View clinical trials related to Brain Injury.
Filter by:This study is studying the effects of Mindfulness Based Stress Reduction (MBSR), a standard protocol of gentle yoga and breath meditation, on patients with Traumatic Brain Injury (TBI). The investigators are testing whether this intervention can help improve the stress response and increase resiliency and mindfulness for patients with TBI, which may lead to improved symptoms and neurocognitive function.
It has already been demonstrated that mental imagining of the complex motor act, such as limb lifting, can evoke the activation of the involved motor centres even if it doesn't result in movement due to paresis. Aim of the study: using the navigated brain stimulation system create a new diagnostic model for the differential diagnostics between the vegetative state and the minimally conscious state. If the investigators could get from patient the efferent motor response after a verbal command, his level of conscious should not be defined less than the minimally conscious state.
The purpose of this study is to assess for vasospasm using Transcranial Doppler (TCD) and brain injury biomarkers, and evaluate neurocognitive outcome data in pediatric traumatic brain injury (TBI) patients who have experienced a mild to severe head injury.
The primary objective of the protocol is to study the long-term outcome of a large group of traumatic brain injury patients. This outcome is to be described in terms of activity, participation, quality of life, SOCIO-professional outcome and impact on caregivers, and in relation to health care provision. The secondary outcome is to measure the impact on functional outcome of several predictive factors, and their relative importance on outcome. Our principal hypothesis is that SOCIO-professional and health provision factors play a major role on long-term outcome, further even than initial severity of brain injury.
The objective of the study is to compare the usual care and treatment of children and youth (0-19 years) with multiple developmental delays and disabilities and their families in Simcoe York with a co-ordinated, navigated approach to care using the Children's Treatment Network (CTN) services.
Vibration therapy is used for different indications in rehabilitation and sports medicine. So far, vibration therapy has not been investigated within the ICU setting. The investigators created this setting to show safety and applicability of vibration therapy in ICU patients. 30 patients will be stimulated by vibration therapy on two separate days during their ICU stay. Three collectives of equal size will be observed: One with patients on mechanical ventilation without signs of infection or suspected intracranial pressure problems, a second one with patients on mechanical ventilation in addition to signs of systemic inflammation but absence of suspected intracranial pressure problems, and a third one with patients on mechanical ventilation, signs of systemic inflammation in addition to presence of controlled intracranial pressure problems. Typical parameters of hemodynamic status, intracranial pressure and energy metabolism will be recorded for a defined period of time before, during and after vibration therapy itself. Vibration therapy will be combined with protocol based physiotherapy. Our aim is to show the effects of vibration therapy in ICU patients and its safe applicability. ADDITION 06th of May 2011: Additionally we will perform euglycaemic hyperinsulinemic clamp and intervention on one day of ICU stay in 20 patients. Under clamp conditions we will perform a vibration therapy (ProMedVi Vibrosphere™) on patients' legs. On top we will perform electrical muscle stimulation (schwa-medico, MUSKELaktiv™) on one ventral upper leg, randomized chosen. Measuring the local skeletal muscle metabolism will be done by microdialysis in Vastus lateralis on both sides - comparing vibration therapy and vibration therapy combined with electrical muscle stimulation.
The purpose of this study was to address 3 short term objectives; (1) Determine the effects of physiologic testosterone (T) therapy on neurological function and functional independence following traumatic brain injury (TBI) in hypogonadal men during inpatient rehabilitation; (2) Document the natural history of neuroendocrine dysfunction and recovery in men during inpatient rehabilitation after TBI; (3) Obtain data to validate the NIH toolbox, a novel assessment of neurological function for use in the TBI population; and 2 long-term objectives: (1) Utilize study findings to design a multicenter trial to further assess the impact of T therapy in hypogonadal men following TBI and (2) Impact TBI practice management with new information about neuroendocrine dysfunction after TBI and hormone treatments to improve outcomes.
Development of acute lung injury (ALI) and acute respiratory distress syndrome (ARDS) in patients with severe brain injury has been associated with poor outcome. The application of lung recruitment maneuvers (RM) for a short period of time to open collapsed alveoli and reverse hypoxemia in early ARDS has been recommended. However, little is known about the cerebral and vascular effects of RM in brain injury patients with ALI/ARDS. The aim of this study is to assess the effects of a single standardized RM on oxygenation and on systemic and cerebral hemodynamics in severe brain injury patients with ALI/ARDS.
The purpose of this study is to evaluate Brain MRI (Magnetic Resonance Imaging), and Brain CT (Computed Tomography) Angiogram data in subjects who participate in the "Hyperbaric Oxygen for Chronic Stable Brain Injury" (HYBOBI) study. Including information from MRI and CT studies provide information about whether hyperbaric oxygen improves brain function in subjects who have had a brain injury. Subjects will complete MR and CT scans twice during the study. The first MR and CT will be performed prior to the first hyperbaric session of the HYBOBI study, and the second will be performed within two weeks following the last hyperbaric session.
Some of the most common and disabling consequences of brain injury are deficits in cognition, such as difficulty with sustained attention, memory, organization, and goal management. The long-term goal of this research program is to develop and test novel neuroscience-based cognitive interventions for improving attentional regulation and related "executive function" brain processes involved in goal-directed behavior.