View clinical trials related to Head Trauma.
Filter by:Scoring systems for use in intensive care unit (ICU) patients have been introduced and developed over the last 30 years. They allow an assessment of the severity of disease and provide an estimate of in-hospital mortality
The progression of brain lesions after severe head trauma or subarachnoid hemorrhage results from extra cranial aggression which is well controlled in intensive care and intracranial aggression which is less well known and therefore less well managed. The detection of events that can generate new lesions from intracranial monitoring is limited and late once the lesions are irreversible. Invasive cortical depolarizations (SD) can be observed using cortical electrodes and an acquisition system having access to the usually filtered DC signal (0 to 1 Hz). SD are observed at the onset of a new attack of the cortex and spread widely away from the site of aggression. During their propagation, SD generate a significant metabolic demand, and can cause ischemic injury, particularly after meningeal or post-traumatic hemorrhage. SDs are therefore both a marker of new lesion and a mechanism of progression of primary lesions. Yet this type of monitoring is only performed in some expert centers around the world. The analysis of the feasibility and safety of the placement of cortical electrodes in this indication is therefore an essential step to study the clinical benefit of individualized management on the basis of this monitoring.
The goal of this study is to determine the sensitivity, specificity, and positive and negative predictive values of the a portable near-infrared-based device (portable NIR-based device), the InfraScanner 2000™, to detect intracranial hematomas (epidural hematomas (EDH) and/or subdural hematomas (SDH)) in patients hospitalized at Mbarara Regional Referral Hospital (MRRH) who have sustained or who are suspected to have sustained head trauma.
Purpose: The purpose of this study is to evaluate stationary head CT (s-HCT) as a diagnostic tool in patients with known head trauma. Participants: Participants will be 50 people who have had either a head trauma or a brain bleed and have undergone a head CT in the past 24 hours or who will undergo a CT scan of the head. Procedures (methods): This investigation will be a single arm, prospective clinical trial. Participants will have one single visit, which will include the s-HCT scan. No follow-up is required. All images will be de-identified before inclusion within a reader study. The investigators will perform a reader study with physician readers comparing the acquired imaging s-HCT images and conventional head CT.
This three-year study will determine the effectiveness of a helmetless tackling training intervention to decrease head impact exposure in Hawaiian high school football players.
This is randomized, controlled and blinded study was performed in minor head trauma patients. Two sonographers measured optic nerve sheath diameters (ONSD) of each subjects' eyes separately for different time points. Then a mean ONSD was calculated for before c-collar placement (T0), 5 and 20 minutes in supine position.
Nutrition interventions may present a safe and relatively risk free intervention for protection against subconcussive impacts. Docosahexaenoic acid (DHA, 22:6n-3) is the principal Omega 3 polyunsaturated fatty acid in the brain, playing an integral role in the brain's development and structural integrity. The goal of this study is to determine if supplementation with DHA attenuates blood biomarkers of repetitive head trauma linked to sub-concussive impacts sustained in rugby participation.
The goal of this study is to determine the sensitivity, specificity, and positive and negative predictive values of the a portable near-infrared-based device (portable NIR-based device), the InfraScanner 2000™, to detect intracranial hematomas (epidural hematomas (EDH) and/or subdural hematomas (SDH)) in patients hospitalized at Duke University Hospital (DUH) who have sustained or who are suspected to have sustained head trauma and have consequently received a brain computed tomography (CT) scan(s).
Pediatric head trauma is a leading cause of morbidity and mortality for children/adolescents. The current standard of care regarding imaging modality when concerned for an acute head injury is CT. This exposes children to radiation that may predispose to future malignancy. Rapid MRI is a test that eliminates radiation and has expanded uses in multiple other areas. This study is evaluating it for pediatric acute head trauma.
The purpose of this study is to validate a clinical decision rule for the management of minor head trauma in infants aged less than two years, constructed with the intention of minimizing the rate of computed tomography scans ordering.