Staphylococcus aureus and Staphylococcus epidermidis Virulence Strains as Causative Agents of Persistent Infections in Breast Implants

Chessa, Daniela; Ganau, Giulia; Spiga, Luisella; Bulla, Antonio; Mazzarello, Vittorio; Campus, Gian Vittorio; Rubino, Salvatore

doi:10.1371/journal.pone.0146668

Cited by 67 publications

(56 citation statements)

References 26 publications

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“…These species adhere to the smooth surfaces of biomaterials, and may also colonize the skin. They demonstrate the ability to form a biofilm, which protects them against the host's immune system and antibiotics (Vacheethasanee et al 1998;Costerton et al 1999;Chessa et al 2016;Conte et al 2018).…”

mentioning

confidence: 99%

Significance of Infections in Implant Loss After Breast Reconstruction in the Course of Breast Cancer Treatment

Szymankiewicz¹,

Nowikiewicz

Biedka

2019

Polish Journal of Microbiology

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The aim of the study was to analyze the reasons for removing implants after breast reconstruction in the course of treatment of breast cancer. The study involved 428 patients, who underwent a total of 648 breast reconstruction procedures using artificial implants. 47 out of 648 cases (7.3%) were identified in which the implant had to be removed. Of the 47 cases, 57.4% had undergone deferred reconstruction, and 42.6% immediate reconstruction; 27.7% had undergone pre-operative chemotherapy and radiotherapy, 27.7% pre-operative chemotherapy, and 2.1% pre-operative radiotherapy; 6.4% were diabetic, 4.3% active smokers, and more than 50.0% had BMI greater than 25 kg/m2. In 83.0% of the analyzed cases, the reason for removal of the implant was infection, in 8.5% it was local recurrence of breast cancer, in 4.3% it was damage (leakage) of the implant, and in 2.1% it was post-operative pain. About 87.0% of infections appeared within one year of implantation; however, less than a half developed within 90 days of the reconstructive surgery, and up to 30 days only about 13.0% had appeared. Among the etiological agents of infections were: coagulase-negative Staphylococcus (31.3%), Staphylococcus aureus (18.7%), Enterococcus faecalis (9.4%), Enterobacter cloacae (18.8%), Pseudomonas aeruginosa (12.5%), Acinetobacter lwoffii (3.1%), and other Gram-negative fermenting rods accounted for 6.2%. Infections were the most common reason for removing the implant after breast reconstruction. and occurred most often as late infections (> 30 days after surgery). The time of observation for infectious complications should be at least 1 year.

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confidence: 99%

Significance of Infections in Implant Loss After Breast Reconstruction in the Course of Breast Cancer Treatment

Szymankiewicz¹,

Nowikiewicz

Biedka

2019

Polish Journal of Microbiology

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“…These phages constitute, therefore, an abundant and widely applicable source of targeting peptides [33–35] directing AMPs against specific bacterial pathogens, and, as well, a bank of variants that can be used to maintain the efficacy of the targeted antimicrobial peptides. Both S. epidermidis and S. aureus are fast emerging to be the dominant pathogens in nosocomial infection [39,40] due to their tendency of rapid biofilm formation and development of multi-drug resistance capabilities. Thus, the strategy explored by this study may help us in developing therapies to combat such infections without damaging the prevalent microflora in the subjects while also not contributing to the growing arsenal antimicrobial resistance in pathogens by avoiding the usage of conventional antibiotic.…”

Section: Discussionmentioning

confidence: 99%

The use of a virus-derived targeting peptide to selectively kill staphylococcus bacteria with antimicrobial peptides

Choudhury

et al. 2019

Preprint

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BackgroundTargeted therapies seek to selectively eliminate a pathogen without disrupting the microbiome community. Bacteriophages provide a rich, well-documented source of bacterium-specific binding proteins for use as targeting peptides fused to antimicrobial peptides. Though resistance may develop as with any antibiotic, the wealth of variants available in natural bacteriophage populations adds to the robustness of this system.ResultsHere, we target two cationic antimicrobial peptides (AMPs), plectasin and eurocin, by genetically fusing their coding sequence to that of the host-binding protein of bacteriophage A12C, which selectively infectsStaphylococcus. Surprisingly, we noted that targeting brought no change in the toxicity of the AMP when applied to two different staphylococci,S. aureusandS. epidermidis, but found a drastic decrease in toxicity against the negative controls,Enterococcus faecalisandBacillus subtilis. Thus, the differential selectivity in this case is a loss of toxicity against the non-target species rather than the gain of toxicity against the target species which was reported in previous studies with other types of targeting antimicrobial peptides.ConclusionThis is the first report of the use of virus-derived peptide sequences to target antimicrobial peptides. Considering the very large databank of bacteriophages and their bacterial hosts, this targeting approach should be generally applicable to a wide range of bacterial pathogens.

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“…Since icaR is encoding for a repression regulator, it is obviously clear that this gene could be in the origin of irreversible repression of ica operon expression and hence in non-biofilm forming phenotype (5). The other ica genes are highly frequent in strains isolated from biomaterial associated infections (30), making this molecular marker very suitable to discriminate between invasive and commensal strains (30). In our study, we did not detect the presence of IS256 inside ica operon; therefore, we cannot establish any relation between IS256 presence and the amount of PIA production, at least for studied strains.…”

Section: Discussionmentioning

confidence: 99%

Overview of Genetic Background Beyond Polysaccharide Intercellular Adhesion Production in Staphylococcus epidermidis

Mekni¹,

Achour²,

Hassen³

2016

Jundishapur J Microbiol

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Background: An important observation during quantification experiments of Staphylococcus epidermidis biofilm is that there is a great difference in the biofilm biomass of different strains despite the same experimental conditions. Objectives: This study aimed to study the genotypic background beyond differential rates of Polysaccharide Intercellular Adhesion (PIA) production in S. epidermidis biofilm forming strains. Methods: A number of 126 strains were isolated from blood cultures (n = 40), catheter cultures (n = 50), and other specimens (n = 36). The strains were obtained from patients hospitalized at the bone marrow transplant center of Tunis. Biofilm micro-plate assay, hemagglutination, and susceptibility to proteinase K methods were used to assess biofilm characteristics in the studied strains. Conventional and real time PCR were used to assess genotypic background of biofilm formation. Results: Using PCR method, we demonstrated that there is a significant difference in ica genes (P < 0.01) and not in adhesion rsb and sar genes distribution between biofilm forming and non-biofilm forming strains. Almost all strains harbored agr type I. None of studied strains harbored IS256 inside ica operon. Ica-independent biofilm formation was detected in 11 strains that were confirmed to have proteinaceous matrix. Using Kernel density estimation, we established that biofilm biomass was higher in ica-dependent than ica-independent biofilm forming population. Using qRT-PCR, we found a significant correlation between biofilm biomass and RNAIII expression level (r 2 = 0.95); but no correlation was found for biofilm biomass neither with icaA nor with ccpA genes.

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Staphylococcus aureus and Staphylococcus epidermidis Virulence Strains as Causative Agents of Persistent Infections in Breast Implants

Cited by 67 publications

References 26 publications

Significance of Infections in Implant Loss After Breast Reconstruction in the Course of Breast Cancer Treatment

Significance of Infections in Implant Loss After Breast Reconstruction in the Course of Breast Cancer Treatment

The use of a virus-derived targeting peptide to selectively kill staphylococcus bacteria with antimicrobial peptides

Overview of Genetic Background Beyond Polysaccharide Intercellular Adhesion Production in Staphylococcus epidermidis

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