Introduction: The use of antibiotic-loaded polymethylmethacrylate bone-cement spacers during two-stage exchange procedures is the standard in the treatment of patients with delayed prosthetic joint infection. The real antimicrobial activity of these spacers is unclear because the adherence of bacteria to cement might result in clinical recurrence of infection. The purpose of the study is to evaluate the in vitro formation of Pseudomonas Aeruginosa (PA) and Staphylococcus spp. biofilm on antibiotic-loaded bone cement. Materials and methods: Cement disks (diameter = 6 mm) impregnated with gentamicin and colistin were submerged in bacterial suspensions of Methicillin-resistant Staphylococcus Aureus (MRSA), Staphylococcus epidermidis (SE), and PA. Negative controls (specimen disks without antibiotic) were similarly prepared. Biofilm formation was visualized by confocal scanning laser microscopy (CSLM), after staining the discs with the live/dead BacLight viability stain containing SYTO 9 dye and propidium iodide. Images from five randomly selected areas were acquired for each disc. Sequential optical sections of 2 µm were collected in sequence along the z-axis over the complete thickness of the sample. The resulting stacks of images were analyzed, quantified and rendered into three-dimensional (3D). The biofilm thickness on antibiotic bone cement compared with the controls was automatically evaluated. Results: CSLM showed living bacteria and bacterial biofilm on the surface of all cement disks, either antibiotic-loaded or controls. Mean biofilm thickness on the controls was 29.6 µm for MRSA, 32.3 µm for SE, and 59.7 µm for PA. The 3D rendering showed decrease in the biofilm thickness for all bacterial strains on gentamicin- and colistin-impragnated cement disks as compared with the controls. The incorporation of gentamicin into cement resulted in a 54%, 74%, and 45% reduction in the bacterial biofilm thickness for MRSA, PA and SE, respectively. The use of colistin leaded to a 51 % reduction in the PA biofilm thickness. Conclusion: The bacterial viability and biofilm formation are reduced by adding antibiotics to bone cement but antibiotic-loaded bone cement does not completely inhibit the formation of an infectious biofilm in vitro.

Formazione di biofilm batterico in vitro su supporti di cemento antibiotato / Balato, Giovanni; Catania, MARIA ROSARIA; Galasso, O; Gasparini, G; Mariconda, Massimo. - (2015). (Intervento presentato al convegno 7° Congresso Accademia Universitaria di Ortopedia e Traumatologia tenutosi a Catanzaro nel 23-24 aprile 2015).

Formazione di biofilm batterico in vitro su supporti di cemento antibiotato

BALATO, GIOVANNI;CATANIA, MARIA ROSARIA;MARICONDA, MASSIMO
2015

Abstract

Introduction: The use of antibiotic-loaded polymethylmethacrylate bone-cement spacers during two-stage exchange procedures is the standard in the treatment of patients with delayed prosthetic joint infection. The real antimicrobial activity of these spacers is unclear because the adherence of bacteria to cement might result in clinical recurrence of infection. The purpose of the study is to evaluate the in vitro formation of Pseudomonas Aeruginosa (PA) and Staphylococcus spp. biofilm on antibiotic-loaded bone cement. Materials and methods: Cement disks (diameter = 6 mm) impregnated with gentamicin and colistin were submerged in bacterial suspensions of Methicillin-resistant Staphylococcus Aureus (MRSA), Staphylococcus epidermidis (SE), and PA. Negative controls (specimen disks without antibiotic) were similarly prepared. Biofilm formation was visualized by confocal scanning laser microscopy (CSLM), after staining the discs with the live/dead BacLight viability stain containing SYTO 9 dye and propidium iodide. Images from five randomly selected areas were acquired for each disc. Sequential optical sections of 2 µm were collected in sequence along the z-axis over the complete thickness of the sample. The resulting stacks of images were analyzed, quantified and rendered into three-dimensional (3D). The biofilm thickness on antibiotic bone cement compared with the controls was automatically evaluated. Results: CSLM showed living bacteria and bacterial biofilm on the surface of all cement disks, either antibiotic-loaded or controls. Mean biofilm thickness on the controls was 29.6 µm for MRSA, 32.3 µm for SE, and 59.7 µm for PA. The 3D rendering showed decrease in the biofilm thickness for all bacterial strains on gentamicin- and colistin-impragnated cement disks as compared with the controls. The incorporation of gentamicin into cement resulted in a 54%, 74%, and 45% reduction in the bacterial biofilm thickness for MRSA, PA and SE, respectively. The use of colistin leaded to a 51 % reduction in the PA biofilm thickness. Conclusion: The bacterial viability and biofilm formation are reduced by adding antibiotics to bone cement but antibiotic-loaded bone cement does not completely inhibit the formation of an infectious biofilm in vitro.
2015
Formazione di biofilm batterico in vitro su supporti di cemento antibiotato / Balato, Giovanni; Catania, MARIA ROSARIA; Galasso, O; Gasparini, G; Mariconda, Massimo. - (2015). (Intervento presentato al convegno 7° Congresso Accademia Universitaria di Ortopedia e Traumatologia tenutosi a Catanzaro nel 23-24 aprile 2015).
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/611868
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