Two-stage hip revision arthroplasty with a hexagonal modular cementless stem in cases of periprosthetic infection

The number of total hip arthroplasties (THA) carried out in Germany has increased in recent years up to 160,000 annually [1]. The main reasons for this are the aging of the population and technical improvements in orthopedic surgery. The current rate of prosthetic joint infection (PJI) in Europe and the United States is around 0.6–1.0% for THA [1‐3]. This indicates that not only the number of THA increasing, but also the absolute numbers of infections.

Treatment for PJI depends on the duration of symptoms. Early or hematogenous infections, with symptoms for less than 4 weeks, can be treated with local debridement and retention of the implant. In patients with late infections, one-stage or two-stage procedures are necessary [4].

As success rates are above 90%, two-stage revision is the first choice for patients with late PJI in Germany [5, 6]. Either cemented or cementless revision systems can be used [5‐9]. Cemented fixation was used for reimplantation in the past, because it allows antibiotics to be used in the cement to reduce the risk of recurrent infection [7, 8]. However, following good results with cementless fixation in aseptic surgery [10, 11], there have been increasing numbers of publications describing successful cementless fixation in two-stage revision procedures [3, 5, 12‐17].

The aim of the present study was to evaluate clinical and functional outcomes with the Modular Universal Tumor And Revision System (MUTARS) RS stem, which has been used in our department for more than 10 years, in patients undergoing two-stage revisions.

Two-stage revision arthroplasty is today regarded as the gold standard treatment method for deep prosthetic joint infection [22, 23]. However, there has been debate on whether cemented or cementless reimplantation is better, in view of the lack of local antibiotic protection with the latter method [5‐7, 9, 12‐15, 24‐26]. In earlier studies on cementless two-stage revision, high rates of loosening and reinfection were reported [25, 26]. However, more recent studies have described good eradication rates and good prosthetic survival [5, 6, 14, 24]. The present study focuses on the reinfection rate and early loosening of the MUTARS RS stem (Implantcast Ltd., Buxtehude, Germany).

Limitation of this study are the retrospective nature of the study and the relatively short follow-up period of 2 years in a few cases. However, most cases of reinfection occur in the first few years after reimplantation [15, 24] and most studies on cementless two-stage revision have reported follow-up periods of 2 years [5, 6, 12, 24, 25]. Subsidence of the stem and early loosening of the components would also occur within the first few years [27‐30].

The eradication rates achieved ranged from 82% to 100% with cementless two-stage revisions [5, 6, 12‐15, 17, 24‐26] and from 84% to 100% with cemented two-stage revisions [31‐35]. The eradication rate observed in the present study was 93%, including multiresistant bacteria. The treatments administered in other studies vary widely. Haddad et al. [6] used a course of 5 days of parenteral antibiotics, followed by oral antibiotics for 3 weeks in the interval up to reimplantation, with an eradication rate of 92%. Other studies have reported administering intravenous antibiotics for up to 6 weeks [5, 12‐14, 24]. Another limitation in the present study is that we had two different treatment protocols. Initial we treated seven patients in mean only 20 days parenteral between both operations. We had no reinfection with this kind of treatment. To our knowledge there is no study describing the gold standard for the perioperative treatment [23, 36]. Since 2004 we treated with a periods of 2 weeks with parenteral antibiotic treatment and 4 weeks of oral antibiotic therapy were used in the interval to reimplantation, followed by a further course of antibiotic therapy with 2 weeks of parenteral treatment followed by 4 weeks of oral treatment after reimplantation. Fink et al. reported a 100% eradication rate with non-multiresistant bacteria using this sequence [5]. The 2-week period of parenteral antibiotic therapy appears to be short, but it is consistent with the recommendations of Zimmerli et al. [4, 37]. The 3-month period of antibiotic treatment is also in agreement with the recommendations [4, 37].

Local methods of treatment for PJI also vary widely. In earlier studies, resection arthroplasty [25, 26], antibiotic beads [6, 12], and articulating spacers [15] were used. Gentamicin, alone or in combination with vancomycin, was often used [6, 12]. However, it was not possible to successfully treat gram-negative bacteria in particular with this combination. Masri et al. and Fink et al. were the first to describe specific local antibiotic therapy [5, 24], which makes it possible to treat resistant bacteria successfully, on the one hand, while on the other the development of new resistance can be avoided. Specific antibiotic therapy was therefore always used in the present study when possible. In cases of unknown bacteria, gentamicin alone was used. The results, with an eradication rate of 93%, provide support for this form of local therapy.

Multiresistant bacteria such as methicillin-resistant S. aureus (MRSA) are an increasing problem [38] and are associated with higher reinfection rates [39]. Kilgus et al. reported that the reinfection rate in cases of multiresistant S. aureus and S. epidermidis has increased from 19% to 52% [40]. Lim et al. compared 24 patients with resistant microorganisms with 13 patients with nonresistant microorganisms [41] and noted a recurrence rate of 33% in the resistant group, in comparison with no failures in the nonresistant group. Similar results were observed in the present study. Only two patients had MRSA infections, but reinfection occurred in both cases. One had already undergone a two-stage revision due to MRSA infection. The reinfection rate was significantly higher in patients with MRSA infection.

Aseptic loosening occurred in 4.6% of the cases. In a review, Wirtz et al. reported mean loosening rates of 4.4% with cementless stems in cases of aseptic revision and 21.2% with cemented stem revisions [42]. Dohmae et al. [43] demonstrated that there is a 70% lower shear force capacity in revision cases in comparison with primary implantations. This may be the reason why the cement does not fuse with spongy bone. It is therefore necessary for the revision implant to bridge the bone affected by the original femur implant. In two-stage revisions, Nestor et al. [25] reported an 18% rate of loosening using a nonmodular, proximally coated stem, while other studies have reported loosening rates of 0% using nonmodular or modular stems [5, 6, 12‐14, 17, 24]. Most of the studies do not report any classification of the defects. The loosening rates observed with two-stage revisions are equal to or better than those with aseptic revisions [42]. It was therefore concluded that the loosening rate depends on the defects involved, rather than on the two-stage procedure.

Other risk factors have also been identified that have an unfavorable influence on the course of salvage procedures following infection. Particularly with primary hip arthroplasty, these factors include postoperative osteoarthritis, multiple surgical revisions, cutaneous and urinary tract infections, chronic liver disease, inadequate antibiotic prophylaxis, and malignancies [44]. Further risk factors include rheumatoid arthritis, steroid therapy, diabetes mellitus, immunosuppressant therapy, and nosocomial infections [45]. The only risk factor for reinfection identified in the present data was the presence of multiresistant bacteria. In fact, the same risk factors appear to be present with two-stage revisions as in primary arthroplasty. It is possible that the number of patients included was too small for statistical significance to be reached.

This retrospective study showed a 93% rate of eradication using specific antibiotic therapy in accordance with the recommendations made by Zimmerli et al. [4] and Trampuz et al. [46]. With the modular MUTARS RS stem, there was a low rate of aseptic loosening of 4.6%. MRSA infection was identified as a risk factor for reinfection. The two-stage procedure used with the modular cementless implants is therefore appropriate for treating periprosthetic infections associated with hip endoprostheses.