View clinical trials related to Wounds and Injuries.
Filter by:Optic Nerve Ultrasound (ONUS) is a promising non-invasive tool for the detection of raised Intracranial Pressure (ICP). Variability in the optimal Optic Nerve Sheath Diameter (ONSD) threshold corresponding to elevated ICP in multiple studies limits the value of ONUS in clinical practice. The investigators goal is to develop and validate an automated image analysis algorithm for standardization of ONSD measurement from ultrasound videos. Patients with acute brain injury requiring invasive ICP monitoring will undergo bedside ONUS, with blinded ONSD measurement by an expert investigator. The image analysis algorithm will then be used to measure ONSD and accuracy determined compared to the "reference standard" expert measurement.
Comparison of efficacy in management of pain in abdominal surgery between epidural versus wound infusion catheter {catheter placed within the incision site}
The purpose of this study is to learn how effective each of the two dressings, Silverlon® and AQUACEL® AG, are in preventing post cardiac implantable electronic devices (CIED) procedure wound infections.
This study compares the analgesic effect of intranasal sub-dissociative dosing of ketamine and intranasal fentanyl in children presenting to the Emergency Department with acute extremity injuries.
The purpose of this study is to develop algorithms that will help predict future injury and/or re-injury after being returned to duty from a musculoskeletal injury. After completion of an episode of care with a physical therapist, the subjects will undergo a battery of physical performance tests and fill out associated surveys. The subjects will then be followed for a year to identify the occurrence/re-occurence of any injuries. Based on the performance on the physical evaluation tests, algorithms will be derived using regression analysis to predict injury. Subjects will be recruited from the pool of patients that have recently completed physical rehabilitation in physical therapy clinics for their lower extremity or lumbar/thoracic spine injury.
The purpose of this study is to determine the sensitivity and specificity of an aid in assessment of concussion based on eye-tracking, in comparison to a clinical reference standard appropriate for the Emergency Department (ED) or concussion clinic.
Severe trauma patients have an elevated risk of multiple organ failure and death. In order to increase survival possibilities the initial treatment must be focused into resuscitation from shock. Traditionally the most common resuscitation markers used are vital signs and urine output. Unfortunately, many patients might present normal vital signs, but still undergo a compensated shock with persistent acidosis, hence being able to develop multiple organ failure and death. Consequently, it is important to define better resuscitation markers for these patients. This investigation project consists in an observational prospective study, performed by a multidisciplinary team, in which different resuscitation markers are evaluated in severe trauma patients. There will be a specific timing (1st, 8th and 24th hours from arrival) evaluation of different markers: hemodynamic (vital signs, urine output, etc); analytical (lactate, base excess, natriuretic atrial peptide); tissue perfusion markers (NIRS); microcirculation markers (videomicroscopy) and coagulopathy markers (thromboelastometry). There will be a registry of total volume administration; blood cell transfusions and vasoactive drug requirements. Each marker will be evaluated in relation to mortality; multiple organ failure; massive transfusion protocol activation; blood cell transfusion requirement; surgical control of bleeding requirement and emergent arteriographic embolization. The objective of this study is to demonstrate which of these markers is better to predict hemodynamic evolution of severe trauma patients and might become a guide for resuscitation in the future.
In this trial, patients with acute kidney injury who have recently received a drug that may affect kidney function will be randomized to having an alert placed in the electronic health record or usual care.
Mild TBI subjects will initially be identified by providers in the Hennepin County Medical Center (HCMC) TBI Clinic. The subjects will then undergo objective testing by the developmental optometrist to confirm if they do or do not have vision dysfunction related to the mTBI. At the Center of Magnetic Resonance Research (CMRR) located at the University of Minnesota (U of M), the whole brain will be imaged using resting state and task functional MRI and diffuse tensor imaging (DTI) using a high field 3 Tesla (T) MRI. The subjects will then receive neurovision rehabilitation if they are in the vision dysfunction group. This treatment is standard care. Both groups will then undergo repeat objective vision testing by the developmental optometrist at 3 and 6 months to confirm that vision dysfunction has resolved. Resting state and task fMRI and DTI will be done at the same time to compare functional and structural connectivity changes between the 2 groups.
Acute kidney injury (AKI) in critically ill trauma patients has been shown to significantly increase mortality, length of stay, and costs, however detection has proven difficult as markers like elevated creatinine and decreased urine output may take days to manifest and are late indicators of AKI. The combination of two urinary biomarkers, Tissue Inhibitor of Metalloproteinase 2 (TIMP-2) and Insulin-like Growth Factor Binding Protein 7 (IGFBP-7), has been shown to increase within 12 hours following renal insult, allowing assessment of risk for developing acute kidney injury. Therefore, the investigators plan to assess if acute kidney injury in critically ill trauma patients can be determined earlier using urinary TIMP-2 and IGFBP-7 via the NephroCheck testing system. These markers have not been specifically evaluated in trauma patients at risk of AKI.