View clinical trials related to Wounds and Injuries.
Filter by:The purpose of the study is to evaluate the outcome of a multidiscplinary telerehabilitation after traumatic brain injury assessed by the patient and the therapists with respect to the overall feasibility of the therapy protocol and the effects on psychological well-being and quality of life..
The goal of HeadSMART II (HEAD injury Serum markers and Multi-modalities for Assessing Response to Trauma II) is to develop an In-Vitro Diagnostic, the BRAINBox TBI test, to aid in the diagnosis and prognosis of patients with mild traumatic brain injury, by incorporating blood biomarkers, clinical assessments, and tools to measure associated neurocognitive impairments.
The aim of the study is: to evaluate the efficacy of two post-operative dressings in the management of the surgical wounds in patients who received a knee prosthesis
This is a prospective observational study that will evaluate the association between bone and tissue perfusion, as measured by indocyanine green (ICG) fluorescence imaging, and complications, in an effort to develop ICG fluorescence imaging as a diagnostic tool to quantitatively guide operative debridement.
This study uses a Doppler ultrasound technique being developed at the University of Leicester called 'Brain Tissue Velocimetry" (Brain TV), to investigate brain tissue motion over the cardiac cycle.
The purpose of this study is to improve patient-centered care for acute kidney injury (AKI) in order to decrease the adverse health outcomes associated with this common condition.
Traumatic brain injuries (TBIs) are common. Post-TBI depression is associated with anxiety, aggression, fatigue, distractibility, anger, irritability, and rumination. The current research group conducted a pilot clinical trial, which investigated the novel treatment combination of buspirone and melatonin (B+MEL) in outpatients with clinical depression. Compared to placebo, B+MEL was associated with a significant improvement in depressive symptoms. Depression following TBI may be different from clinical depression. The B+MEL combination has never been studied in patients with post-TBI depression. The B+MEL has shown promise in ameliorating cognitive difficulties in people with depression. Because cognitive problems are typical in people with post-TBI depression, we plan to measure the effect of the B+MEL combination on cognitive ability in post-TBI depression. Additionally, we are interested in measuring functional magnetic resonance imaging changes before and after treatment with B+MEL in order to gain insight into the brain mechanisms of our hypothesized clinical symptom changes. The goals of the proposed pilot research project are to assess changes in symptoms in patients with post-TBI depression following Buspirone + Melatonin combination (B+MEL), and the corresponding brain mechanisms underlying these hypothesized changes by measuring: 1) depressive symptoms; 2) cognitive symptoms; 3) functional magnetic resonance imaging.
Very often, people who have a SCI have difficulty doing things with their arms or hands as a result of muscle stiffness , or spasticity. Spastacity can cause problems performing even the simplest of everyday tasks. This research will help us understand how the body recovers and changes neurologically after SCI.
Acute kidney injury occurs in up to 30% of patients undergoing cardiac surgery. Cardiac surgery associated-acute kidney injury (CSA-AKI) is characterized by a sudden and sustained decrease in renal function with insufficient elimination waste products. The problem is that postoperative diagnosis of CSA-AKI is delayed because it relies solely upon the slow and unreliable rise in serum creatinine (SCr) levels that may lead to delayed start in treatment and increased risk of adverse outcomes. We hypothesize that Matrix Metalloproteins (MMPs) -2, -9 and Neutrophil gelatinase-associated lipocalin (NGAL) are associated with and earlier detectors of CSA-AKI compared to levels of SCr.
The overall research objectives of the proposed project are to decrease the rate of recidivism, defined as returning to incarceration within three years of release, as well as reduce the number of violent offenses, through the successful implementation of a continuum of services that addresses the unique needs of the TBI population. RHI, in partnership with PCF and IU, will work together to accomplish these goals. To meet study objectives, this randomized controlled trial (RCT) will enroll 102 individuals with TBI who will be randomized into the Reentry Continuum for Brain Injury (RCBI) intervention or a TAU-CG. Participants will be screened for TBI eight months prior to release from PCF. Upon consenting to participate, all subjects will be evaluated before, during, and after the intervention and recidivism data will be collected through IDOC's Data Analysis and Technology Department.