View clinical trials related to Wounds and Injuries.
Filter by:Spasticity is one of the most common symptoms manifested in humans with spinal cord injury (SCI). However, the neural mechanisms underlying the development of spasticity over time after an acute SCI are not yet understood. Using electrophysiological and imaging techniques along with traditional measurements of neurological recovery in the acute rehabilitation setting including physical exam and functional assessments; the investigators aim to examine the relationship between development of spasticity, residual descending motor pathways and functional and neurological recovery in humans with SCI from acute to subacute phase
Wound complications after total knee arthroplasty (TKA) can arise from many patient-specific factors, such as vascular or immune-related medical conditions, obesity, and smoking, among others. The development of early wound complications can lead to increased length of hospital stay and more serious complications, including deep infection and major subsequent surgery. However, there are modifiable variables that could affect the risk of getting wound complications, such as the closure technique. This study aims to analyze the difference in rates of wound complications using two different closure techniques in primary TKA.
This study will assess the feasibility and efficacy of 3 treatments to increase physical activity during and after inpatient rehabilitation (IPR) for new spinal cord injuries: 1. Program of sprint interval training (SIT) on an arm crank ergometer during IPR 2. SIT + Provision of an arm ergometer (ERGO) for home use 3. SIT + ERGO for home use + Motivational interviewing to increase adherence to exercise during and after IPR. The primary outcome is minutes per week of moderate to vigorous physical activity at 6 months after IPR discharge. Secondary outcomes include peak power on the 6-Minute Arm Test at IPR discharge and self-reported physical activity, depression, fatigue, pain, community participation, and quality of life at 6 months after IPR discharge. The investigators will obtain data on feasibility, acceptability, and perceived benefits of the treatments from stakeholders. The results of this pilot study will inform the design of a larger randomized trial.
The goal of this observational study is to learn about the long-term health of United States military service members who were injured during combat. The main questions it aims to examine are: - How does the severity of a combat injury impact 1) cardiovascular risk, 2) the sympathetic nervous system and arrhythmias, 3) blood pressure, and 4) sleep disorders? - Are self-reported mental health symptoms related to sympathetic nervous system hyperactivity, sleep disorders, and cardiovascular risk in combat-injured service members? This study will recruit from a sample of participants in another research study called the Wounded Warrior Recovery Project (WWRP) who 1) agreed to be contacted about future research studies and 2) have a record of a combat injury within the Injury Severity Score ranges required for this study. Participants will: - Provide demographic information and a medical history review - Visit a local laboratory for biometrics measurements and to provide blood and urine samples - Wear an ambulatory electrocardiogram monitor for 24 hours per day for seven consecutive days - Wear a home sleep test monitoring device for one night - Wear a blood pressure monitor for 24 consecutive hours on the day after the home sleep test At the end of the study, participants will be asked to mail back the home sleep test and blood pressure monitors. Prepaid package materials will be provided.
Upwards of 3.8 million concussions occur annually in the United States. Driving is a highly complicated activity that requires visual, motor, and cognitive skills, which are commonly impaired after concussion. Yet, the time course of post-concussion driving impairment has not been characterized. There is a critical need to 1) determine when concussed individuals should return to driving and 2) identify the key concussion assessment predictors of readiness to return to driving. In the absence of formal recommendations, impaired concussed drivers are at risk to themselves and others on the road. The first specific aim is to compare simulated driving between concussed individuals and non-concussed yoked matched controls across five longitudinal timepoints (pre-injury baseline, day 2, day 4, asymptomatic, and unrestricted medical clearance) and daily naturalistic driving from day 2 to day 9. Driving recommendations must be appropriate and necessitated by concussion impairments, since excessively strict recommendations wrongfully strip concussed patients of their independence and may dissuade individuals from seeking medical care. The second specific aim is to identify widely used concussion assessment outcomes that predict simulated driving performance among concussed individuals throughout concussion recovery. To address these aims, 100 concussed and 100 yoked matched control young adult college athletes will complete a simulated driving assessment and a robust concussion assessment battery at pre-injury baseline, day 2, day 4, asymptomatic, and unrestricted medical clearance. Naturalistic driving (measured with in-car global positioning systems) will be captured from day 2 to day 9 (7 days total). This study will determine the acute and subacute time course of post-concussion driving impairment and determine key predictors of post-concussion driving performance. Results from this innovative approach will have a broad and positive impact that will improve the safety of both concussed individuals and the general population, guide the practices of health professionals, inform the future work of researchers, and substantiate the work of policy-makers by providing evidence-based recommendations for managing post-concussion driving.
