Aims. The aim of this study is to report the implant survival and factors associated with
Aims.
Thermal injury to the radial nerve caused by cement leakage is a rare complication after revision elbow arthroplasty. Several reports have described nerve palsy caused by cement leakage after hip arthroplasty. However, little information is available regarding whether radial nerve injury due to cement leakage after humeral stem revision will recover. In a recent study, radial nerve palsy occurred in 2 of 7 patients who had thermal injury from leaked cement during humeral component revisions. These patients did not regain function of the radial nerve after observation. We present a case of functional recovery from a radial nerve palsy caused by cement leakage after immediate nerve decompression in revision elbow arthroplasty[Fig. 1.2].
Summary Statement. Discovery system produced effective functional improvement in both primary and
Purpose:. Interposition arthroplasty is a salvage procedure for patients with severe osteoarthritis of the elbow where conservative treatment failed. It is mostly performed in younger patients where total joint replacement is contraindicated and an arthrodesis is unattractive. Although one of the oldest reconstructive options for elbow arthritis, the procedure is not without complications. There are only a few case series described in the literature. The purpose of our study is to review our cases and report their outcome. Method. We retrospectively reviewed 18 consecutive cases of interposition arthroplasty between 2001 and 2010. 2 cases were excluded due to incomplete records. The mean patient age was 41.3 (19.4–58.6) years at time of surgery. The primary diagnosis was post-traumatic osteoarthritis in 11 cases and inflammatory osteoarthritis in 5 cases. The mean follow up was 4.7 (0.4–10) years. Pre- and post-operative pain and function was evaluated using the Visual Analogue Scale (VAS) and Mayo Elbow Performance Score (MEPS). The complications and the number of re-operations and revisions were recorded. Summary of results:. In 12 (75%) cases at least one revision operation was performed, because of sepsis, ulnar nerve symptoms, instability and unsatisfactory clinical results. Sepsis rate was 25%. In 7 cases there was an unsatisfactory clinical result (i.e. ongoing pain and poor function), resulting in
Background. The procedures of total elbow and shoulder replacements increased 6% to 13% annually from 1993 to 2007 with revision-related burden increasing from 4.5% to 7%. The revisions of the shoulder and elbow prostheses due to aseptic loosening, periprosthetic fractures, infections have led to the use of standard or custom-made implants due to significant bone loss. This study reports our experience in the management of complicated primary and revisions of total shoulder and elbow replacements with significant humeral bone loss and in metabolic diseases of the elbow and shoulder treated with bone resection using The Mosaic Humeral Replacement System. Patients and Materials. A total of 20 patients underwent total elbow or shoulder arthroplasty using the Mosaic Humeral Replacement System (Biomet, UK). The Mosaic system was used in 8 shoulder arthroplasties (Group A) and in 12 elbow arthroplasties (Group B). The underlying pathologis in Group A included 2 malunited proximal humerus fracture, 1 humeral osteomyelitis, 1 shoulder chondrosarcoma, 1 aggressive Gigantic Cell Tumor with prosthetic fracture, 2 metastatic lytic lesion, and 1 failed fixation of non-union proximal humerus. Figure 1 shows Mosaic implant after complex fracture of proximal humerus. Reasons for Mosaic arthroplasty in Group B included 3 humeral component revisions due to periprosthetic fracture, 1 prosthesis breaking-up with fractures, 1 revision of loose Souter Strathclyde prosthesis, 1 loose prosthesis due to infection, 1 highly comminuted elbow fracture, 1 aseptic loosening of humeral component of
We studied, ten patients (11 elbows) who had
undergone 14 allograft-prosthesis composite reconstructions following
failure of a previous total elbow replacement with massive structural
bone loss. There were nine women and one man with a mean age of
64 years (40 to 84), who were reviewed at a mean of 75 months (24
to 213). One patient developed a deep infection after 26 months
and had the allograft-prosthesis composite removed, and two patients
had mild pain. The median flexion-extension arc was 100° (95% confidence
interval (CI) 76° to 124°). With the exception of the patient who
had the infected failure, all the patients could use their elbows
comfortably without splints or braces for activities of daily living.
