the feasibility of a brief positive psychotherapy intervention in an out-patient setting. This project will produce essential information to allow us to plan future full-scale clinical trials in this area.
The investigators propose to conduct a 2-arm, open-label pilot study to determine if early treatment with amitriptyline will decrease the frequency and severity of headaches after mild traumatic brain injury (TBI). Amitriptyline is a tricyclic antidepressant that is commonly available and inexpensive. It is used as a first-line drug for primary headache prevention in a very low dose range of 10-50 mg. - Specific Aim 1 is to conduct a 2-arm open-label study to examine the effect of preventive treatment with amitriptyline on the frequency and severity of headache after mild TBI. - Specific Aim 2 is to collect data needed for design of a Phase 3 study, including an estimate of effect size, headache variability, and desirable drug treatment start date. - Specific Aim 3 is to examine the feasibility of using headache diaries with individuals with mild TBI. - Specific Aim 4 is to establish the safety and tolerability of amitriptyline for the prevention of headache after mild TBI. The investigators hypothesize that early preventive treatment with amitriptyline will avert the development of chronic post-traumatic headache (PTH) as compared to rates of headache from a recent natural history study on PTH after mild TBI. The investigators propose to enroll inpatient subjects from a Level I trauma center as well as from outpatient clinics and from the general community with a diagnosis of mild TBI. Subjects will be screened for current headache. After baseline assessment, 72 subjects with current headache will be randomized to one of 2 groups. Group 1 will immediately begin amitriptyline and or Group 2 will be followed and begin amitriptyline at Day 30. All subjects will be asked to complete a daily headache diary beginning on Day 1 of the study. A detailed medical history and headache survey will be completed. Subjects will have a scheduled stepped increase in the drug dosage every week for 3 weeks to the maximum study dosage of 50 mg. Weekly telephone calls will monitor for adverse events and compliance with the drug and headache diary. Clinic visits will occur at 30, 60 and 90 days. The 30 day clinic visit will include cognitive testing to assess for differences between groups and initiation of drug treatment for Group 2. Both 30 and 60 day visits will include review of headache diary, potential adverse effects, and pill counts. The 90 day visit will be for outcome assessment. In addition, the headache survey will be repeated by telephone at Day 180.
Pediatric severe traumatic brain injury (TBI) is the leading cause of death and disability in children ages 1-14 years old. There are no effective therapies to treat secondary brain injury and the post-injury response of CNS apoptosis and neuroinflammation. This study is a follow-up trial from a previously performed Phase I trial that demonstrated the safety and potential CNS structural preservation effect of intravenous autologous bone marrow mononuclear cells (BMMNC) after severe TBI in children. (Cox, 2011) The study is designed as a prospective, randomized, placebo controlled, blinded Phase 2 safety/biological activity study. The investigators hope to determine the effect of intravenous infusion of autologous BMMNCs on brain structure and neurocognitive/functional outcomes after severe TBI in children.