View clinical trials related to Femoral Fractures.
Filter by:The AO@AI Turin project is a collaborative project with a Turin group and the AO (Arbeitsgemeinschaft für Osteosynthesefragen, or in English, Association for the Study of Internal Fixation) foundation. An Image database (DB) has been built to host AP pelvic radiographs ready for artificial intelligence (AI) development. The goal of this project is to determine the agreement between the Turin annotation of fracture status and the annotation from an external group of AO expert surgeons for a random subset of the Turin images.
This is a multicenter, prospective, Post-market Clinical Follow-up (PMCF) Study on the ZNN Bactiguard Antegrade Femoral Nails. The objective of this study is to collect data confirming the safety, performance, and clinical benefit of the study device and instrumentation when used for the temporary internal fixation and stabilization of femoral fractures and osteotomies. This is a CE-marked device already available on the market and the aim of the study is to comply with the post-market surveillance requirements.
The purpose of this study is to study the process of bone regeneration around a metal device in the femoral neck canal using a synthetic bone substitute Cerament bone void filler (BVF) and bisphosphonate (Zometa) locally or systemically that affects bone metabolism. Furthermore, fracture healing and implant migration will be investigated.
Hip fracture posed a major challenge to the health care system, with the one-year mortality of hip fracture reported as being approximately 20%. Perioperative haemoglobin level was associated with functional level of the patient and even mortality. Different methods for administration of tranexamic acid had been described. It was well established that systemic administration of tranexamic acid could reduce perioperative blood loss and transfusion rate. Topical administration had been shown to decrease blood loss and transfusion rate. The objective of our study is to investigate the hypothesis that tranexamic acid will reduce blood loss and transfusion rate in elderly patients undergoing hip fracture surgery.
The overall objective of this project is to identify clinical and genetic risk factors for Atypical Femur Fractures (AFFs) in Anti-resorptive therapy (ART) users by conducting a case control study of 330 cases of AFFs and 660 controls without AFFs matched for age, sex, race and duration of ART.
This investigation is a prospective, multicenter clinical investigation. It is anticipated that a total of 50 subjects will be enrolled at up to 5 sites. Enrollment is estimated to commence in Q4 of 2018. Neither subjects nor investigators are blinded to treatment and the clinical investigation includes a historical control which will be compared to the Femoral Nail PF of the T2 Alpha Femur Antegrade GT/PF Nailing System. Total duration of enrollment, 12 month follow-up and analysis is expected to take 29 months. The clinical investigation has been designed to follow the surgeon's standard of care for femur fractured subjects, in addition to a 12 month follow-up visit. The primary endpoint of this clinical investigation is to confirm efficacy/performance at 12 months, as measured by the Lower Extremity Measure (LEM). Confirmation of efficacy/performance at 12 months will be based on an equal or greater (non-inferior) LEM score result of the Femoral Nail PF of the T2 Alpha Femur Antegrade GT/PF Nailing System compared to the T2 Femur benchmark literature.
In order to assess the rate and mode of failure cases observed in patients with distal femur fractures treated with a distal femur plates, anonymized radiographs from those patients will be collected retrospectively. All available images will reviewed by an expert review board in regards to fracture classification, implant and surgery details, quality of initial reduction and plate positioning as well as the occurrence of mechanical complications and the outcome in terms of fracture healing (if available). Additionally, age and gender as basic demographical data will be collected in a de-identified way..
Spica casting is the current standard of care when treating pediatric diaphyseal femur fractures in the 0-5 year age group. A study conducted by Kramer et al. suggests there are both clinical and financial benefits of functional bracing when compared to spica casting. To this date there have been no prospective trials to evaluate these two treatment options. The investigators plan to conduct a multi-center randomized-control trial that will compare the subjective, objective and financial aspects of functional bracing and spica casting for pediatric femur fractures.
This study evaluates the clinical ease of use of the Femoral Antegrade Starting Tool (FAST).
Prospective data collection and evaluation of complete data sets will be performed in the course of routine clinical care of a cohort of consecutive patients (children up to 16 years old) presenting with an isolated femur shaft fracture. Data will be collected during follow-up visits at 3 to 6 weeks, 3, 6, 12 and 24 months, with additional follow-up visits as needed or dictated by individual practice. Final follow-up will be at 24 months, unless a patient requires additional follow-up or another intervention to address an unfavorable outcome (e.g. malalignment, nonunion, limb length discrepancy) noted at the 24 month follow-up visit.