The goal of this randomized controlled study is to evaluation the effect of mobile application-based wound healing course on clinical reasoning skills in nursing student. The main questions it aims to answer are: - Does microlearning-based courses have an effect on clinical reasoning skills of nursing students compared to traditional courses? - Does microlearning-based courses have an effect on the retention of knowledge in nursing students compared to traditional courses? Participants will consist of students enrolled in the Surgical Diseases Nursing course in the fall and springs semester of the 2022-2023 academic year in the Department of Nursing at the Faculty of Health Sciences of Karadeniz Technical University. If there is a comparison group: Researchers will compare experimental group to see if control group.
Despite racial/ethnic disparities in outcomes for younger adults with traumatic brain injury (TBI), there are no U.S. standards for TBI transitional care for patients discharged home from acute hospital care. To enhance the standard of care, the investigators will examine the efficacy of the existing intervention named BETTER (Brain Injury, Education, Training, and Therapy to Enhance Recovery), a culturally-tailored, patient- and family-centered TBI transitional care intervention, compared to usual care, among younger adults with TBI and families. The knowledge generated will drive improvements in health equity for younger adults with TBI of various races/ethnicities and families, resulting in improved health of the public.
Spinal cord injury (SCI) causes paralysis and muscle atrophy and leads to weight gain and obesity. Obesity directly contributes to functional impairment and cardiometabolic dysfunction. There is a critical need to reduce the growing prevalence of obesity and cardiometabolic disease after SCI. My overall objective in this project is to gather crucial feasibility data on time restricted eating (TRE), a novel form of intermittent fasting. TRE is a straightforward method to induce weight loss without the need for calorie counting. TRE allows individuals to eat all their daily calories in a time restricted window and fast outside that window. A growing body of literature supports the safety and efficacy of TRE. Given the feasibility, high adherence, and substantial benefits of TRE in able-bodied individuals, it is important to test TRE to determine its feasibility in Veterans with SCI. The investigators will first test this intervention in Veterans with thoracic paraplegia, who are at greatest risk of muscle-joint upper body injury given the need to support body weight during activity. The investigators will determine adherence to a TRE window for 6-weeks duration in a convenience sample of Veterans with thoracic paraplegia and obesity. Based on the expected outcomes of good adherence, this study will lay the groundwork for future work by informing the design of a randomized controlled trial to test the efficacy of TRE to facilitate weight loss and improve function.
Repetitive blast exposure has been shown to lead to more severe neurobehavioral impairments versus a single exposure. Blast-induced Traumatic Brain Injury (TBI) can lead to short- and long-term adverse outcomes Even mild brain injuries can impair neurocognitive performance, and repeated injuries can amplify negative outcomes. Service members with repeated exposure to low-level blasts as a necessary part of their job or training display altered neural activity during a memory task that is paralleled by a reduction in accuracy on neurocognitive memory tasks. As a result, it is important to monitor service members that are exposed to multiple blast-generated mTBIs to allow the earliest identification of acute or chronic brain and body insult and provide individualized measures of time to recovery. While TBI is clinically diagnosable, the methods of diagnosis have up to now been typically expensive and immobile, and treatments and interventions sparse. The investigators will conduct a longitudinal assessment of mTBI brain biomarkers by collecting repeated measures of FDA approved mTBI brain injury biomarkers, correlated with sound and blast exposure, as well as continuous monitoring through smart watches (activity, sleep, biometrics, calorie expenditure, balance) and analyte data through analyte sensors (glucose, lactate, ketones). Study data will be organized into categories and presented to participants daily within the application and will be securely stored within the application. At the completion of the study, participants will be provided with the study data digitally within the mobile application and study data will also be provided to the credentialed unit medical provider to enable it to be ported to the participants' electronic medical record. This study will create a continuous record of blast overpressure and sound exposures and correlate those to the participants health state over the course of several 9-week courses. This will enable an assessment of individualized susceptibility to brain injury as well as providing novel data on time to recovery. The investigators hope to develop dynamic and accurate risk profiles that are individual and will lead to further understanding of how to protect participants from mTBI (mild TBI) events.
A spinal cord injury (SCI) disrupts the communication within the nervous system, leading to limitations in sensorimotor activities such as walking. Regular use of functional electrical stimulation (FES) can result in recovery of voluntary muscle control and muscle strength. Locomotor training with FES may be a promising method to improve gait function. The primary objective of this pilot study is to assess the feasibility and safety of an FES-assisted gait training intervention. Secondary objectives are to assess the effects of an FES-assisted gait training intervention on gait function.