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Showing 1-16 of 16 trials
NCT06491173
The goal of this study is to determine the sensitivity, specificity, and positive and negative predictive values of the portable near-infrared-based device (portable NIR-based device), the InfraScanner 2500™, to detect intracranial hematomas (epidural hematomas (EDH) and/or subdural hematomas (SDH)) in patients hospitalized at Mbarara Regional Referral Hospital (MRRH) or Mayanja Memorial Hospital (MMH) who have sustained or who are suspected to have sustained head trauma.
NCT03704272
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.
NCT06920524
Botulinum toxin (BT) injections are a painful treatment frequently used to treat spasticity following central neurological damage (stroke, multiple sclerosis, spinal cord injury, head trauma). Tolerance of injections varies from patient to patient. For most patients, the pain experienced during the injection is a major source of stress. Numerous clinical trials have demonstrated the role of music therapy in pain management. Music therapy uses a "U" shaped technique, allowing the patient to relax in different phases. This system has demonstrated beneficial effects on pain and anxiety in various fields, such as chronic and acute pain, Alzheimer's disease, fibromyalgia and neurological pain. Given the painful nature of spasticity and anxiety treatment, we aim to use a musical intervention to help patients cope better with injections. The primary objective of the study is to investigate the effect of exposure to a musical intervention session during botulinum toxin injections, on injection-induced stress (heart rate variability). Secondary objectives: To study the effect of exposure to a musical intervention session during botulinum toxin injections, during the visit to injections #1, in terms of: * Injection-induced stress for HRV parameters other than LF/HF * Injection-induced pain * Injection anxiety * Patient satisfaction * Effect of musical intervention on the medical procedure performed (botulinum toxin injections) expressed by the doctor at the end of the session. To study the effect of exposure to a musical intervention session, during injections visit n°2, in order to evaluate the effect of repeated exposure to a musical intervention session, in terms of : * Injection-induced stress for HRV parameters other than LF/HF * Injection-induced pain * Injection anxiety * Patient satisfaction * Effect of musical intervention on the medical procedure performed (botulinum toxin injections) expressed by the physician at the end of the session. The hypothesis of this research is that a responsive musical intervention can, in adults, reduce the stress induced by botulinum toxin injections. Patients will be selected from the cohort of patients regularly treated for botulinum toxin injections in the Physical and Rehabilitation Medicine (PRM) department at Clermont-Ferrand University Hospital. Botulinum toxin injections will take place in the PRM department. Each patient will participate in the study for a maximum of 4 months. This study will be carried out in patients receiving regular botulinum toxin injections to treat spasticity. The first injection will be given with (IM-IM) or without musical intervention (CT-IM), depending on the randomization group, followed by the next injection with musical intervention. Patients will be able to choose the style of music (Jazz, Classical, Electronic, R\&B, Ambient, Rock, etc.) that appeals to them in order to benefit from a minimum 20-minute session of musical intervention (duration varying according to the number of injections to be performed).
NCT04505293
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.
NCT06246500
Retrospective, multicenter cohort study describing the biological, radiological and clinical criteria of patients managed for isolated severe head trauma between January 2016 and December 2018.
NCT04020874
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.
NCT02798601
The purpose of this study is to estimate the effect of an early induced hypernatremia protocol (150-155 milliequivalent/L) versus normonatremia plus mannitol (135 - 145 milliequivalent/L) in terms of neurologic outcome in patients with severe traumatic brain injury managed at critical care unit.
NCT03291964
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.
NCT03742427
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.
NCT03162354
To increase the accuracy of doctors' decisions to launch or forgo child abuse evaluations in their young, acutely head-injured patients, investigators have derived and validated a clinical decision rule (CDR) that detects abusive head trauma (AHT) with 96% sensitivity in pediatric intensive care unit (PICU) settings. This "CDR Implementation Trial" across eight PICU sites will assess the CDR's actual impact on AHT screening accuracy, identify factors associated with maximal physician acceptance and application of this novel AHT screening tool, and assess the sustainability of active CDR implementation strategies.
