View clinical trials related to Humeral Fractures.
Filter by:The aim of the study is to show if there is any speed difference of functional recovery for people with humeral fracture, treated by an anterograde nail, which will be inserted through the rotator cuff (the common way) or through the rotator interval split. The patients included in this study will be randomized to one of the two groups. The recovery will be evaluated by the Constant score over time, for a year. The main hypothesis is the rotator interval split approach allows a faster functional recovery after humeral nailing, by avoiding opening the rotator cuff.
Degenerative diseases and traumatic injuries of the shoulder joint, lead to dysfunction of the arm. Arthroplasty has recently become an increasingly popular operation for severe damage to the shoulder joint. In clinical practice, the most effective operation today is the reverse shoulder arthroplasty (RSA), after the installation of which the pain syndrome disappears in patients and a satisfactory range of motion in the shoulder joint resumes. With the increasing use of reverse shoulder arthroplasty and its expanding indications, surgeons today are facing tougher reconstructive challenges while still providing the patient with a good clinical outcome. The damaged joint presents a problem for the surgeon during component positioning. Implants must place the in a location and orientation that optimizes range of motion and stability while minimizing impingement. In order to address this, surgeons can look to the use of 3D imaging in order to better understand each patient's pathology. All patients are performed computed tomography scans (CT) of the shoulder joint. Then, were reconstructed 3D model. To determine the position of the components is mounted a scapular plane was created based on 3 points on the 3D reconstructed scapula: center of the glenoid fossa, most medial point on the spinal border of the scapula, and most distal point on the inferior angle of the scapula. The investigators use a scapular plane for to determine the optimal angles of inclination of the reverse baseplate. Then the position and direction of the pilot pin is determined. The position of the fixing screws and their length are also calculated. A resection line is planned for the humerus. Preoperative virtual templating can be used to translate the preoperative plan into the operating suite in the form of patient specific instrumentation (PSI) and intraoperative navigation. PSI to reference the local anatomy in order to place the guide pin in the desired location, version, and inclination based on the preoperative plan. After surgery, all patients undergo a CT scan of the shoulder joint. These data are compared with CT scan of patients operated on according to the standard method. The range of motion is also assessed and compared.
The purpose of this study is to compare the effectiveness of 3D-printed bone models in addition to CT imaging versus CT imaging alone on surgical quality and operation time for patients undergoing surgical repair of intra-articular fractures.
Randomly assign patients with fractures of the proximal humerus to conservative treatment to a group in which a control radiological study will be carried out after a week of evolution of the fracture and to another group in which this control radiology will not be carried out. In the evolutionary controls, it will be determined whether there are differences between the two groups in the final functional result, in the perception of quality of life, and in the number of complications derived from the fracture.
This study compares the clinical outcomes of treating pediatric Type 1 supracondylar fracture with a long arm soft cast and no clinical or radiographic follow-up versus the standard treatment in a long arm cast with clinical follow-up. This is the first multicenter randomized control trial looking at the clinical effectiveness, safety and parental satisfaction of managing inherently stable Type I supracondylar fractures without clinical or radiological follow-up. If found to be safe; children can be managed effectively without in-person follow-up, freeing clinic appointments to children on the waiting list and in these COVID times avoiding unnecessary contacts.
This pragmatic multicenter randomized controlled trial (RCT) includes adult participants with an acute humeral shaft fracture to compare surgical fixation of humeral shaft fracture to non-surgical treatment with early identification and treatment of delayed union by a patient-reported outcome after 52 weeks. The trial population of 287 participants The trial population is divided in two age-groups due to the changes in DASH score by age. The definition of delayed union differs in the young and elderly population to consider dissimilarity in bone healing rates and the timepoint for crossover is therefor different between the groups. Participants will be randomized 1:1 between non-surgical treatment and surgical treatment. The primary outcome is the Disability of Arm, Shoulder and Hand (DASH) score at 52 weeks, and is assessor blinded. The secondary outcomes are DASH score earlier than 52 weeks, EQ-5D-5L, pain assessed by visual analogue score, Constant-Murley score including elbow range of motion and anchor-questions collected at all timepoints throughout the trial. All complications will be reported including; infection, nerve or vascular injury, surgical revisions (implant malpositioning, hardware failure, aseptic loosening and peri-implant fracture), major adverse cardiovascular events, other major adverse events and mortality. SHAFT will provide information on the effectiveness of two standard treatments for humeral shaft fractures, while taking the dilemmas within the population into account.
The main objective of this study is to establish the safety as well as the efficacy of local insertion of Iloprost at the fracture site for bone healing of the proximal humeral fracture. The study will have two treatment groups and one control group. All patients will receive the standard of care procedure (reduction and angular stable (PHILOS) plate fixation). The two treatment groups will additionally be treated with two different Iloprost doses. Subjects will be assessed for study eligibility within 24h after admission (screening period). Eligible subjects will be assessed for baseline parameters on day 0. Within 96 hours of the study, subjects will undergo surgery, reduction, and angular stable (PHILOS) plate fixation. During the procedure, a catheter will be inserted in the fracture site of the treatment groups in order to deliver the Iloprost locally in the fracture site. The expected total duration of study participation for each subject comprises 52 weeks, among which 26 weeks include active study participation. At the study end, a telephone call with the subjects will be performed for safety assessment. Recruitment will be completed in approximately 18 months. Follow up visits following the surgical operation shall take place during weeks 3, 6, 12, and 26. The last follow-up will be a phone call during week 52 for the purpose of safety assessment.
Majority of previous classifications based on two-dimensional images to analyze these complicated 3-D fractures. Small or delicate changes in rotation and positioning can result to considerable disagreement in the interpretation of standard radiographs. Therefore, a classification system which had a better reliability and reproducibility for the fractures is warranted and helpful for orthopedic surgeons. Furthermore, CT and 3-D CT construction images with high resolution give a much clearer view of the pattern of proximal humeral fractures. Edelson proposed a new three-dimensional classification for fractures of the proximal humerus. The results concluded that it was a useful in classifying these injuries with reasonable interobserver reliability. It could be hypothesized that patients with proximal humeral fractures would benefit from this 3D classification, but there is a scarcity of application of the classification in large samples. T
To reproduce anatomical reduction and appropriate implant placement/choices during osteosynthesis for elbow fractures, a 3D preoperative planning system was developed. To assess the utility of 3D digital preoperative planning for the osteosynthesis of distal humerus fractures, the reproducibility of implant reduction shapes and placements in patients with distal humerus fractures will be evaluated.
The primary objective is to evaluate the clinical, functional and radiological results in patients treated with posterior MIPO for Humerus Diaphyseal Fractures With Extra-articular Distal Humeral Anatomical Plate.