Active clinical trials for "Brain Injuries"

The purpose of the study is to monitor longitudinal changes in brain structure and function between the preseason and postseason, in a population of football playing athletes grouped by helmet make and model. Secondly, the purpose is to determine the protection of the helmet make and model relative to amount and magnitude of sustained head impacts.

The study evaluates whether the use of Sodium Oxybate (Xyrem®) in TBI patients will be effective in reducing symptoms of post traumatic narcolepsy and post traumatic hypersomnia.

Traumatic brain injury (TBI) is frequently associated with a hyperadrenergic state accompanied by elevated levels of plasma catecholamines. In its more severe presentation, the hyperadrenergic state presents as dysautonomia, which is characterized by paroxysmal alteration in vital signs, including tachycardia. The investigators hypothesize that intravenous (IV) esmolol is as effective at controlling heart rate in hyperadrenergic states as oral propranolol, which is the standard of care. Our primary endpoint is efficacy of IV esmolol vs a PRN regimen of intermittent B-blockade in controlling heart rate below a pre-specified level (< 100 bpm) after Traumatic Brain Injury (TBI) or hemorrhagic neurologic injury. Heart rates will be recorded continuously as well as hourly.

The hypothesis was that the implementation of a Safe Kids East Central brain injury prevention program targeting children and caregivers admitted to the Georgia Health Sciences University Children's Medical Center is feasible and that short-term treatment effects of injury prevention education on the child or adolescent and the caregiver will increase bicycle helmet use.

The purpose of this study is to learn if an experimental treatment can help thinking ability, and memory in Veterans with mild or moderate traumatic brain injury (mTBI), and post-traumatic stress disorder (PTSD). The experimental treatment is called transcranial, light-emitting diode (LEDs) therapy,and uses groups of LEDs mounted inside a helmet. The helmet is worn on the head, and the LEDs shine painless light on the sides, middle and front of the head through the scalp. The participants receive a series of LED treatments which take place as outpatient visits at the VA Boston Healthcare System, Jamaica Plain Campus. The LEDs contain near-infrared diodes. The FDA considers the LED device used here, to be a non-significant risk device. The LEDs do not produce heat.

The Aim of the Study is to Measure the Effect of Finnish Physician-staffed EMS Unit Treatment Methods on Traumatic Brain Injury (TBI) Patient Prognosis. Physician-staffed HEMS unit was implemented to the EMS 2011. The aim of this study is to compare the results against a historical database to see if the implementation of a HEMS unit will improve the prognosis of TBI patients.

Background: - People with traumatic brain injury (TBI) often have inflammation in the brain. A protein called the translocator protein (TSPO) is often present with inflammation. Researchers want to see if a radioactive chemical known as [11C]PBR28 can be used to study TSPO and inflammation in the brain of people with TBI. Objectives: - To test whether [11C]PBR28 can be used to study changes in the brain after a traumatic brain injury. Eligibility: Individuals at least 18 years of age who have had TBI and have had a brain scan that shows signs of inflammation. Healthy volunteers at least 18 years of age. Design: Participants will be screened with a physical exam and medical history. Blood and urine samples will be collected. All participants will have two brain scans during an outpatient visit. A magnetic resonance imaging scan will study brain activity. A positron emission tomography (PET) scan will use [11C]PBR28 to look for signs of TSPO and brain inflammation. Participants with TBI will have two PET scans within 10 days of the head injury, and a PET scan around 90 days after the injury. They may also have MRI scans under this or another study. Tests of thinking, memory, and concentration will be used to study the effects of the injury and inflammation

The purpose of this study is to determine if it is safe to use stored autologous Human Umbilical Cord Blood (hUCB) to treat pediatric patients that sustain a severe or moderate Traumatic Brain Injury (TBI), and have not fully recovered as measured by the Glasgow Outcome Score-Expanded (GOS-EC)/Child at 6 to 18 months post-injury.

To date, few studies have been done regarding nutrition supplementation in infants with brain injury. Therefore, the investigators are proposing to study the effects of protein supplementation in this group of babies. The investigators will recruit 24 infants with brain injury (evidence of hemorrhage, white matter injury, or gray matter injury) admitted to the Cincinnati Children's Hospital Neonatal Intensive Care Unit (NICU) into the study. Upon diagnosis, the investigators will obtain consent from the parents for participation in the study, then randomly assign the baby to one of two groups - an increased protein group and a control group. Both groups of infants will be monitored to ensure no adverse effects occur due to the supplementation. Protein supplementation will continue for the first 12 months of age. Growth parameters, such as weight, length, and head circumference, will be measured while the infant is the NICU. Head circumference will be measured in the investigators outpatient clinic at three, six, and 12 months of age. At 18-22 months, the infants will be tested for neurodevelopmental outcomes using the Bayley Scales of Infant Development. The investigators hypothesize that infants who receive the additional protein will demonstrate increased head growth and improved neurodevelopmental outcomes.

This open label trial is conducted to investigate the efficacy and safety of umbilical cord blood therapy for chronic traumatic brain injury patients. The study hypothesis is that the participants will show significant improvement in cognition and function after Umbilical cord blood (UCB) transplantation.