BACKGROUND: Articulating spacers used in two-stage revision surgery of infected prostheses have the potential to abrade and subsequently induce third-body wear of the new prosthesis. QUESTIONS/PURPOSES: We asked whether particulate material abraded from spacers could be detected in the synovial membrane 6 weeks after implantation when the spacers were removed for the second stage of the revision. PATIENTS AND METHODS: Sixteen hip spacers (cemented prosthesis stem articulating with a cement cup) and four knee spacers (customized mobile cement spacers) were explanted 6 weeks after implantation and the synovial membranes were removed at the same time. The membranes were examined by xray fluorescence spectroscopy, xray diffraction for the presence of abraded particles originating from the spacer material, and analyzed in a semiquantitative manner by inductively coupled plasma mass spectrometry. Histologic analyses also were performed. RESULTS: We found zirconium dioxide in substantial amounts in all samples, and in the specimens of the hip synovial lining, we detected particles that originated from the metal heads of the spacers. Histologically, zirconium oxide particles were seen in the synovial membrane of every spacer and bone cement particles in one knee and two hip spacers. CONCLUSIONS: The observations suggest cement spacers do abrade within 6 weeks. Given the presence of abrasion debris, we recommend total synovectomy and extensive lavage during the second-stage reimplantation surgery to minimize the number of abraded particles and any retained bacteria.
BACKGROUND: Articulating spacers used in two-stage revision surgery of infected prostheses have the potential to abrade and subsequently induce third-body wear of the new prosthesis. QUESTIONS/PURPOSES: We asked whether particulate material abraded from spacers could be detected in the synovial membrane 6 weeks after implantation when the spacers were removed for the second stage of the revision. PATIENTS AND METHODS: Sixteen hip spacers (cemented prosthesis stem articulating with a cement cup) and four knee spacers (customized mobile cement spacers) were explanted 6 weeks after implantation and the synovial membranes were removed at the same time. The membranes were examined by xray fluorescence spectroscopy, xray diffraction for the presence of abraded particles originating from the spacer material, and analyzed in a semiquantitative manner by inductively coupled plasma mass spectrometry. Histologic analyses also were performed. RESULTS: We found zirconium dioxide in substantial amounts in all samples, and in the specimens of the hip synovial lining, we detected particles that originated from the metal heads of the spacers. Histologically, zirconium oxide particles were seen in the synovial membrane of every spacer and bone cement particles in one knee and two hip spacers. CONCLUSIONS: The observations suggest cement spacers do abrade within 6 weeks. Given the presence of abrasion debris, we recommend total synovectomy and extensive lavage during the second-stage reimplantation surgery to minimize the number of abraded particles and any retained bacteria.
Authors: Mark G Freeman; Thomas K Fehring; Susan M Odum; Keith Fehring; William L Griffin; J Bohannon Mason Journal: J Arthroplasty Date: 2007-12 Impact factor: 4.757
Authors: David J Jaekel; Judd S Day; Gregg R Klein; Harlan Levine; Javad Parvizi; Steven M Kurtz Journal: Clin Orthop Relat Res Date: 2012-04-04 Impact factor: 4.176
Authors: Timothy E Ekpo; Keith R Berend; Michael J Morris; Joanne B Adams; Adolph V Lombardi Journal: Clin Orthop Relat Res Date: 2014-02 Impact factor: 4.176
Authors: Sufian S Ahmad; Kim Huber; Dimitrios S Evangelopoulos; Barbara Kleer; Hendrik Kohlhof; Michael Schär; Stefan Eggli; Sandro Kohl Journal: ScientificWorldJournal Date: 2013-09-30