View clinical trials related to Head Trauma.
Filter by: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.
In this study, investigators look at a different type of technology that might help to avoid having to perform CT scans in certain patients suspected of having a head injury. Near-infrared spectroscopy (NIRS) uses a specific light wavelength to determine if there is bleeding into the head as a result of trauma. Investigators will study NIRS, using a device called the Infrascanner model 2000, to determine if it is as good at detecting bleeding in the head as CT scan, which is the current gold standard. Investigators will try to determine if NIRS can rule in or rule out bleeding into the head, and perhaps this can help to avoid subjecting these youth to the potentially harmful effects of radiation. Investigators will also study how easy it is to use NIRS so that it might become a standard part of the workup for children with suspected head injury.
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.
The Supervisory Neglect, Non-Accidental Trauma, Brief Intervention, and Treatment Referral (SunBrite) protocol is a family-empowered, risk mitigation strategy that targets families with young children who present to the ED with intracranial trauma. Based on the widely utilized screening, brief intervention, and referral to treatment (SBIRT) protocol, SunBrite has 3 core components: screening, brief motivational interview, and referral for treatment. PCH will: 1) engage community partnerships to support SunBrite development; 2) utilize participatory action research approach for design, implementation, process evaluation, and dissemination of the pilot program; and 3) evaluate intervention implementation and pilot outcomes. Over a 2-year period, this study will encompass a pilot intervention and implementation assessment and a randomized trial to evaluate outcomes. Implementation of SunBrite will yield rigorous scientific evidence for a sustainable, evidenced-based, widely-needed non-accidental (NAT) screening and intervention for families with young children.
This study will compare administration of N-Acetyl Cysteine (NAC) versus placebo for the treatment of olfactory loss due to head injury. The hypothesis is that treatment with NAC acutely after head injury will result in improved olfactory function
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.
Introduction/Background Brain swelling/brain edema can occur due to many pathologies of the brain, such as infections, ischemia and trauma. The edema can be either primarily intra-cellular or extra-cellular. The mechanisms by which edema arise are not fully known but it is proposed that inside the damaged brain, fluid will pass over the blood-brain barrier of the vessels into the extra-cellular space. The accumulation of fluid will lead to an increase in distance between the cell and its closest capillary, which may lead to energy failure and intra-cellular edema. The extra volume of the fluid leads to increased intracranial pressure, which in turn leads to an increase in blood pressure, aggravating the edema. In addition to the physiological changes that occur, the edema will be increased by the immunological response to the tissue damage with release of pro-inflammatory cytokines that give rise to both extra- and intra-cellular edema. Today, no treatment has been proven efficient against traumatic brain edema. AF - anti-secretory factor is a 41 kDa protein that exists in humans and most animals. It was discovered due to its ability to inhibit experimental diarrhea. AF has been proven to have an effect on Mb Menière and glaucoma. In animal models, AF has been proven efficient in reducing increased intracranial pressure caused by trauma and virus infection in the brain. Salovum®, an egg yolk powder enriched in AF, is registered in the European Union as a medical food. Methods: 5 adult patients with severe traumatic brain injury will be included in the trial via next of kin consent. Medical interventions are protocol based. The protocol includes first, second and third treatment levels. Patients included in the trial, will receive two micro-dialysis (MD) catheters in addition to standard treatment. One catheter will be placed in a separate burr hole close to the ICP and LICOX catheter, the other MD catheter will be placed in vicinity of the damaged barin tissue. Patients will receive Salovum® 6 hours after trial inclusion. Patient dosage is 1g/kg body weight/24 hours, divided into 6 doses and administered orally, via tubing every 4 hours for 5 consecutive days. Objective: Primary end-point is to investigate if Salovum® has a beneficiary effect on ICP. Secondary endpoints are to investigate if Salovum® has a beneficiary effect on treatment intensity levels (TIL), brain-oxygenation, microdialysis bio-chemistry and cytokine expression in plasma and microdialysate.
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.