The mean Mayo Elbow Performance Index improved from 9.5 (95% CI
4.4 to 14.7) pre-operatively to 74 (95% CI 62.4 to 84.9) at final
review. Radiologically, the rate of partial resorption was similar in
the humeral and ulnar allografts (three of six and four of eight,
respectively; p >
0.999). The patterns of resorption, however, were
different. Union at the host-bone-allograft junction was also different
between the humeral and ulnar allografts (one of six and seven of
eight showing union, respectively; p = 0.03). At medium-term follow-up, allograft-prosthesis composite reconstruction
appears to be a useful salvage technique for failed elbow replacements
with massive bone loss. The effects of allograft resorption and
host-bone-allograft junctional union on the longevity of allograft-prosthesis
composite reconstruction, however, remain unknown, and it is our
view that these patients should remain under long-term regular review.
At our institution between 1994 and 2003 a total of 36 revision total elbow Arthroplasties were performed in 34 patients. We clinically reviewed 25 patients and reviewed the notes and x-rays of all of them. Of eleven who were not reviewed clinically seven had died from an unrelated cause and four were unable to attend because of illness but we were able to include them as sufficient data were available in the notes. There were 24 female and 12 male, Average age was 67 years and twelve had elbow Arthroplasty in a non-dominant side. The average follow up was 6 years (range 5–13 years). The mean period between the primary and revision surgery was sixty three months (range 3–240 months). The indication for surgery was mainly for aseptic loosening in 15 cases, followed by septic loosening in twelve. All cases of septic loosening had two stage revisions. Other reasons for revision in this series include unstable elbows, implant fracture and peri-prosthetic fractures. Twelve of these revisions had a further revision for a variety of reasons at an average period of twenty eight months. Seven patients had thirteen complications in this series, two radial nerve palsies (one recovered), one distal humeral fracture, five cortical perforations and five triceps weakness. Most of the patients are satisfied with their elbows. The mean Mayo elbow Performance Score was 79 points. We conclude that revision Elbow Arthroplasty is a specialized surgery which is technically demanding, with high risk of complications and high re-revision rate and therefore, should be done in a specialised centres.
Between 1996 and 2008, nine patients with severe post-traumatic arthritis underwent revision of a failed interposition arthroplasty of the elbow with a further interposition procedure using an allograft of tendo Achillis at a mean of 5.6 years (0.7 to 13.1) after the initial procedure. There were eight men and one woman with a mean age of 47 years (36 to 56). The mean follow-up was 4.7 years (2 to 8). The mean Mayo Elbow Performance score improved from 49 (15 to 65) pre-operatively to 73 (55 to 95) (p = 0.04). The mean Disability of the Arm, Shoulder and Hand score was 26 (7 to 42). One patient was unavailable for clinical follow-up and one underwent total elbow replacement three months post-operatively. Of the remaining patients, one had an excellent, two had good, three fair and one a poor result. Subjectively, five of the nine patients were satisfied. Four continued manual labour. Revision interposition arthroplasty is an option for young, active patients with severe post-traumatic arthritis who require both mobility and durability of the elbow.
A 55-year-old woman who was diagnosed as RA (stage, class ) in 1995 had undergone right total elbow arthroplasty (TEA) in October 2006. We implanted her prosthesis FINE ELBOW® (Nakashima Medical, Japan). Prosthesis of the humerus side is made of Co-Cr-Mo, and the ulna side is of polyethylene. Radius side is metal back system which inserts a polyethylene joint part in metal holder made by Co-Cr-Mo. All components were fixed by cement. She complained her right elbow uncomfortable gradually from January 2008. X-ray radiograph showed loosening of the ulnar component. So we performed revision surgery using ulnar revision sack in May 2008. This ulnar component had only a product made in polyethylene and we inserted the component of the product made in the polyethylene in a metal sack. The operation was successed and now she does housework. We think that strength is not worthy of the ulnar component made by polyethylene in TEA for the patient with terrible joint destruction and high daily activity patient of rheumatoid arthritis.
The purpose of this study is to report our experience with
We describe a lateral approach to the distal humerus based on initial location of the superficial branches of the radial nerve, the inferior lateral cutaneous nerve of the arm and the posterior cutaneous nerve of the forearm. In 18 upper limbs the superficial branches of the radial nerve were located in the subcutaneous tissue between the triceps and brachioradialis muscles and dissected proximally to their origin from the radial nerve, exposing the shaft of the humerus. The inferior lateral cutaneous nerve of the arm arose from the radial nerve at the lower part of the spiral groove, at a mean of 14.2 cm proximal to the lateral epicondyle. The posterior cutaneous nerve of the forearm arose from the inferior lateral cutaneous nerve at a mean of 6.9 cm (6.0 to 8.1) proximal to the lateral epicondyle and descended vertically along the dorsal aspect of the forearm. The size and constant site of emergence between the triceps and brachioradialis muscles constitute a readily identifiable landmark to explore the radial nerve and expose the humeral shaft.
Reconstruction of deficient bone stock during total elbow arthroplasty in rheumatoid arthritis represents a challenge for the surgeon. Fracture and osteolysis of the olecranon process is a very rare condition in rheumatoid arthritis. The consequence of a deficient olecranon is an instable and painful elbow. We report a case of successful olecranon reconstruction with bone graft associated to total elbow arthroplasty with a 8 years follow up and discuss surgical aspects. This case concerns a 44 years old woman with a very severe rheumatoid arthritis. She complains of pain and instability of her right elbow. X-rays show fracture and major osteolysis of the olecranon process with only some persistent bone at the insertion of the triceps tendon. The humeral condyles were subluxated posteriorly. We performed a total elbow replacement with a GSB3 implant and reconstruction of the olecranon with two cancellous iliac bone strut fixed by 2.7 diameter screws to the proximal ulna. The triceps tendon with remnant olecranon bone chips was secured to the bone graft by tension band wiring. Postoperatively, the elbow was immobilized for 3 weeks. With a follow up of more than 8 years the elbow is pain free with excellent function. The active range of motion of flexion – extension is 140° / −20°. The elbow is stable and triceps function is very satisfying authorizing the use of crutches. X-rays show good bony integration of the reconstructed olecranon process and no signs of loosening of the GSB3 implant. The literature concerning olecranon reconstruction during total elbow arthroplasty in rheumatoid patients is very poor. Kamineni and Morrey reported on one case of olecranon reconstruction with strut allograft in
Of 81 elbow replacements performed over a seven-year period, 11 were total elbow revision (TER) procedures, which were done on two men and nine women with a mean age of 61 years (40 to 70). Seven of the patients had rheumatoid arthritis, three had post-traumatic osteoarthritis and one had haemophilia. The reason for revision was aseptic loosening in eight patients and aseptic loosening with fracture in the other three. The prostheses revised were the Souter in eight patients, the Kudo in one, the GSB I in one and the Dee in one. In revision TER, one long stem Souter prosthesis was used, two Pretoria, one GSB 3 and seven Morrey. The mean time from primary to revision TER was 10 years (2 to 31). At a mean follow-up of 30 months (6 to 48), all except one patient were pain-free and the arc of flexion had increased by 30°. Complications included one dislocation, one radial nerve palsy, which recovered after six months, and one aseptic loosening. There were no cases of sepsis. Revision TER is a technically demanding procedure with a high risk of complications. In this series patient satisfaction was high. Our policy is to use a hinged prosthesis, preferably the Morrey, in revision TER.
Although it is generally accepted that
Although it is generally accepted that
The Souter-Strathclyde prosthesis was used in 52
Between 1986 and 1994, 13 patients with mobile painful arthritic elbows were treated by distraction interposition arthroplasty using fascia lata. The mean period of follow-up was 63 months. An elbow distractor/fixator was applied for three to four weeks to separate the articular surfaces and to protect the fascial graft. Nine of the 13 patients (69%) had satisfactory relief from pain; eight (62%) had an excellent or good result by the objective criteria of the Mayo Elbow Performance score. Four have required