View clinical trials related to Craniocerebral Trauma.
Filter by:Head trauma is a common injury in emergency department. Investigation to search for complication is guided by the clinical examination and the case history, such as taking anti-thrombotics. Cranial computed tomography (CCT) is the gold standard to investigate, and is mandatory in case of antithrombotic drugs. Recently, some biomarkers have proven their utility to rule-out mild head trauma without CCT in the general population. Among these biomarkers, S100β protein has been added in guidelines for mild head trauma. Some studies have found similar data in population taking anticoagulant or antiplatelet drugs. The investigators aim to prove medical utility of S100β protein in population under antithrombotics, by the reduction of CCT use. Then, The investigators hypothesize that the add of S100β protein reduces cost of health care in the management of head injury in that population.
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.
Background: Patients with mild blunt traumatic brain injury (TBI) are frequently transferred to Level 1 trauma centers (L1TC) if they have any positive finding of any acute intracranial injury identified on a CT scan of the head. The hypothesis for the study is that patients with such injuries and minor changes on the Head CT scan can be safely managed at community hospitals (CH). Methods: Patients with blunt, mild TBI (defined as a GCS 13-15 at presentation) presenting to CH, L1TC, and transferred from CH to L1TC between March, 2012 and February, 2014 were included. Minor changes on head CT were defined as: 1) epidural hematoma<2mm; 2) subarachnoid hemorrhage<2mm; 3) subdural hematoma<4mm; 4) intraparenchymal hemorrhage<5mm; 5) minor pneumocephalus; or 6) linear or minimally depressed skull fracture. TBI-specific interventions were defined as intracranial pressure monitor placement, administration of hyperosmolar therapy, or neurosurgical operation. Three groups of patients were compared: 1) those receiving treatment at CH, 2) those transferred from CH to L1TC, and 3) those presenting directly to L1TC. The primary endpoint was the need for TBI-specific intervention and secondary outcome was death of any patient.
This prospective observational study will examine the incidence of intracranial hemorrhage. The investigators will compare patients on anticoagulant and/or antiplatelet therapy with head trauma compared to patients not on these medications. While many studies have sought to quantify the incidence of intracranial hemorrhage in these patients, there is considerable controversy regarding their care and what to do after an initial negative head CT in anticoagulated geriatric patients who have experienced head trauma.
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.
Physical activity and exercise have traditionally not been much of a focus in treatment of postconcussion symptoms and posttraumatic headache. On the contrary, patients have often got advice to rest until they were free from symptoms. This approach, however, is challenged, and complete rest should probably be discouraged after the first 24-72 hours. Moderate aerobic exercise has been found promising in the early phase after sports-related concussion, and in the treatment of patients with headache. This study is an open pilot-study of guided, home-based exercise in a clinical sample with postconcussion symptoms and posttraumatic headache after mixed-mechanism mild traumatic brain injury and minimal head injuries. The study will result in data about the feasibility and possible effects of exercise as treatment for prolonged postconcussion symptoms and posttraumatic headache.
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.
To assess the realistic magnitude of the header burden in children's and youth' football in eight European countries. In a cross-sectional observational design, one match of 60 different teams in each of the eight European countries were monitored via video recording throughout the second half of the regular season 2017/18 and the first half of the regular season 2018/19. Clubs with (female, male, or mixed) Under-10, Under-12 and female and male Under-16 teams were invited to participate. Header frequencies and types were analysed using standardized heading registration forms. Additionally, head injuries were recorded using standardized head injury registration forms.
Elevated intracranial pressure is a dangerous and potentially fatal complication after traumatic brain injury. Hyperventilation is a medical intervention to reduce elevated intracranial pressure by inducing cerebral vasoconstriction, which might be associated to cerebral ischemia and hypoxia. The main hypothesis is that a moderate degree of hyperventilation is sufficient to reduce the intracranial pressure without inducing cerebral ischemia.
A retrospective study was done in Neurosurgery trauma unit, Sohag University. Eighteen patients reported with different mechanisms of trauma. All patients clinically tested involving neurological evaluation. Computed tomography brain was done for them at the time of admission. Cautious removal of the penetrating object with local debridement of surrounding tissues including skin, skull, dura and brain tissue and watertight closure of the dura should be done. Patients transferred to the Intensive care unit (ICU) for 48 - 72 hours.