View clinical trials related to Craniocerebral Trauma.
Filter by:Two middle school (ages 11-14) football teams will be in Aim 1 of this study. All interested athletes on these teams will be invited to voluntarily participate in biomechanical data collection; of those enrolled, 15-20 per team will be randomly selected for instrumentation with head impact sensors. In aim 3, two youth football teams at the middle school level will be recruited to pilot an intervention developed this study. The football coaches of each team will be prospectively recruited and enrolled. All interested athletes on these teams will be enrolled; of those enrolled, 15-20 per team will be randomly selected for instrumentation with head impact sensors. Baseline and post-season neurocognitive data will be collected.
Approximately 20% of patients with mild head injury presenting to the Emergency Department (ED) is taking antiplatelet agents and 10% is taking oral anticoagulants. The aim of the study is to determine the prevalence of cerebral hemorrhage in patients presenting to the ED with an MHI. It also aims to determine whether the use of antiplatelet agents and anticoagulants may be a risk factor for the occurrence of cerebral hemorrhage and mortality. This is a prospective observational study that will include all patients who present to ED at Gemelli Hospital for an MHI for 2 years. Patients will be divided into four groups according to whether or not they are taking anticoagulants and antiplatelet drugs. Groups will be compared to evaluate the possible increased risk of complications in patients on treatment and among the different medications.
3-Hydroxy-3-methylglutaryl-coenzyme A reductase inhibitors, known as statins, are widely used to reduce levels of low-density lipoprotein-cholesterol. As lipid-lowering drugs, statins exert neuroprotective effects on ischemic stroke. this study will investigate whether the protective effect of statins is mediated by their ability to impact inflammation and oxygen free radical levels in cerebral ischemia/reperfusion injury. Could Statins affect the neuroinflamation which occurs after traumatic brain injury?
This study is an extension of a planned quality improvement project that aims to promote standard of care by increasing the use of evidence-based clinical decision rules amongst emergency medicine providers in the University of Utah Emergency Department. Patient-specific information from the EHR will be used to recommend the use of relevant clinical decision rules to emergency medicine providers at the point-of-care. These recommendations will be in the form of non-interruptive alerts with one-click access to the suggested decision rules through the MDCalc Connect EHR add-on application. Specific aims of the study are to determine if 1) patient-specific non-interruptive alerts increase the use of clinical decision rules amongst emergency medicine providers and 2) an increase in the use of clinical decision rules affects provider ordering habits.
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.
Traumatic brain injury is combination damage that occurs as a result of a chain reaction of various metabolic events that develop after primary damage caused by trauma. Pathological events such as lactic acidosis, electrolyte imbalance, increased inflammation that occur during traumatic brain injury leads to poor prognosis in patients. The retrospective study was conducted to investigate the effect of factors that may cause secondary damage, especially electrolyte imbalance and blood glucose levels, on mortality and morbidity in patients undergoing emergency surgery due to head trauma.
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.
Physical and cognitive rest are recommended as treatment for concussion, but debate persists about the utility of this recommendation for patients recovering from concussion. In addition, patient adherence to physical and cognitive rest recommendations after concussion remains unknown. This study will measure and compare symptom and activity reports in the days and weeks after a concussion among patients randomly assigned to different incentive-based arms.
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.