View clinical trials related to Brain Injuries, Traumatic.
Filter by:The purpose of this study is to find out whether the Home-based Arm and Hand Exercise (HAHE) program improves functions of the upper limb that is affected after traumatic brain injury. HAHE is made up of exercises that simulate real-life tasks.
Traumatic Brain Injury (TBI) is one of the leading causes of death. Severe TBT is correlated with an exaggerated stress response due to plasma catecholamine levels known as sympathetic storming. It is also autonomic dysfunction syndrome. This phenomenon is also associated with brain tumors, severe hydrocephalus and subarachnoid hemorrhage. Patients are presented by tachycardia, tachypnea hypertension, diaphoresis, dystonia, hyperthermia, and dilated pupils with elevated levels of plasma catecholamine and blood glucose .
This study will test the effectiveness of an intervention for Veterans diagnosed with Alzheimer's Disease (AD) or Traumatic Brain Injury (TBI) and the burden on their informal (family/friend) caregiver.
Traumatic brain injury (TBI) has been conceptualized as a chronic health condition, warranting self-advocacy for health management services across the lifespan. Successful self-advocacy requires a combination of cognitive and communication skills (problem solving, organization, negotiation, etc), which may be impaired following TBI. This project focuses on developing and testing the efficacy of an intervention to enhance self-advocacy skills in individuals who have sustained TBI. This two-arm, randomized controlled trial will include approximately 74 participants, recruited in 4 waves of approximately 18-20 per wave, with each wave recruited from a different geographic area of the state. The primary hypothesis states that participants receiving the treatment intervention will demonstrate significantly greater improvements in self-advocacy beliefs (SAS) from baseline to post-intervention as compared to participants in the control group. Treatment will consist of interactive 4-session workshops along with 2 booster phone calls. Control participants will receive a copy of a self-advocacy workbook after all assessments are completed. Baseline, post-treatment and two follow-up assessments will take place.
Using the Blink Reflexometer, athletes are scanned if they are potentially thought to have a concussion during a game or practice.
Observational study to investigate the natural course of intracranial pressure (ICP) after decompressive craniectomy (DC) using long-term telemetric ICP monitoring. Patients will have continuous ICP measurement performed during the admission to the neuro-intensive care unit (NICU) and after discharge weekly measurements sessions will be performed before and after cranioplasty.
The Transition Navigator Trial (TNT) is a pragmatic randomized controlled trial evaluating the effectiveness of usual care plus a patient navigator service versus usual care plus newsletters and other educational materials, to improve transition outcomes among adolescents aged 16-21 who have chronic health conditions requiring transfer to adult specialty care. The study will provide urgently needed data to guide health care providers and policy makers regarding the provision of coordinated transition care. These results have the potential to: 1. Change care delivery 2. Improve health outcomes 3. Improve the experiences of young adult transition to adult care
The present trial intends to assess whether Salovum®, an egg powder enriched for antisecretory factor given to patients with severe traumatic brain injury will improve outcome compared to a control group given placebo egg powder. 100 patients with GCS<9 will be enrolled and randomised to active or placebo treatment during maximum 5 days. Salovum® or placebo will be administered orally by nasogastric feeding tubes. Primary endpoint will be overall 30 data mortality. Secondary endpoints will be intracranial pressure and treatment intensity level.
The purpose of this single center, longitudinal, pilot study is to provide evidence for the use of an eye tracking system as an objective tool to identify mild traumatic brain injury (mTBI) related oculomotor dysfunction (OMD) and predict the effectiveness of neurovision rehabilitation (NVR) of OMD. Eye tracking visual stimulus measurements will be compared to objective developmental optometrist (OD) diagnosis and assessments. It will be determined whether an eye tracking system can predict the presence or absence of mTBI related OMD and whether mTBI patients who have OMD based on the eye tracking system will respond positively to NVR.
The purpose of the study is to assess the usability and tolerability of this jugular vein compression device in a population of helmeted and non-helmeted competitive high school, collegiate and professional athletes in the sports of football and rugby. This study differs from previous work in that it is designed to capture additional data related to the athlete experience wearing the jugular vein compression device in older and more elite playing levels.