View clinical trials related to Brain Concussion.
Filter by:The purpose of the study is to determine if a specific blood protein, S-100B, can help predict who will have a traumatic abnormality on head CT scan after a concussion. We will compare the levels of this protein in the subject's blood to the initial head CT scan and to how the subject is feeling one month after injury. We hope that the information we collect in this trial will help us determine who needs a head CT scan after a concussion and who may be more likely to have trouble recovering from a concussion.
Brain injuries from trauma are common in children, often resulting in death and disability. Most brain injuries are minor, yet their treatment can be challenging. Because there are many different scales used to characterize the severity of brain injury, there is no consensus regarding how to manage patients with minor brain injuries. Specifically, there is no agreement on recommendations regarding the safety of return to activities following injury. In young athletes with minor brain injuries (i.e. concussions) there is strong data suggesting that return to baseline neurologic function is often delayed by days or weeks. Children allowed to return to activities too soon may be at a higher risk for a second concussion, may delay recovery or, in rare cases, die. Researchers have designed a computer-based testing system (ImPACT©) to objectively test for neurologic deficits following injury. This test has been used primarily in athletes following a concussion but is also applicable to children with brain injuries from non-sports related traumas. We propose to utilize this testing in pediatric patients admitted to the hospital with minor brain injury. The test would be administered at the time of the hospitalization as well as in the outpatient trauma clinic at the time of routine follow up. The test would allow us to determine if there are neurologic deficits, potentially subclinical, in these brain injured patients and how quickly they recover from their injuries. If successful, the testing will likely be useful in other clinical settings such as the primary care office (e.g. pediatrician), specialty care office (e.g. sports medicine), or emergency room to determine if an injured child requires additional intervention.
In an on-going study of visual characteristics of personnel diagnosed with a mild traumatic brain injury (MTBI) related to their service in Iraq and Afghanistan we found a high rate of binocular vision problems (such as double/blurry vision, reading difficult, etc.). These individuals are also usually diagnosed with post traumatic stress disorder (PTSD). PTSD is known to cause some vision symptoms. We wish to conduct this study on individuals with PTSD (but not an MTBI) to see if they have symptoms similar to those in individuals who have MTBI. This will provide us with information useful in determining the specific cause of the visual symptoms in the MTBI population.
Approximately 1.1 million people a year suffer a mild traumatic brain injury (MTBI), or concussion, in the United States. Although most MTBI patients fully recover, as many as 28% have physical, cognitive, and/or emotional symptoms up to 6 months post-injury. When symptoms persist past three months, it is known as post-concussion syndrome (PCS). The cause of PCS is unknown, as structural neuroimaging and neuropsychological (NP) testing results are often normal. However, recent functional magnetic resonance imaging (fMRI) research in concussed adults showed differences in brain activity compared to controls on working memory tasks, despite normal structural MRI and neuropsychological findings. We propose improving this research by assessing brain activation patterns during simple versus complex attention and working memory tasks in 10 concussed adults via fMRI. This will be the first study to examine brain activation patterns associated with the degree of effort applied to testing, a factor known to confound interpretation of NP test performance. Validated computerized measures of selective attention (Modified Stroop Interference Task), working memory (n-back), and effort (Green's Medical Symptom Validity Test; MSVT) will be used. Ten paid controls will be used for comparative purposes. We hypothesize that concussed patients will show less brain activation than controls on complex versus simple working memory tasks and that activation patterns in concussed patients will generally be lower in those with suboptimal effort. We will also characterize self-reported emotional and physical symptoms in the PCS patients, which has not been done in prior fMRI research with this population.
The purpose of this study will be to assess the attentional ability of patients with mild to moderate traumatic brain injury (TBI) using the functional Magnetic Resonance Imaging (fMRI) technique. Methodology for specific aim 1: sagittal pilot scan, 3-D anatomical MRI, Whole brain echo-planar imaging (EPI), and functional MRI techniques with traumatic brain injured subjects doing a Continuous Performance Test (CPT) attention task and compare the pattern of activation with those of normal controls to see if there is a failure to activate frontal lobes in the traumatic brain injured subjects.
The purpose of this study is to see whether providing education and counseling after a mild traumatic brain injury will help in preventing symptoms from becoming chronic over the first six months after injury.
The purpose of this study is to learn if using the World Wide Web to train teens and their families in problem-solving, communication skills, and stress management strategies can help them to cope better following traumatic brain injury (TBI). To answer this question, we will look at changes from before the intervention to after the intervention on questionnaire measures of problem-solving skills, communication, social competence, adjustment, and family stress and burden. We hypothesize that families receiving the TOPS intervention will have better parent-child communication and problem-solving skills at follow-up than those receiving the IRC intervention. Additionally, families receiving the TOPS intervention will have lower levels of parental distress, fewer child behavior problems and better child functioning than those receiving the IRC intervention. Lastly, treatment effects will be moderated by SES and life stresses, such that families with greater social disadvantage will benefit more from the TOPS intervention.
Mild traumatic brain injury (TBI) is a common injury that can produce significant functional sequelae and ongoing disabling symptoms. Predicting who will have an uncomplicated recovery and who will suffer ongoing symptoms is difficult. This protocol evaluates the use of neuropsychologic testing after mild TBI in injured patients to attempt to objectively establish predictors of long term disability and functional recovery.
The purpose of this study is to find out if 3% hypertonic saline (salt-water solution) given in a vein improves the headache that may be caused by a concussion. 3% hypertonic saline may also improve some of the other symptoms that may be caused by concussion (for example: confusion, nausea, vomiting). This research is being done because there have been previous experience which suggests that 3% hypertonic saline has been beneficial in the treatment of children with more severe brain injury.
Head impacts in sports can lead to brain injury even when the participant is wearing a helmet. The forces that contribute to brain injury from sports-related head impacts are not well understood. This study will test a new device to measure the speed of head impacts among football players.