We report our experience of staged revision surgery
for the treatment of infected total elbow arthroplasty (TEA). Between
1998 and 2010 a consecutive series of 33 patients (34 TEAs) underwent
a first-stage procedure with the intention to proceed to second-stage
procedure when the infection had been controlled. A single first-stage procedure
with removal of the components and cement was undertaken for 29
TEAs (85%), followed by the insertion of antibiotic-impregnated
cement beads, and five (15%) required two or more first-stage procedures.
The most common organism isolated was coagulase-negative Staphylococcus in
21 TEAs (62%). A second-stage procedure was performed for 26 TEAs (76%); seven
patients (seven TEAs, 21%) had a functional resection arthroplasty
with antibiotic beads in situ and had no further
surgery, one had a persistent discharge preventing further surgery. There were three recurrent infections (11.5%) in those patients
who underwent a second-stage procedure. The infection presented
at a mean of eight months (5 to 10) post-operatively. The mean Mayo
Elbow Performance Score (MEPS) in those who underwent a second stage
revision without recurrent infection was 81.1 (65 to 95).
Periprosthetic joint infection represents a devastating complication after total elbow arthroplasty. Several measures can be implemented before, during, and after surgery to decrease infection rates, which exceed 5%. Debridement with antibiotics and implant retention has been reported to be successful in less than one-third of acute infections, but still plays a role. For elbows with well-fixed implants, staged retention seems to be equally successful as the more commonly performed two-stage reimplantation, both with a success rate of 70% to 80%. Permanent resection or even amputation are occasionally considered. Not uncommonly, a second-stage reimplantation requires complex reconstruction of the skeleton with allografts, and the extensor mechanism may also be deficient. Further developments are needed to improve our management of infection after elbow arthroplasty. Cite this article:
We describe the use of a protocol of irrigation and debridement
(I&
D) with retention of the implant for the treatment of periprosthetic
infection of a total elbow arthroplasty (TEA). This may be an attractive
alternative to staged re-implantation. Between 1990 and 2010, 23 consecutive patients were treated in
this way. Three were lost to follow-up leaving 20 patients (21 TEAs)
in the study. There were six men and 14 women. Their mean age was
58 years (23 to 76). The protocol involved: component unlinking,
irrigation and debridement (I&
D), and the introduction of antibiotic
laden cement beads; organism-specific intravenous antibiotics; repeat
I&
D and re-linkage of the implant if appropriate; long-term
oral antibiotic therapy. Aims
Patients and Methods
Frozen shoulder is a recognised complication
following simple arthroscopic shoulder procedures, but its exact incidence
has not been reported. Our aim was to analyse a single-surgeon series
of patients undergoing arthroscopic subacromial decompression (ASD;
group 1) or ASD in combination with arthroscopic acromioclavicular
joint (ACJ) excision (group 2), to establish the incidence of frozen
shoulder post-operatively. Our secondary aim was to identify associated
risk factors and to compare this cohort with a group of patients
with primary frozen shoulder. We undertook a retrospective analysis of 200 consecutive procedures
performed between August 2011 and November 2013. Group 1 included
96 procedures and group 2 104 procedures. Frozen shoulder was diagnosed
post-operatively using the British Elbow and Shoulder Society criteria.
A comparative group from the same institution involved 136 patients
undergoing arthroscopic capsular release for primary idiopathic
frozen shoulder. The incidence of frozen shoulder was 5.21% in group 1 and 5.71%
in group 2. Age between 46 and 60 years (p = 0.002) and a previous
idiopathic contralateral frozen shoulder (p <
0.001) were statistically
significant risk factors for the development of secondary frozen
shoulder. Comparison of baseline characteristics against the comparator groups
showed no statistically significant differences for age, gender,
diabetes and previous contralateral frozen shoulder. These results suggest that the risk of frozen shoulder following
simple arthroscopic procedures is just over 5%, with no increased
risk if the ACJ is also excised. Patients aged between 46 and 60
years and a previous history of frozen shoulder increase the relative
risk of secondary frozen shoulder by 7.8 (95% confidence interval
(CI) 2.1 to 28.3)and 18.5 (95% CI 7.4 to 46.3) respectively. Cite this article: