Abstract
Deep infection is a serious complication in endoprosthetic surgery. In correlation to the patient local or systemic compromising factors conservative and surgical proceedings has to be evaluated. Systemic antibiotic therapy is the gold standard in infection management. Implanted silver-coated or silver-containing medical devices have been proven to their antimicrobial effectiveness since the 1990s by several investigators. The outcomes showed that long time implantation could cause damaging of the surrounding tissues, especially of adjacent nerves. The aim of our study was to evaluate the release of silver (I) ions from bone cement mixed with either nanosilver particles (AgNPs), different concentrations of silver sulfate (Ag2SO4) or from pure metallic silver strips. Therefore, we choose two methods: the first, called “static model”, was chosen to evaluate the maximal accumulative concentration of silver (I) ions, with the second, called “dynamic model”, we simulated a continuous reduction of the ions. In an additional test design, the different materials were evaluated for their antimicrobial activity using an agar gel diffusion assay. The outcome showed that neither the addition of 1% (w/w) nanosilver nor 0.1% silver sulfate (w/w) to polymethylmethacrylat bone cement has the ability to release silver (I) ions in a bactericidal/antifungal concentration. However, the results also showed that the addition of 0.5% (w/w) and 1% (w/w) silver sulfate (Ag2SO4) to bone cement is an effective amount of silver for use as a temporary spacer.
Highlights
Deep infection is a serious complication in endoprosthetic surgery
Alt et al reported about the antimicrobial potency of silver (I) ions released from polymethylmethacrylate (PMMA) bone cement loaded with nanosilver particles (AgPNs) in order to eradicate bacterial growth[13,14]
Two of them were mixed with polymethylmethacrylate PMMA bone cement (TRAUMACEMTM V) the third was used in a pure metallic form: 1. Nanosilver with a particle size of 5–50 nm and an active surface of 4 m 2/g. 2
Summary
Deep infection is a serious complication in endoprosthetic surgery. In correlation to the patient local or systemic compromising factors conservative and surgical proceedings has to be evaluated. The aim of our study was to evaluate the release of silver (I) ions from bone cement mixed with either nanosilver particles (AgNPs), different concentrations of silver sulfate (Ag2SO4) or from pure metallic silver strips. Debridement, lavage, systemic antibiotic therapy, antibiotic loaded bone cement and the change of the medical device, either in a one-way or two-way stage replacement are standard in endoprosthetic infection m anagement[3,4]. The aim of this study was to investigate the silver (I) ions release out of a PMMA matrix mixed with silver nanoparticles (AgNPs) and an inorganic Ag (I) salt, silver sulfate ( Ag2SO4), compared to metallic silver in a bactericidal/fungicidal concentration during a maximum implantation time of nine weeks (corresponds to the exposure time of the spacer)
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