View clinical trials related to Proximal Humeral Fracture.
Filter by:Our smartphones can recognize the pictures of our family, loved ones and friends. Face recognition software leverages artificial intelligence (AI), image recognition and other advanced technology to map, analyze and confirm the identity of a face. We humans do a poor job when classifying the injury related to a patient sustaining a proximal humeral fracture. In consequence, there is great heterogeneity in the treatment of proximal humerus fractures. Moreover, offering relevant information to patients regarding the risk of complications or fracture sequelae is challenging, given that the current series are based on obsolete classifications, and the published series bring together just over hundreds of patients analyzed. With these limitations, patients have few opportunities to participate in decision-making about their injury. The present project aim is to integrate new technologies for the prediction of relevant clinical results for the patients presenting a proximal humeral fracture. In brief, AI can help identify similar fracture patterns without human inference, while humans can feed the algorithm with variables of interest such as the functional outcomes and complications related to this particular type of fracture.
The optimal treatment of complex shoulder fracture is controversial. In general, non-surgical treatment is recommended for older patients, but results are often unsatisfying. Therefore different surgical approaches have been tried to improve outcomes for this group of patients. Reverse shoulder arthroplasty has shown promising results for these types of fractures and changes in the design of the implant might improve outcomes further. The aim of this study is to compare the outcomes of complex shoulder fractures after non-surgical versus surgical treatment and compare two different types of implants.
The goal of this clinical trial is to study whether surgery results in better functional outcomes than non-surgical treatment among patients aged 50-65 with a displaced proximal humerus fracture. The main questions it aims to answer are: • Does osteosynthesis result in better patient-reported functional outcomes compared to non-surgical treatment at 12 months follow-up? Aim is also to characterize the patient group aged 50-65 regarding fracture morphology, osteoporosis, and clinical frailty scale. The study compare operation with either plate or nail fixation to non-surgical treatment. Participants will: - Receive either surgical treatment or non-surgical treatment. - At 6 months, 1 year, and 2 years, the patient will answer two short questionnaires (Oxford Shoulder Score and Eq-5D-3L). The primary outcome will be Oxford Shoulder Score at 12 months. The secondary outcome will be OSS at 6 and 24 months and EQ-5D-3L score measured at the same time-points. Adverse events and conversion to surgery will be registered. OSS and EQ-5D-3L will be completed just before the 6 months visit.
The purpose of this study is to evaluate compare postoperative range of motion in patients who are given a sling for comfort only and allowed to start early active range of motion compared to patients who are placed in a sling for 4 weeks with passive range of motion only. Once enrolled, the patients will be randomized through computer randomization then placed in paper packets into either the immobilization group or the early range of motion group.
This clinical trial aims to compare a Mixed Reality Viewer in the preoperative informed consent process to standard fracture visualization. The participants population are patients with an indication for surgery of a distal radius fracture, upper ankle fracture or proximal humerus fracture using plate osteosynthesis. The main questions aim to answer are: - Does the use of the Mixed Reality Viewer improve patient understanding? - Does the use of the Mixed Reality Viewer improve patient satisfaction? - Does the use of the Mixed Reality Viewer reduce patient preoperative anxiety? Participants will have their fracture presented via the Mixed Reality Viewer. Researchers will compare standard fracture imaging using X-ray or CT scans to see if there is any difference in understanding, satisfaction and anxiety.
The aim of this study is to compare the effect of Proprioceptive Neuromuscular Facilitation (PNF) techniques on functional status, pain, range of motion (ROM), muscle strength, quality of life, and patient satisfaction in people with Proximal Humerus Fracture. There will be two groups, PNF and conservative treatment, and the program will consist of 6 weeks. Patients will randomly be assigned to the conservative treatment group and the PNF group. Patients in the conservative group will deliver shoulder muscle static stretching, active-assistive ROM exercises, scapular mobilization, posterior capsule stretching, and isometric strengthening for 3 weeks. Between 3-6 weeks these exercises will progress and shoulder muscles strengthening via Neuromuscular Electrical Stimulation (NMES) and active ROM exercises will add to the program. Patients in the PNF group will deliver PNF stretching, active-assistive ROM exercises, PNF scapular patterns mobilization, posterior capsule stretching, and isometric strengthening for 3 weeks. Between 3-6 weeks PNF stretching and scapular mobilization exercises will progress and PNF strengthening and active ROM exercises will add to the program.
The purpose of the study is to see if there is a connection between a proximal humerus fracture dislocation direction and the likelihood of developing avascular necrosis. Utilizing a retrospective cohort from the last ten years we hope to bring consenting patients back for a single visit to have x-rays and complete patient reported outcome measures to assess for evidence of avascular necrosis.
The objective of this study is to collect and evaluate long-term clinical outcomes data in order to better understand the safety and performance of the Equinoxe Proximal Humerus Fracture Plates over time. This study will follow subjects for a period of up to 10 years post-surgery.
The purpose of this study is to determine the effect of tranexamic acid (on blood loss and transfusion requirements in patients with proximal humeral fractures requiring open surgical approaches. This a blinded, controlled, therapeutic trial in which the patients will be randomized to receive TXA or no drug intervention. The primary outcome is the estimated total blood loss. This study presents only minimal risks for the included patients.
The study is a monocentric, retro- and prospective, non-randomized, non-controlled and consecutive series post-market study. The purpose of this study is to confirm safety, performance and clinical benefits of the Zimmer® Plates and Screws System (implants and instrumentation) when used to stabilize diaphyseal, proximal humerus and proximal tibia fractures. The primary objective is the assessment of performance by analyzing fracture healing. The secondary objectives are the assessment of safety by recording and analyzing the incidence and frequency of complications and adverse events. Relation of the events to implant, instrumentation and/or procedure should be specified. Subjects' outcomes will also be assessed.