View clinical trials related to Brain Injuries, Traumatic.
Filter by:This was a multicenter randomized controlled study of 98 severe Traumatic Brain Injury patients with tracheostomy. Patients enrolled were divided randomly into the observation group with Intermittent Oro-esophageal Tube Feeding (n=50) or the control group with Nasogastric tube feeding (n=48) for enteral nutrition support, respectively. Nutritional status, complications, decannulation of tracheostomy tubes and level of consciousness on day 1 and day 28 were recorded and compared.
This was a multicenter randomized controlled study of 98 severe Traumatic Brain Injury patients with tracheostomy. Patients enrolled were divided randomly into the observation group with Intermittent Oro-esophageal Tube Feeding (n=50) or the control group with Nasogastric tube feeding (n=48) for enteral nutrition support, respectively. Nutritional status, complications, decannulation of tracheostomy tubes and level of consciousness on day 1 and day 28 were recorded and compared.
The project will consist of subjects who have suffered Traumatic Brain Injury (TBI) and who are able to ambulate on treadmill with or without a harness system. This will be a 4-week controlled study consisting of two groups of TBI patients, high-intensity intervention group and low-intensity control group. Both groups will receive physical therapy treatment 3 times per week for 1 hour. The intervention group will undergo 30-minute sessions of high-intensity walking on a treadmill with an overhead harness attached for safety. In addition, they will also get up to 30-minutes of low-intensity physical therapy in order to receive 1 hour of treatment time. The control group will undergo only low-intensity physical therapy activities for 1-hour. Low-intensity physical therapy will include strength exercises, stretches, balance, and low-intensity gait training. All participants in both groups will complete these outcome measures on the first day of the study, after 2 weeks of participation, and again at the end of 4 weeks or on their last day before discharge from Carilion's services. Later on, all participants in both groups will be followed up to complete the same set of outcome measures at the end of 1 month since completion of the protocol. This follow up session will take up to 45 minutes to complete.
This pilot study tests the merits of a unique research approach, transdiagnostic sampling. For Veterans with similar levels of cognitive impairments cause by different types of brain injuries (stroke or traumatic brain injury), this study examines effects of two cognitive restorative treatments. Instead of using the traditional approach to examine treatment effects strictly by cause of brain injury, the transdiagnostic sampling approach recognizes that cause of injury does not drive treatment responsiveness of recovery.
This is a Phase 1, multi-center, randomized, double-blind, placebo-controlled, multiple-ascending- dose trial to evaluate the safety, tolerability, immunogenicity, and pharmacokinetics of intravenous PNT001 in hospitalized patients with traumatic brain injury.
This is a prospective study enrolling 5 patients with a diagnosis of traumatic brain injury (TBI) without polytrauma and 5 patients with TBI with polytrauma admitted to the University of Kentucky (UK) Chandler Medical Center to evaluate differences in platelet bioenergetics in the populations. Additionally, five healthy subjects will be recruited to the control group.
This study evaluates and addresses challenges to implementing an acupuncture intervention for adults who have headaches after sustaining a moderate traumatic brain injury. Eligible participants will be recruited from Seattle and the surrounding areas to receive weekly acupuncture for 12 consecutive weeks. Participants will complete questionnaires to assess headache impact, depression, health-related quality of life, and cognitive function at the beginning of the study and every two weeks for the duration of the study. Participants will participate in structured interviews after the study for their views on the acceptability and tolerability of the study protocol.
The study includes people who have recently had a traumatic brain injury (TBI) and healthy controls who have not had a TBI and is designed to measure brain blood flow serially after a TBI. Studies have shown that small blood vessels in the brain may be injured during a TBI. The goal is to learn about brain blood vessel function from as early as the first week to 6 months after a TBI . The study uses Near Infrared Spectroscopy (NIRS) which uses small lights that detect oxygen levels in the blood, measuring blood flow in the brain. This is compared with magnetic resonance imaging (MRI). When blood flow increases in the brain in response to a stimulus, this is called cerebral vascular reactivity (CVR). The study aims to learn about CVR using a few minutes of special breathing similar to breath holding while in an MRI (magnetic resonance imaging), and CVR measures after one dose of a common drug called sildenafil (generic Viagra) 50 mg taken once during CVR measurements at each of up to 4 visits. The investigators will measure CVR at different times during a 6-month period in participants who have had a TBI to see how CVR measures and blood vessels function during the first 6 months after a brain injury.
Traumatic brain injury (TBI) caused by accidents is a very important public health problem in Taiwan. There are many people with brain damage and cognitive dysfunction caused by traumatic brain injury every year. Currently, there is no effective treatment for cognitive dysfunction caused by traumatic brain injury. Evidence from clinical studies in recent years suggests that hyperbaric oxygen therapy may be a treatment for repairing nerves after brain injury. Many studies have shown that oxidative stress and inflammatory responses play an important role in the pathogenesis of the central nervous system. In recent years, our research team has shown that oxidative stress and inflammatory response are significantly associated with the prognosis of patients with traumatic brain injury, cerebral hemorrhage, and stroke patients. More and more evidences also show that oxidative stress and inflammatory response play an important role in the neuropathological changes of mental cognitive sequelae after traumatic brain injury. This injury may be gradual from the time of head trauma. This process begins with the generation of oxidative stress and free radicals. When the cell repair and free radical scavenging system can not effectively overcome the excessive production of free radicals, an oxidative damage reaction will occur, causing a series of inflammatory cells and cytokines to be activated. Studies have also shown that when inhibiting those free radicals that produce oxidative stress, the neurological function and cognitive function of the head after trauma can be significantly improved. It is becoming widely acknowledged that the combined action of hyperoxia and hyperbaric pressure leads to significant improvement in tissue oxygenation while targeting both oxygenand pressure-sensitive genes, resulting in improved mitochondrial metabolism with anti-apoptotic and anti-inflammatory effects. The investigators published an article this year showing that hyperbaric oxygen therapy can improve the prognosis of patients with acute stroke and increase endothelial progenitor cells in the systemic circulation. The investigators plan to conduct this research project through hyperbaric oxygen therapy and neuropsychological therapy, and using scientific tests and neurocognitive function assessments. The investigators hope to answer the following questions: (1) Whether the treatment of hyperbaric oxygen can improve oxidative stress and inflammatory response after brain injury, and observe changes in biomarker concentration; (2) Whether hyperbaric oxygen therapy and neuropsychological therapy can improve cognitive function after brain injury; and (3) which biomarkers are factors that influence cognitive function prognosis.
Investigate myelin alterations in patients with neurosurgical diseases