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Research

STAPHYLOCOCCUS AUREUS ADHERENCE DECREASE ON HYBRID ORGANO-INORGANIC SOL-GEL COATING

European Orthopaedic Research Society (EORS) 24th Annual Meeting, 14–16 September 2016. Part 2.



Abstract

Prosthetic joint infections (PJI) occur infrequently, but they represent the most devastating complication with high morbidity and substantial cost. Staphylococcus aureus are the most common infecting agents associated with acute PJI, and also appear in some cases of delayed PJI1. S. aureus biofilm development can be divided in two stages: adhesion and proliferation2. To avoid PJI bacterial adhesion has to be decreased.

Hybrid organo-inorganic sol-gel coatings are proposed as a promising biomaterial improvement3. One of these compounds is a mixture of two organopolisiloxanes: 3-methacryloxypropyltrimethoxysilane (MAPTMS) and tetramethylorthosilicate (TMOS). The aim of this work was to evaluate bacterial adhesion on MAPTMS-TMOS coating compared to titanium parts made by powder metallurgy.

MAPTMS-TMOS sol-gel coating was produced using a molar ratio of 1:2 (MAPTMS:TMOS) and dispersed in ethanol. The sol-gel was deposited by dip-coating on titanium parts made by powder metallurgy followed by a thermal treatment at 120 ÂșC for 30 minutes4. Titanium parts without sol-gel coating were used as control.

S. aureus 15981 strain adherence study was performed using the protocol described by Kinnari et al.5 with 90 min incubation. After incubation, the samples were stained with LIVE/DEAD BacLight Bacterial Viability Kit. Proportion of total adhered, live and dead bacteria was calculated and studied by using ImageJ software. The experiments were performed in triplicate.

The statistical data were analyzed by pairwise comparisons using the nonparametric Mann-Whitney test with a level of statistical significance of p<0.05. Values are cited and represented as medians.

S. aureus 15981 adherence was 942-fold lower on MAPTMS-TMOS coating than on uncoated titanium.

According with our results, MAPTMS-TMOS sol-gel coating is a promising antiadherent surface for S. aureus. More studies are necessary in order to evaluate this property with other species and strains.