scholarly journals A Unique Salvage Operation Strategy: Implantation of the Ulnar Total Elbow Component to the Radius to Overcome Large Ulnar Bone Defect Caused by Infection After Total Elbow Arthroplasty

2021 ◽  
Author(s):  
Takuya Tomizawa ◽  
Hiromu Ito ◽  
Koichi Murata ◽  
Shuichi Matsuda
Keyword(s):  
Bone Defect ◽  
Surgical Site Infections ◽  
Total Elbow Arthroplasty ◽  
Salvage Operation ◽  
Elbow Prosthesis ◽  
Proximal Ulna ◽  
Elbow Arthroplasty ◽  
Unique Method ◽  
Control Disease ◽  
Massive Bone

ABSTRACT The elbow joints of patients with rheumatoid arthritis (RA) are often destroyed, and total elbow arthroplasty (TEA) is one treatment for these patients. However, patients with RA tend to develop surgical site infections due to immunosuppression. Once an implant is infected, reoperation may be difficult because of the risk of reinfection. In such patients, the infected site must be debrided thoroughly, although this might reduce the bone scaffold needed for re-TEA. We used a unique method to manage a large ulnar bone defect and an infected implant. The patient with RA had undergone TEA 15 years earlier. Etanercept was initiated to control disease activity; however, this treatment led to infection of the elbow prosthesis. Several surgical debridements were performed to eradicate the bacteria, which improved the symptoms of infection. However, most of the proximal ulna was lost, and it seemed impossible to fix the prosthesis using the remaining small ulna after debridement. Therefore, we planned to implant the ulnar component into the radius as a salvage technique. With this procedure, we provided the patient with elbow mobility and eradicated the infection. This is an alternative method for restoring function in an elbow with a massive bone defect in the ulna.

scholarly journals Inserting the Ulnar Prosthesis into Radius as a Novel Salvage Surgery for Revision Total Elbow Arthroplasty with Massive Bone Defect

2016 ◽  
Vol 129 (16) ◽  
pp. 1917-1921 ◽  
Author(s):  
Mao-Qi Gong ◽  
Ji-Le Jiang ◽  
Xie-Yuan Jiang ◽  
Ye-Jun Zha ◽  
Ting Li
Keyword(s):  
Bone Defect ◽  
Salvage Surgery ◽  
Total Elbow Arthroplasty ◽  
Elbow Arthroplasty ◽  
Massive Bone

Osseous anatomy of the distal humerus and proximal ulna: Implications for total elbow arthroplasty

2007 ◽  
Vol 16 (3) ◽  
pp. S39-S46 ◽  
Author(s):  
Steven H. Goldberg ◽  
Reza Omid ◽  
Ahmad N. Nassr ◽  
Robert Beck ◽  
Mark S. Cohen
Keyword(s):  
Distal Humerus ◽  
Total Elbow Arthroplasty ◽  
Proximal Ulna ◽  
Elbow Arthroplasty

The effect of the anatomy of the distal humerus and proximal ulna on the positioning of the components in total elbow arthroplasty

2015 ◽  
Vol 97-B (11) ◽  
pp. 1539-1545 ◽  
Author(s):  
H. Lenoir ◽  
M. Chammas ◽  
J. P. Micallef ◽  
C. Lazerges ◽  
T. Waitzenegger ◽  
...  
Keyword(s):  
Distal Humerus ◽  
Total Elbow Arthroplasty ◽  
Proximal Ulna ◽  
Elbow Arthroplasty

The flat spot of the proximal ulna: a useful anatomic landmark in total elbow arthroplasty

2004 ◽  
Vol 13 (2) ◽  
pp. 206-207 ◽  
Author(s):  
Naven Duggal ◽  
Cynthia E. Dunning ◽  
James A. Johnson ◽  
Graham J.W. King
Keyword(s):  
Total Elbow Arthroplasty ◽  
Proximal Ulna ◽  
Anatomic Landmark ◽  
Elbow Arthroplasty

Ex vivo kinematic studies of a canine unlinked semi-constrained hybrid total elbow arthroplasty system

2015 ◽  
Vol 28 (01) ◽  
pp. 39-47 ◽  
Author(s):  
N. D. Lorenz ◽  
S. Channon ◽  
R. Pettitt ◽  
P. Smirthwaite ◽  
J. F. Innes
Keyword(s):  
Range Of Motion ◽  
Kinematic Analysis ◽  
Sagittal Plane ◽  
Ex Vivo ◽  
Total Elbow Arthroplasty ◽  
Elbow Prosthesis ◽  
Elbow Arthroplasty ◽  
Custom Made ◽  
Kinematic Studies ◽  
Post Implantation

Summary Objectives: Introduction of the Sirius® canine total elbow arthroplasty system, and presentation of the results of a passive range-of-motion analysis based on ex vivo kinematic studies pre-and post-implantation. Materials and methods: Thoracic limbs (n = 4) of medium sized dogs were harvested by forequarter amputation. Plain orthogonal radiographs of each limb were obtained preand post-implantation. Limbs were prepared by placement of external fixator pins and Kirschner wires into the humerus and radius. Each limb was secured into a custom-made box frame and retro-reflective markers were placed on the exposed ends of the pins and wires. Each elbow was manually moved through five ranges-of-motion manoeuvres. Data collected included six trials of i) full extension to full flexion and ii) pronation and supination in 90° flexion; a three-dimensional motion capture system was used to collect and analyse the data. The Sirius elbow prosthesis was subsequently implanted and the same measurements were repeated. Data sets were tested for normality. Paired t-tests were used for comparison of pre- and post-implantation motion parameters. Results: Kinematic analysis showed that the range-of-motion (mean and SD) for flexion and extension pre-implantation was 115° ± 6 (range: 25° to 140°). The range-of-motion in the sagittal plane post-implantation was 90° ± 4 (range: 36° to 130°) and this reduction was significant (p = 0.0001). The ranges-of-motion (mean and SD) for supination and pronation at 90° were 50° ± 5, whereas the corresponding mean ranges-of-motion post-implantation were 38° ± 6 (p = 0.0188). Conclusion: Compared to a normal elbow, the range-of-motion was reduced. Post- implantation, supination and pronation range-of-motion was significantly reduced at 90° over pre-implantation values. Clinical relevance: These results provide valuable information regarding the effect of the Sirius system on ex vivo kinematics of the normal canine elbow joint. Further, this particular ex vivo model allowed for satisfactory and repeatable kinematic analysis.

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