View clinical trials related to Fractures, Open.
Filter by:This study has been added as a sub study to the Simulation Training for Emergency Department Imaging 2 study (ClinicalTrials.gov ID NCT05427838). This work aims to evaluate the impact of an Artificial Intelligence (AI)-enhanced algorithm called Boneview on the diagnostic accuracy of clinicians in the detection of fractures on plain XR (X-Ray). The study will create a dataset of 500 plain X-Rays involving standard images of all bones other than the skull and cervical spine, with 50% normal cases and 50% containing fractures. A reference 'ground truth' for each image to confirm the presence or absence of a fracture will be established by a senior radiologist panel. This dataset will then be inferenced by the Gleamer Boneview algorithm to identify fractures. Performance of the algorithm will be compared against the reference standard. The study will then undertake a Multiple-Reader Multiple-Case study in which clinicians interpret all images without AI and then subsequently with access to the output of the AI algorithm. 18 clinicians will be recruited as readers with 3 from each of six distinct clinical groups: Emergency Medicine, Trauma and Orthopedic Surgery, Emergency Nurse Practitioners, Physiotherapy, Radiology and Radiographers, with three levels of seniority in each group. Changes in reporting accuracy (sensitivity, specificity), confidence, and speed of readers in two sessions will be compared. The results will be analyzed in a pooled analysis for all readers as well as for the following subgroups: Clinical role, Level of seniority, Pathological finding, Difficulty of image. The study will demonstrate the impact of an AI interpretation as compared with interpretation by clinicians, and as compared with clinicians using the AI as an adjunct to their interpretation. The study will represent a range of professional backgrounds and levels of experience among the clinical element. The study will use plain film x-rays that will represent a range of anatomical views and pathological presentations, however x-rays will present equal numbers of pathological and non-pathological x-rays, giving equal weight to assessment of specificity and sensitivity. Ethics approval has already been granted, and the study will be disseminated through publication in peer-reviewed journals and presentation at relevant conferences.
This is a prospective, single-center, double-blind randomized clinical trial aimed at evaluating the efficacy and safety of the extended-release antibiotic device, STIMULAN, in preventing infections in patients with open fractures. The study will enroll 40 patients from IRCSS San Raffaele's Emergency Department and Orthopedics and Traumatology Unit. Patients will be stratified into high-risk and low-risk infectious subgroups and randomized into either the intervention group receiving the antibiotic device or the control group receiving no device. The follow-up period will last for 5 days, with data collection at specified intervals. Standard laboratory tests will be utilized to monitor the patient's inflammatory response.
This is a pilot prospective, observational study of patients with open or infected fracture evaluating the feasibility and acceptability of OCT, a light-based imaging modality that requires no drug or contrast agent.
aap001 is a randomized, controlled, subject-blinded, multi-center study to show the safety of the LOQTEQ® antibacterial silver-coated system is non-inferior in comparison with the uncoated LOQTEQ® system
Local application of antibiotics directly to the traumatic wound is a promising treatment for the prevention of infection after open tibia fractures, which are a significant source of disease burden globally, particularly in low-income countries. This study aims to measure the effect of locally applied gentamicin on risk of infection for open tibial fractures in Tanzania. If proven effective, local gentamicin would be a highly cost-effective strategy to reduce complications and disability from open tibial fractures that could impact care in both high- and low-income countries.
The goal of open extremity fracture (OEF) treatment is to promote fracture healing and restore function while preventing the development of infection. This is achieved through systematic and timely wound debridement and irrigation, fracture stabilization, tetanus prophylaxis, systemic and local antimicrobial therapy, and judicious timing of wound closure based on cleanliness. Early prophylactic systemic antibiotics lower infection rates in open fractures but have limitations of achieving adequate concentration at the hypoperfused wound area. OEF wounds are frequently poor in vasculature secondary to the soft tissue injury, hence adequate concentration of antibiotic cannot permeate to the tissue at risk. If systemic antibiotic concentrations are increased to achieve minimum inhibitory concentration (MIC) for pathogens at the wound, there is heightened concern for systemic drug toxicity. In sharp contrast, locally administered antibiotics achieve high drug concentration directly within the wound cavity with minimal systemic side effects. Local antibiotic therapy has shown to reduce rates of open fracture wound infection. With the serious implications of postoperative infections in OEF, it is imperative that all measures including further use of prophylactic local antibiotics be considered to prevent fracture-related infection (FRI). The overarching hypothesis for this project is that a novel synergistic combination of local aqueous tobramycin plus perioperative weight-based IV cephalosporin antibiotic prophylaxis will reduce the rate of FRI one year after OEF surgery. This in turn will improve OEF patient outcomes, decreasing morbidity and return to the operating room (OR) without any adverse effect on fracture healing. Regardless of the treatment group, bacterial speciation will be determined for patients that do develop FRI to help guide future treatment. The goal is to improve the clinical outcome and recovery of the population that sustains an OEF by decreasing the rate of FRI and fracture nonunions while concurrently educating on bacterial speciation and resistance.
The purpose of this prospective study is to confirm safety and performance of the FastFrame External Fixation System and corresponding instrumentation.
The proposed study is a multi-center, prospective randomized controlled trial comparing current standard of care treatment to the SEXTANT treatment protocol in patients with Type III open fractures of the tibia and IIIB fractures of the ankle and hindfoot.
Prospective registry and retrospective data collection study to assess the efficacy and safety of Vivigen Cellular Bone Matrix (Vivigen) in orthopaedic trauma patients who require bone grafting in the acute, delayed, non-union fracture as well as use in fusion procedure settings.
Psychological factors such as stress, distress, anxiety, depression, and poor coping strategies may be associated with ongoing pain following injuries such as fractures. To study this relationship, patients will undergo cognitive behavioural therapy (CBT) which is designed to modify such thoughts with the goal of reducing ongoing pain and improving quality of life. The goal of this study is to determine if CBT, versus usual care, reduces the prevalence of moderate to severe persistent post-surgical pain (PPSP) over 12-months post-fracture in patients with an open or closed fracture of the appendicular skeleton, treated with internal fixation.