View clinical trials related to Wounds and Injuries.
Filter by:Abstract: Background: Circumferential negative pressure wound therapy (CNPWT) is commonly used to manage wounds and enhance the healing process. A theoretical concern was recently raised that CNPWT may have a negative effect on perfusion distally. Objectives: We aim to evaluate the effect of circumferential negative pressure therapy (CNPT) on distal O2 saturation in healthy volunteers. Design: Randomized controlled non-inferiority study. Methods: Fourteen healthy adult volunteers with O2 saturation ≥95% (by index finger pulse oximetry) will be invited to participate in the study. After obtaining a written informed consent, CNPWT foam/dressing will be applied in a sandwich-like manner on the middle third of each arm and a negative intermittent pressure of 125 mmHg will be applied to one arm chosen randomly, using the contralateral arm as control. The pressure will be applied 5 minutes on and 2 minutes off for 9 hours. Individual's participation will be terminated if O2 saturation drops below 92% at any study time. The outcome measure is index finger O2 saturation and will be checked every 30 minutes using a pulse oximetry. The area under the curve (AUC) of O2 saturation in the 2 arms will be compared using ANCOVA. Sample size was calculated to have 90% power, assuming a type one error of 5%, non-inferiority margin of 24 (mean AUC difference), SD of 20, and drop out of 2 participants. Importance: The study is expected to provide conclusive evidence on the effect of intermittent CNPT on distal O2 saturation. The results would have direct implications for CNPWT.
Tracheotomy weaning and decannulation are one of the important problems in the neurosurgical care unit. Aside from medical, psychological, sociological, economical and ethics problems, tracheotomy increases the duration of the hospital stay and conditions the secondarily future medical care (better re-education after the injury). However, according to investigators practices, that patients who were decannulated with success can go into a secondary care residence more easily. This research will demonstrate that all patients included can be decannulated without risk of a new recannulation in the 96 hours.
SMART is an interactive web-based program that will allow youth with mild traumatic brain injuries (mTBI) to monitor their symptoms and receive education on problem-solving and coping strategies. This study will evaluate the effectiveness of SMART as a means of improving symptom-management, coping skills, and general well-being during recovery from mTBI. Half of participants will receive the SMART intervention, while half will receive usual care.
CrossFit is a recent sport that has been democratized since the beginning of the 2000's in France. The 3 major studies of CrossFit injuries were conducted in the United States in 2014, Brazil in 2016 and the United States in 2017. They show a discrepancy in terms of injuries average, from 19.4% to 31% in relation to an upsurge in the number of CrossFit practitioners, the specific training or not of the coaches framing this activity, the practice or not in competition. The main locations of these wounds are highlighted at the shoulders, lumbar region and knees. In France, to date, no epidemiological studies have been conducted on this subject. Hypothesis: High incidence of injuries related to a lack of framing, or bad practice and ignorance of CrossFit practitioners. Objectives : Estimate the injuries incident due to the CrossFit practice over a 8-month period in an adult population who practice in clubs . Research, among the anthropometric, sociodemographic, environmental, and the nature and frequency of practice and training sessions, those which are associated with the occurrence of injury in this cohort.
The objective of this trial is to investigate whether treatment with oxygen in the early phases after a trauma plays a role in recovery.
The battle of Mosul was characterized by the use of improvised explosive devices, human shields and suicide bombers in an urban setting. It is unclear whether this type of warfare cause more extensive abdominal injuries to civilians than combatants. All patients admitted with penetrating abdominal injury subjected to an exploratory laparotomy at Emergency Hospital, Erbil, between October 17, 2016 and July 16, 2017 will be included. Differences in demographics, injury mechanism, time since injury, clinical status on arrival, intraoperative findings, postoperative complications and outcome will be studied.
Some of the most common, persistent, and disabling consequences of traumatic brain injury affect an individual's ability to achieve personal goals. Interventions that strengthen abilities such as being able to concentrate, remember, stay calm and overcome challenges, could have far reaching benefits for Veterans. One challenge in rehabilitation is that response to training can be highly variable, and a better understanding of the neural bases for this variability could inform care. This pilot project will test the clinical behavioral effects of a cognitive skill training intervention and explore to what extent changes in markers of the brain's electrical activity (using the non-invasive technique of electroencephalograms, EEG) can explain differences in responses to skill training.
The purpose of this study is to examine the effectiveness of telehealth via video feedback to transition rear foot strike runners to non-heel strike runner following a lower extremity injury. Telehealth re-education gait training is much cheaper than in-clinic retraining sessions with a medical provider and could be much more widely used by both consumers and researchers as a training aid, a way to help alter running form, prevent running injuries and be used as a tool for use in the rehabilitation of running related injuries.
Every year more people die from traumatic injuries than from infections such as malaria, tuberculosis, and HIV/AIDS. About 3000 people are killed annually on Kenyan roads. Hospital trauma registers have played a key role in the advancement of patient-based research and trauma care. Trauma registers offer a unique opportunity to document patient characteristics and audit outcomes, thereby creating a platform for clinical research. One of these systems is the ICD-based Injury Severity Score (ICISS) derived from and validated on hospital data to predict hospital death. The establishment of the register enables us to compare the trauma care quality with other existing or upcoming trauma registers, in different settings.
Individuals with spinal cord injury (SCI) have significant functional loss and poor quality of life. Individuals with cervical SCI are suffering much worse sickness within the SCI population. Tetraplegia resulting from cervical SCI bring a formidable emotional, physical, and financial burden in our society. Hand function is especially important to people with tetraplegia. Hand function is associated with independence in many activities, and impairments in upper extremity function can compound difficulties in many other areas, such as bowel and bladder management. Thus, it is not surprising that restoring hand function was found to be a priority for individuals with tetraplegia. Nowadays, magnetic resonance imaging (MRI) plays an essential role in the diagnosis of SCI and helps to monitor disease progression and efficacy of therapies. Advanced MRI techniques, such as diffusion tensor imaging (DTI) and functional MRI (fMRI), have shown the potential to improve the understanding of human spinal cord in healthy and pathological condition, and serve as imaging biomarkers to characterize damage degree, monitor the response to treatment, and predict the outcome of intervention. Meanwhile, multi-channel EMG (Electromyography) recordings can provide a mapping of neuromuscular activities from an electrode-array. The application of robotics in upper extremity function restoration of SCI patients has been started to help SCI patients to recovery upper extremity function. Combined DTI and fMRI to monitor the recovery of upper extremity function of SCI patients, this project will provide a tailored-made EMG driven soft-robotic hand prosthesis for tetraplegia individuals. We will provide the individuals with neuromuscular rehabilitation to preserve the residual function and to enhance the functional recovery. The eventual goal is to further design a useful robotic hand for regaining partial daily function to improve the quality of life for those individuals with tetraplegia.