View clinical trials related to Humeral Fractures.
Filter by:Supracondylar humeral fractures are the most common elbow fractures in children and cast immobilization continues to remain as the recommended treatment for modified Gartland's classification Type I and Type IIa injuries. Apart from plaster of Paris and fibreglass casts, the use of waterproof, tubular hybrid mesh (HM) casts have been gaining traction for cast immobilization. Although the use of HM cast has been reported to have similar clinical outcomes and overall patient satisfaction scores to the fibreglass cast, the results of the recent studies are only limited and generalizable only to paediatric distal radius fractures. As the application method of HM and fibreglass casts are fundamentally different, it has not been reported if the difference in application duration between the cast materials is significant and its potential implications in outpatient clinic operation. Hence, through a randomized controlled trial, this study primarily aims to investigate if the clinical outcomes, patient satisfaction and duration of cast application with the HM casts would be comparable with fibreglass casts in children with supracondylar humeral fractures. Through this study, the investigators hope to evaluate the advantages and disadvantages of the respective casting material which may better aid physicians in deciding a more appropriate cast material for treating paediatric supracondylar humeral fractures with cast immobilization and the implications of casting duration on clinic operations.
Lateral condyle fracture of the distal humerus is the second most common injury around the elbow and accounts for 20% of all the elbow fractures in children.The average age for the fracture involving the lateral condyle is around six years. There are different treatment options of the lateral condyle fractures include - non-operative management with plaster cast immobilization for undisplaced or minimally displaced fractures. - Whereas the fractures displaced >2 mm need operative management. The objective of treatment in the displaced fracture is to obtain and maintain the articular congruity. In the operative management, the reduction technique includes open or closed methods.
The study is a multicenter, retrospective and prospective, non-randomized, non-controlled and consecutive series post-market study. The purpose of this study is to collect long-term data confirming safety, performance and clinical benefits of the Anatomical Shoulder 2.0 Fracture System (Implants and Instrumentation) when used for fracture shoulder arthroplasty. The primary objective is the assessment of safety by analyzing implant survivorship. This will be established by recording the incidence and frequency of revisions, complications and adverse events. Relation of the events to implant, instrumentation and/or procedure should be specified. The secondary objective is the assessment of performance and clinical benefits by recording patient-reported clinical outcome measures (PROMs) as well as radiographic outcomes.
Post-market, prospective, non randomized, open label, multicentre, clinical study analysing outcomes of shoulder arthroplasty with SMR TT Hybrid Glenoid with or without SMR Cementless Finned Short Stem
Proximal humerus fractures (PHFs) are the third most common non-vertebral fractures in the elderly. Most elderly experience loss of function following a PHF regardless of treatment. A Cochrane review from 2015 concluded that surgical management is not superior to non-surgical management, and that the optimal non-surgical management after PHF is not known. Therefore, the aim of this study is to evaluate the effectiveness of usual rehabilitation care after displaced PHF compared with one-time physiotherapy instruction.
Radial paralysis is a well-known complication of plate osteosynthesis on the humeral shaft. At the University Hospital Basel, these fractures have been treated in an adapted procedure with long PHILOS plates using a modified technique and approach. This study is to retrospectively analyze the effectiveness of the surgical technique in relation to iatrogenic radial paralysis.
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.
This study aims to compare the hemodynamic impact of two anaesthetic strategies : Regional anesthesia versus General anesthesia in proximal humeral fracture surgery.
To define a serum protein-based diagnostic for the progression and failure of fracture healing, through the identification of a set of serum proteins that appear at early times of biological healing and show a specific correlation with later radiological and functional signs used to define delayed healing and non-union.
The goal of this study is to determine which initial method of immobilization for humeral shaft fractures in the emergency room maximizes patient comfort. The two methods of initial management for humeral shaft fractures are sarmiento bracing (pre-fabricated fracture brace) and coaptation splinting. In this study, the team will compare patient related outcomes and comfort for each method of initial management of humeral shaft fractures. Participant pain, narcotic usage, and function will be tracked over a 2 week period to see which method of immobilization is preferred.