NCT02828306
Patients with skull defects after craniotomy for example tumor resection, head trauma, stroke, need a reimplantation of the bone afterwards. For some circumstances, their own bone cannot be reimplanted due to infection, tumor infiltration, damage to the bone, or aseptic bone necrosis. In these cases a Patient Specific Implant (PSI) needs to be designed to fit into the patient's skull defect. The design of the PSI is based on the preoperative CT-scan of the patient's head with the skull defect, the imaging data set is uploaded and processed with IPlanNet software by BrainLab®. With the help of the software, a 3D model of a negative mould of the PSI is designed and printed. In the operation room, the PSI is fabricated under sterile conditions using the PSI mould. The design of the PSI mould with the help of IPlanNet is demanding and takes some few hours depending on the complexity of the case to be designed. In certain cases the accuracy of the fabricated PSI mould is not optimal, so that the surgeon intraoperatively has to adapt for the inaccuracy to achieve the best cosmetic and functional results at the expense of the operation duration, a known risk factor for postoperative wound infection and other perioperative complications. Therefore, the investigators have developed an automated computer-based algorithm for PSI design (CAPSID). With the help of this tool, an accurate PSI and its corresponding mould can be calculated and designed based on the preoperative CT scan of the patient within 5-15 minutes and the corresponding mould can be printed. This step is automated and thus, independent of the neurosurgeons experience and skills in 3D processing software. The mould can be used for intraoperative fabrication of the implant under sterile conditions in the common way as described above. The possible advantages of the clinical establishment of this procedure would be a higher accuracy of the PSI compared to the conventional PSI fabrication method with better cosmetic results, lower costs and faster availability and production leading to shorter waiting time for the patient, and as a consequence of the higher accuracy leading to shorter operation time, with a reduction of risk of operative adverse events for the patient. Furthermore, the proof of practicability of this new method, could lead to new concepts in the field of Computer-based Patient Specific Implants in modern medicine in general.
NCT00132249
The Vietnam Head Injury Study (VHIS)-Phase III is a prospective, long-term follow-up study of head-injured Vietnam veterans. The purpose of this research study is to determine the long-term consequences, if any, of head injury.
NCT02809651
The investigators prospectively want to use the Infrascanner in patients with ischemic stroke, patients with brain surgery, patients with brain tumors, patients with intracranial hemorrhage and patients with a normal CT scan of the brain as part of a diagnostic work-up after head trauma or headache to determine to positive and negative predictive value of the Infrascanner in these different settings.
NCT01099501
This is a single-center, prospective, randomized, comparative, double-blind controlled clinical study mend to assess the effect of enteral feeding with Oxepa (a fish oil-based nutrition), compared to an isocaloric control, on oxygenation and clinical outcomes in mechanically ventilated trauma patients. The study population will be adults admitted to the ICU due to multiple-trauma or head trauma as a result of a gun shut, motor vehicle accidents, fall, workplace accident etc.
NCT00810940
This is a randomized, controlled clinical trial at three sites to determine the safety and preliminary efficacy of the study drug to treat severe head trauma (GCS 4-8). It is hypothesized that the drug may lower pressure in the brain, reduce mortality and the patient may have improved neurological function following treatment.
NCT00196131
Hypothesis: During severe brain trauma (injury, surgery) the ensuing inflammatory response in the central nervous system (CNS) results in a decrease in the expression of the transporter protein p-glycoprotein (PGP) in the blood brain barrier. This loss results in the penetration into the brain of certain drugs that are normally excluded by the transporter protein. In this study the working hypothesis is that the agitation observed in patients with CNS trauma treated with morphine is related to the inflammation evoked loss of PGP in the blood brain barrier and the accumulation of the morphine metabolite 3-morphine glucuronide.