Abstract
Aim
Periprosthetic joint infections (PJI) are increasing due to our elderly population with the need of a joint prosthesis. These infections are difficult to treat, because bacteria form biofilms within one day on the orthopedic implant surface. Notably, most of the current available antibiotics do not penetrate the biofilm or are not active against the sessile forms of bacteria. Therefore, prevention is key. In the current paradigm, bacteria from the skin surface or dermis - such as Staphylococcus aureus, coagulase-negative staphylococci, or Cutibacterium sp. – contaminate the periimplant tissue during surgery. Cutibacterium avidum, which has increasingly been reported in hip PJIs, colonizes the skin in the groin area in 32.3%. We were wondering if standard skin antisepsis before hip arthroplasty is effective to eliminate C. avidum colonization in the surgical field.
Method
In a single-center, prospective study, we preoperatively screened all patients undergoing a hip arthroplasty through a direct anterior approach for different skin bacteria in the groin area. Only in patients colonized with C. avidum, we intraoperatively searched for persistent bacterial growth during and after triple skin antisepsis with povidone-iodine/alcohol. For that, we collected skin scrapings after first and third antisepsis and biopsies from the dermis at the surgical incision and evaluated bacterial growth and species. In addition, thin sections of the dermis biopsies were submitted to Fluorescence in situ Hybridization (FISH) using pan-bacteria probe EUB338.
Results
From October 2018 until March 2019, 53 patients (47.2% female) were screened. Patients were mainly colonized with coagulase-negative staphylococci (41, 77.4%; 41), C. avidum (12, 22.6%), and Cutibacterium acnes (8, 15.1%). Intraoperative skin antisepsis of patients colonized with C. avidum was ineffective to eliminate any bacteria in 75% (5 out of 7) after the first and 28.6% (2 out of 7) after the third antisepsis. Focusing on C. avidum, antisepsis was ineffective in 43% (3 out of 7) and 14% (1 out of 7), respectively. Dermis biopsies were all culture negative, but FISH showed positive ribosome-rich bacteria in 50%.
Conclusions
We show in our ongoing study that the commensal C. avidum resists the standard skin antisepsis and bacteria visually persist in the dermis as demonstrated by FISH technique. Standard skin antisepsis is of limited effectiveness, resulting in a risk for intraoperatively acquired PJIs. Thus, new and more effective techniques to improve skin antisepsis are urgently needed.
