Konradsen White (valuealarm95)

The range of general and specific adverse event in total elbow arthroplasty is similar in principle and practice to all other revision prosthetic arthroplasty but with three particular challenges loss of humeral and ulnar bone stock; insufficiency of the extensor 'mechanism'; and the management of the ulnar nerve. Total elbow replacement is presently performed for the management of complex non-reconstructable distal humeral fractures in osteoporotic bone, for post-traumatic arthropathy, and for medically managed inflammatory arthritides in which metaphyseal bone architecture is often preserved while the articular surface is degenerate. In all these conditions the patient often presents for revision total elbow arthroplasty with relevant co-morbidities and relevant musculoskeletal dysfunction (for example ipsilateral shoulder, wrist, thumb or hand dysfunction). Infection is a universal concern for revision arthroplasty but where the soft tissue 'envelope' is compromised and already limited, as in the proximal never anatomic. For these reasons revision total elbow replacement (RTER) is challenging it requires experience with surgical exposures of the elbow including the major nerve trunks, familiarity with the restoration of bone stock, a range of prostheses and techniques for prosthetic implantation, the ability to achieve adequate soft tissue cover and primary closure, and a logical approach to individualised rehabilitation.Computed tomography (CT) scans are often used for postoperative imaging in orthopedics. In the presence of metallic hardware, artifacts are generated, which can hamper visualization of the CT images, and also render the study ineffective for 3-D printing. Various solutions are available to minimize metal artifacts, and radiologists can employ these before or after processing the CT study. However, the orthopedic surgeon may be faced with situations where the metal artifacts were not addressed. To counter such problems, we present three do-it-yourself (DIY) techniques that can be used to manage metal artifacts.The treatment of inflammatory arthritis with disease modifying drugs and biological agents had reduced the number of patients needing surgical treatment. Surgical treatment of patients with inflammatory arthritis is challenging not only due to the factors such as bone stock and status of soft tissue but also due to the comorbidities associated with inflammatory arthritis. Multidisciplinary approach to these patients is recommended to deal with the complex poly-articular involvement and systemic physiological impairment especially when planning surgery. This review will cover the key articular and peri-articular pathologies that can affect the elbow in inflammatory arthritis and discuss the treatment strategies available to the orthopaedic surgeon in their management. From surgical point of view, the rheumatoid elbow can be classified into 4 types 1) classic soft tissue type with increased joint laxity, malalignment and instability; 2) osteoarthritic type with stiffness, hypertrophic joints (hypertrophic) and preserved alignment; 3) nodular type with subcutaneous nodules and enthesopathies but preserved jointly; 4) mutilans with bone and joint destruction. Surgical managements of the articular problem in each of the subtypes are discussed in this review. On the other hand, the seronegative arthritis such as psoarisis, gout and lupus seems to affect the peri-articular tissue of the elbow more than the joint itself and the disease specific management of the peri-articular soft tissue problems, such as enthesopathies and inflammatory nodules, are also outlined. Cerebral palsy (CP) children undergoing hip reconstruction are more prone to blood loss during surgery due to poor nutritional status, antiepileptic medication intake, depletion of clotting factors, and the extent of surgery involved. CMC-Na nmr We conducted this present review to analyze whether antifibrinolytics during hip surgery in CP