View clinical trials related to Wounds and Injuries.
Filter by:This study is an open-label, single-center trial which aim to evaluate of efficacy and safety of human umbilical cord-derived mesenchymal stem cells (hUC-MSCs) combined with platelet-rich plasma (PRP) in stage 3 and 4 stress injury.
Acute brain injury due to aneurysmal subarachnoid haemorrhage (SAH) or traumatic brain injury (TBI) is a condition with a high mortality, and surviving patients often have permanent disabilities. Multimodal neuromonitoring of intracranial pressure, brain tissue oxygen tension (PbtO2), and brain energy metabolism (measured with microdialysis (MD)) may help individualise the treatment of this patient group to protect the brain and potentially improve outcomes. However, there is still a significant lack of knowledge regarding the advantages and disadvantages of this type of monitoring. The present study consists of four substudies with the overall aim of examining which factors are most influential for regulating commonly measured intracerebral parameters such as oxygenation, glucose, and lactate. Additionally, the influence of these of parameters on functional outcome and mortality will be explored. The individual studies are detailed below:
This is a multicenter international observational prospective cohort study. The main questions it aims to answer are: - PRIMARY AIM: To describe the capability of IRVF demodulation at diagnosis of ARDS to predict development of AKI within 7 days from the ARDS onset - SECONDARY AIMS: A)Describe the capability of IRVF demodulation or pattern of IRVF (continuous, pulsatility, biphasic, monophasic) to predict development of AKI within 14 days from the ARDS onset. B) To describe the RD parameters and VexUS in the AKI and no AKI patients over time. C) Describe the impact of invasive mechanical ventilation (IMV) on the intrarenal venous congestion and VexUS., D) Evaluation of effect of CRRT on IRVF pattern, VexUS and parameters. E) Describe the feasibility of renal doppler to assess IRVF in critically ill respiratory patients. F) Evaluate the incidence of AKD and CKD Participants will Adult patients with diagnosis of ARDS admitted to intensive care unit and undergoing invasive mechanical ventilation
The safety integration stakeholders (saints) program to integrate worker and patient safety in Oregon rural hospitals. The rationale is that the saints program will positively impact outcomes by identifying and training peer leaders on strategies to optimize environmental, administrative, and educational components to become a saint and regularly collaborate with safety stakeholders/administrative leaders at each site through continuous improvement cycles (e.g. plan-do-study-act).
To evaluate the effect of PRP on wound healing in high risk patients undergoing abdominal hysterectomy.
The aim of this study is to assess the mid-term outcomes of treating subaxial cervical traumatic injury cases admitted to the Trauma Unit of Assiut University Hospital.
This study aimed to assess the longitudinal changes in triceps surae muscle-tendon architecture to an ultra distance trail running. Experienced trail runners (N=55, 78% men, age: 45.2 [13.5] years) participated in a 156-km trail run (6000m climbing) consisting in six 26-km laps. The resting architectural properties of triceps surae muscle-tendon were measured using ultrasound imaging for Achille tendon cross-sectional area (AT CSA), medial gastrocnemius muscle pennation angle, thickness, length and fiber length. Measurements were performed the day before the race (Baseline), at 52-km (T1), at 104-km (T2), at 156-km (T3) and 12 hours after the race (H12).
The goal of this study is to investigate the effectiveness of an 8-week dietary energy restriction with exercise or dietary energy restriction alone on the cardiometabolic health outcomes of individuals with chronic spinal cord injury. This study is a randomised controlled trial conducted at a single centre, consisting of two parallel arms. The main questions it aims to answer are: 1. the effectiveness of an 8-week dietary energy restriction with exercise or dietary energy restriction alone on cardiometabolic disease biomarker outcomes in individuals with chronic SCI 2. the effectiveness of an 8-week dietary energy restriction with exercise or dietary energy restriction alone on fitness and health outcomes. Twenty-one participants will be randomly assigned in a 2:1 allocation ratio. The participants will be assigned to either the dietary energy restriction and exercise group (D+E) group, which combines dietary energy restriction and exercise intervention, or the dietary energy restriction group (D) group, which just undergoes dietary energy restriction using sealed envelopes.
The goal of this PHASE III clinical trial is to evaluate efficacy and safety of intravenous TAD® 600 mg/4 mL solution for injection in preventing myocardial injury in patients with pneumonia. The main question it aims to answer is: • could TAD® used as an add-on treatment to the standard therapy, due to the presence of the sodium salt glutathione, be effective and safe in preventing the risk of developing myocardial injury in hospitalized patients with pneumonia? Patients diagnosed with pneumonia (in the emergency department or hospital ward) will be asked to participate in the study and sign the Informed Consent Form (ICF) to assess their eligibility for enrollment. Eligible patients who meet the study inclusion criteria and complete the required Screening & Baseline (V0) examinations, will be randomized with a 1:1 ratio allocation to the IMP Test group (TAD® treatment) or IMP Placebo group (Placebo treatment) in a double-blind manner, PI & Patient blinded. TAD® (600 mg/4 mL reconstituted solution in 50 mL of 0.9% sodium chloride solution) or Placebo (50 mL of 0.9% sodium chloride solution) will be administered: - intravenously (with an infusion rate of 10 mL/min) - 2 times a day (with a dosing interval of 8 hours ± 30 minutes) - for 5 consecutive days (Day 1, Day 2, Day 3, Day 4 and Day 5) - patients will then be required to undergo five Follow-up Visits.
Perioperative respiratory complications are a major source of morbidity and mortality. Postoperative atelectasis plays a central role in their development. Protective "open lung" mechanical ventilation aims to minimize the occurrence of atelectasis during the perioperative period. Randomized controlled studies have been performed comparing various "open lung" ventilation protocols, but these studies report varying and conflicting effects. The interpretation of these studies is complicated by the absence of imagery supporting the pulmonary impact associated with the use of different ventilation strategies. Imaging studies suggest that the gain in pulmonary gas content in "open lung" ventilation regimens disappears within minutes after the extubation. Thus, the potential benefits of open-lung ventilation appear to be lost if, at the time of extubation, no measures are used to keep the lungs well aerated. Recent expert recommendations on good mechanical ventilation practices in the operating room conclude that there is actually no quality study on extubation. Extubation is a very common practice for anesthesiologists as part of their daily clinical practice. It is therefore imperative to generate evidence on good clinical practice during anesthetic emergence in order to potentially identify an effective extubation strategy to reduce postoperative pulmonary complications.