View clinical trials related to Brain Injuries, Traumatic.
Filter by:The investigators will carry out multi-center and large sample research based on the Chinese population, screen the optimal diagnostic and prognosis recognition biomarkers and analyze the diagnostic critical cutoff values in patients with mild to moderate traumatic brain injury, so as to provide a substantial basis for clinical diagnosis and prognosis recognition.
Mindfulness is a promising tool which may foster adaptative interpersonal qualities to reduce the risk of persistent post-concussion symptoms. The present feasibility study will customize and validate a mindfulness mobile smart-phone app easily accessible to youth and families. The study will also determine whether mindfulness training increases quality of life, reduces symptom burden and promotes neurophysiological recovery at 4 weeks post-injury in adolescents who were diagnosed with an acute concussion compared to a cognitive sham app + usual care.
This is a prospective longitudinal study of patients with acute mTBI and comparison with chronic mTBI patients and a cohort without history of TBI or none within 5 years of enrollment. The patients will be recruited from the eligible population at military medical centers in the National Capital Region.
Although, in the past years, an increasing use of ketamine in Traumatic Brain injury (TBI) has been reported as an adjunct to other sedatives, there is no evidence from randomized clinical trial to support this practice. The BIKe (Brain Injury and Ketamine) study is a double-blind placebo controlled randomized multicenter clinical trial to examine the safety and feasibility of using ketamine as an adjunct to a standard sedative strategy in TBI patients.
Photobiomodulation therapy (PBMT) uses light to influence the mitochondria of cells. PBMT of the brain enhances the metabolic capacity of neurons and stimulates anti-inflammatory, anti-apoptotic, and antioxidant responses, as well as neurogenesis and synaptogenesis. Its therapeutic role in disorders such as dementia and Parkinson's disease, as well as to treat stroke, brain trauma, and depression has gained increasing interest. BioFlex is a form of PBMT consisting of light-emitting diodes (LEDs) and laser diodes. BioFlex utilizes red and near infrared light which penetrates tissues up to a certain tissue depth and studies have shown stimulates tissue growth and repair at the cellular level. PBMT has been proven useful for the treatment of soft tissue pain. Several studies have shown benefit in using PBMT in the treatment of certain neurological conditions, including chronic, mild traumatic brain injury (mTBI). The purpose of this exploratory investigation, therefore, is to examine efficacy of BioFlex laser therapy on measures of brain function in patients suffering from PCS after mild-moderate, closed-head, traumatic brain injury cases.
Cortical spreading depolarisations are pathological depolarisation waves that occur frequently after severe acute brain injury and has been associated with poor outcome. S-ketamine has been shown to inhibit cortical spreading depolarisations. The aim of the present study is to examine the efficacy and safety of using S-ketamine for treatment of patients with severe acute brain injury, as well as the feasibility of the trial design.
The project encompasses the development and implementation of an acute care, pediatric concussion clinical pathway at 5 pediatric emergency departments in the province of Alberta (Canada).
"Severe traumatic brain injury (TBI) is a serious condition, common in young adults. It leads to sensorimotor and cognitive sequelae that hinder social reintegration. Neuronal plasticity must be used quickly before natural recovery impedes neuronal regrowth. In this respect, stopping sedation as soon as possible and early mobilization, even if the patients are unconscious, are recognized as useful measures to promote recovery. However, at the early stage, the environment of the ICU and the acute condition of the patients limit the rehabilitation possibilities. In such a context, functional proprioceptive stimulations (Vibramoov™ system, Techno Concept, France) could be a tool of interest. By using the proprioceptive signatures of cyclic movements, proprioceptive stimulations can elicit the illusion of these movements. A motor response can even be obtained through the interactions between the peripheral nervous system and the central nervous system. Finally, such stimulations facilitate the initiation of the mimicked movements. Some studies have already shown the benefits of proprioceptive vibrations. However, so far, these benefits have only been studied at the chronic stage of neurological diseases. The investigators hypothesized that early functional proprioceptive stimulations (FPS) may reduce spasticity and promote recovery in patients with severe traumatic brain injury. To test the hypothesis, the investigators conduct a randomized controlled trial on patients with severe traumatic brain injury. Every patient will be included as soon as possible in the ICU and receive either FPS, either sham stimulations to the joints of the lower limbs, 4 times a week during 8 weeks. The primary outcome measures will assess spasticity. The investigators also assess pain, coma recovery; muscle wasting and cognitive impairments. "
Rebion has developed a device, the Rebion trauma tool (referred to as the head and intraocular trauma tool, or "HITT"), that detects ocular fixation and alignment using a binocular retinal scan. Preliminary data obtained from hospitalized patients with a clinically-confirmed traumatic brain injury (TBI) and uninjured controls indicates that the device can detect changes in ocular fixation, alignment, and saccades that are related to brain injury. This study seeks to evaluate the ability of the Rebion trauma tool to assess perturbations in eye movements resulting from TBI. The study will enroll 100 TBI patients and 100 controls.
Rebion has developed a device, the Rebion trauma tool (referred to as the head and intraocular trauma tool, or "HITT"), that detects ocular fixation and alignment using a binocular retinal scan. Preliminary data obtained from hospitalized patients with a clinically-confirmed traumatic brain injury (TBI) and uninjured controls indicates that the device can detect changes in ocular fixation, alignment, and saccades that are related to brain injury. This study seeks to evaluate the ability of the Rebion trauma tool to assess perturbations in eye movements resulting from TBI. The study will enroll 100 TBI patients and 100 controls.