View clinical trials related to Brain Injuries.
Filter by:This study will attempt to evaluate clinical, laboratory and radiographic parameters together to assess heir values in outcome prediction from brain injury. Patients will be followed up for a period of 6 months, following admission to ICU, to assess outcome, using the Extended Glasgow Outcome Score (GOSE). We hypothesise that it is possible to reliably predict outcome in brain injury from the current investigations we have at our disposal.
This is a multi-centre randomised trial to evaluate the effect of early decompressive craniectomy on neurological function in patients with severe traumatic brain injury. The primary outcome is neurological function measured at 6 months post injury using the Glasgow Outcome Score. Neurological function is qualified as proportion of favourable outcomes (Glasgow Outcome Score Extended [GOSE] grades 5-8).
Donated red blood cells vary in how old they are, that is, how long they have been stored since being collected from donors. Blood that has been donated is stored for a maximum of 42 days, after this time it is expired. That means that red blood cells that are given to patients as a blood transfusion can be anywhere from a few days old to 42 days old. The average age of blood that is given as a blood transfusion in this hospital is 21 days old. As stored blood gets older its ability to carry oxygen may be reduced. Whether or not this is important in patients with a brain injury is not currently known. The purpose of this study is to try and determine if fresh blood (less than 5 days old) is better than old blood (greater than 20 days old) in improving the supply of oxygen in patients who have suffered an injury to their brain.
The purpose of this trial is to determine if mild hypothermia therapy, for severe head trauma patients, improves neurological outcome.
The Vietnam Head Injury Study (VHIS)-Phase III is a prospective, long-term follow-up study of head-injured Vietnam veterans. The purpose of this research study is to determine the long-term consequences, if any, of head injury.
The researchers' objective is to use diffusion-tensor imaging (DTI) to evaluate infants diagnosed with cerebral white matter injury during the neonatal period and identify antenatal risk factors, electronic fetal heart rate monitoring abnormalities, and umbilical arterial gas results that are associated with cerebral white matter injury. The researchers' hypothesis is that this new imaging technique will help us better understand how these devastating injuries occur.
Each year a large number of patients are hospitalized at Shock Trauma Centers with severe head injuries. Bleeding into and swelling of these patients' brains may cause compression of vital structures, disability and death. Sometimes surgery is needed. Unfortunately, the investigators have no medication to treat the bad effects of head trauma. Part of the brain damage is due to toxic chemicals (including one called glutamate) that are released by the damaged nerves. Dexanabinol may prevent some of the bad effects of glutamate on the brain and may protect the brain against uncontrollable swelling and death.
This study is conducted in North America. The purpose of this study is to evaluate the occurrence and severity of bleeding in brain injury and to identify important safety issues following traumatic brain injury.
Adults who sustain brain damage due to stroke, head injury, or traumatic surgery may develop difficulty reading. This study examines the effectiveness of behavior-based programs to improve reading ability in these individuals.
Prospective memory (PM) is memory to complete future tasks, such as recalling to give a note to someone when you next see them, pick up milk on the way home, or remembering to keep an appointment. This study will evaluate PM in children with traumatic brain injury (TBI).