View clinical trials related to Head Injury Trauma.
Filter by:The goal of this observational study is to develop and validate a clinical tool to predict which adolescents aged 11 to less than 18 years of age with mild traumatic brain injury (mTBI) are at an increased risk for developing significant new or worsening mental health conditions. The main aims the study wish to answer are: - Does the adolescent have new or worsening depression or anxiety defined as a change from their previous medical history using self-reported questionnaires at either one or three months post-injury? - Does the adolescent have unmet mental health care needs, defined as not receiving any mental or behavior health care in patients with new or worsening anxiety or depression as defined by the self reported questionnaires? Participants will be enrolled after being diagnosed in the emergency department (ED) with an mTBI. During the ED visit, the child's parent/caregiver and the adolescent will complete several questionnaires related to mental health which include tools to measure anxiety and depression. Participants will be asked to complete these questionnaires again at 1 month and 3 months post enrollment.
This pilot study aims to assess if participants that meet the criteria for a TES diagnosis have a specific tau deposition profile on PET scanning using the PET tau binding ligand - [18F] PI-2620. It is hoped this study will highlight potential diagnostic tests of TES diagnosis, the in-life correlate of CTE.
Head injuries are a common reason for consultation in emergency departments. The clinical severity of head injury is assessed using the Glasgow Coma Scale (GCS). Between 71% and 97.5% of patients with head trauma seen in the emergency department are considered minor, that is to say with an initial GCS 13 and the consequences are quite variable. Three to 10% of patients will have short, medium or long-term health consequences. According to the studies, there are between 2.1 and 8% of intracranial bleeding immediate or delayed (up to one month), with about 1% of them, the need to resort to neurosurgery. Following a minor head trauma, it is recommended, in the absence of clinical signs of severity, to realize a brain scan (cerebral computerized tomography scan (CT scan): reference imaging examination) within 6h (between 4 hours and 8 hours according to studies), a hospital surveillance of 24h, with the realization of a control scanner within 12 hours to 24 hours in case of treatment by anticoagulants or antiaggregation. In December 2015, Journal of the American Medical Association published an article evaluating two clinical algorithms across the Atlantic, the New Orleans Criteria (NOC) and the Canadian CT Head Rule, to identify a group of patients with a very low risk of severe brain damage. The performance of this score is unquestionably, however, it does not include patients treated with antiplatelet or anticoagulant drugs; risk factors having a decisive impact on the incidence of intracranial bleeding. In this context, various studies have been carried out retrospectively in Angers to assess the incidence and risk factors of the occurrence of an immediate or delayed intracerebral hemorrhage in patients with minor head trauma with or without anti-thrombotic treatment.
Concussions are consequences of inopportune interactions between an impact force and the head that causes the head (and brain) to move too rapidly. This project involves two parts. 1. The outcome of head-impact depends upon the force and the biomechanical properties of the head-and-neck. Modern microelectrical mechanical systems (MEMS) head-impact sensors only measure the physical parameters of external forces. The researchers have developed a next-generation smart MEMS sensor fortified with artificial intelligence (AI) that can help define a personalized concussive threshold. The researchers sensor machine-learns the biomechanical properties of the participant's head-and-neck and accurately determines the likelihood for concussive injuries. The researchers first goal is to field-test the sensor in soccer players. 2. Researchers hypothesize that an increase in neck stiffness should reduce concussive risks. The researchers have developed a training protocol that involves a conditioned response (CR) to increase neck stiffness during a head-impact event and thereby decrease concussion risk. The Researchers have also developed technology to monitor neck stiffness. The smart sensor is fully integrated into the training protocol and monitors the neck stiffness to validate the effectiveness of the training. The second goal is to optimize and finalize our training protocol and conduct a field-test in soccer players.
A prospective clinical trial on trauma patients with increased intracranial pressure(ICP) applied for decompressive craniectomy to lower ICP
Patients who have suffered moderate to severe traumatic brain injury (TBI) frequently develop behavioural changes, which can have deleterious consequences on interpersonal relationships, social, family and professional reintegration. They are a source of difficulties (burden) for family and friends. Social cognition covers four functions: recognition of social cues; empathy; attribution of intentions to a third party, or theory of mind; and adjustment of social behaviour according to context. This study has two parts: 1/ Evaluation, using a cognitive approach, of the different components of social cognition after moderate to severe traumatic brain injury, and of its repercussions in daily life and on family and friends. 2/ Creation of a specific re-education method for the different modules of social cognition and study of its effectiveness.
A Pre-post Study Evaluating the Safety and Efficacy of Ibogaine-Magnesium Therapy in Veterans with Sequelae of Repeated Blast Exposure.
The purpose of this research is to explore potential methods of rehabilitating changes observed from repetitive head impacts. Participation in this study will involve functional magnetic resonance (fMRI) imaging, aerobic testing, heart rate variability (HRV) wrist monitor, hypercapnia challenge, a meditation rehabilitation intervention, and filling out survey information concerning subjective well-being.
Primary aim: The primary aim of the study is to compare survival to discharge (or survival to 14 days post-operatively, whichever comes first) following emergency surgery for traumatic brain injury (TBI) across Human Development Index settings. Primary outcome measure: The primary outcome measure will be survival to discharge (or survival to 14 days post-operatively, whichever comes first) Primary comparison: Between country groups defined by human development index. Centre eligibility: Any hospital or clinic worldwide performing emergency surgery for traumatic brain injury is eligible to participate. Patient eligibility: All adult and paediatric patients admitted to the participating institution with a traumatic brain injury for which they receive emergency surgery during the selected 30-day inclusion period are eligible for inclusion in the study. Team: Individual hospital teams with up to four people, collecting data for 30 days. Time period: Local study teams may select any 30-day period from the 1st of November 2018 and the 31st of December 2019 to start their study. Patients operated on who meet the inclusion criteria between 00:01 on day 0 and 23:59 on day 30 of the selected study period will be included. Validation: We will employ a method of data validation in every centre that will give us a quantitative estimate of case ascertainment that is feasible even in low-resource centres.
This is a pilot study to evaluate clinical predictors of intracranial bleeding in elderly patients who present to the emergency department (ED) after a fall. The aim is to assess feasibility and rate of patient recruitment, patient follow up, and to establish a point estimate for the incidence of intracranial bleeding in the investigator's population. Currently there are no guidelines for ED physicians to assess the pretest probability of intracranial bleed in these patients, and no safe way to exclude a bleed without CT.