View clinical trials related to Avascular Necrosis of Humerus.
Filter by: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.
This observational study is conducted in order to evaluate the effectiveness of the primary total shoulder arthroplasty with the Permedica's MIRAI Modular Shoulder Prosthesis System on the general population of patients who are about to undergo this surgery for every indication. Patients requiring a revision shoulder arthroplasty will not be enrolled. The effectiveness will be evaluated in terms of recovery of shoulder function and stability of the prosthetic implant. The incidence of complications, adverse and serious adverse events will also be studied. Additional study aim is to evaluate a medium/long term survival of the prosthesis. The duration of the study per single subject is 5 years.
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.
Patients treated operative for Proximal humeral fractures with angular stable device (Philos plate or ALPS-PHP)