Lauren Foulkes scite author profile

Lauren Foulkes

5Publications

11Citation Statements Received

119Citation Statements Given

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Controlled‐release iodine foam dressings demonstrate broad‐spectrum biofilm management in several in vitro models

Salisbury¹,

Mullin²,

Foulkes³

et al. 2022

International Wound Journal

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Multiple in vitro models were utilised to evaluate the biofilm management capabilities of seven commercially‐available wound dressings, varying in composition and antibacterial ingredients, to reduce common aerobic, anaerobic, and multispecies biofilms. The Center for Disease Control bioreactor was used to evaluate single species Pseudomonas aeruginosa (P. aeruginosa) and Staphylococcus aureus (S. aureus) 24 and 48 hours biofilms, as well as a multispecies biofilm consisting of these two organisms in addition to Enterococcus faecalis (E. faecalis). As wound biofilms often exist in hypoxic wound environments, a direct contact anaerobic model system was used to evaluate efficacy on Bacteroides fragilis (B. fragilis). Biofilm control was evaluated against P. aeruginosa in the drip flow bioreactor model, where a constant flow of proteinaceous media is used to create a more challenging and wound‐like model. The results demonstrated that biofilm management capabilities varied amongst wound dressings. Two dressings, a controlled‐release iodine foam dressing and a silver nanocrystalline dressing, showed potent >4 log reductions in recovered organisms compared with untreated controls in all biofilm models evaluated. The effectiveness of other dressings to manage bioburden varied between dressing, test organism, and model system. A silver foam dressing showed moderate biofilm control in some models. However, biofilm exposure to methylene blue and gentian violet‐containing foam dressings showed negligible log reductions in all in vitro biofilm methods examined. The data outlined in this in vitro study support the use of the iodine foam dressing for wounds with infection and biofilm.

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The Ability of a Concentrated Surfactant Gel to Reduce an Aerobic, Anaerobic and Multispecies Bacterial Biofilm In Vitro

Salisbury¹,

Mullin²,

Foulkes³

et al. 2021

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In Vitro Evaluation of Resistance Development to Silver Sulfadiazine and Subsequent Cross-Resistance to Antibiotics

Salisbury¹,

Chen²,

Mullin³

et al. 2022

Surg Technol Int.

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Treatment of chronic wounds that are at risk of infection, or that are infected, require the use of antimicrobial dressings, most often those that contain silver. Silver exerts its antimicrobial effects by binding to multiple cellular components and, as such, bacterial resistance to it is low; however, molecular silver resistance has been documented and is attributed to the presence of the sil operon or changes in genes encoding porin and efflux pump expression. The aim of this study was to evaluate spontaneous silver resistance development in common opportunistic pathogens, Staphylococcus, Pseudomonas and Enterococcus cloacae, as well as resistance development when exposed to subtherapeutic concentrations over a prolonged period. Furthermore, following silver resistance development, cross-resistance to several classes of antibiotics was evaluated. Following exposure of the strains to silver sulfadiazine (SSD) at two times and four times minimum inhibitory concentration (MIC), the mutation rate was <1010 colony forming unit (CFU)/mL. Serial passage of S. aureus and P. aeruginosa in subinhibitory concentrations of SSD selected for no resistant mutants. The SSD MIC of E. cloacae increased past the solubility limit of SSD at serial passage 17. MIC testing of this isolate showed a >2048-fold increase in MIC to silver in comparison to the parent strain. MIC testing of the serial passage isolates demonstrated no cross-resistance to antibiotics from six different classes. Overall, the results of this study show resistance development to silver is low and, if it does occur, it does not confer resistance to several antibiotic classes. However, as this study was carried out with a small number of strains, a study with a larger panel of strains and sequencing of the strains to determine the exact mechanism of resistance would be needed to investigate the threat of silver resistance further.

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Contributors

Adil

Ahmad

Anand

et al. 2023

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Aspects of biofilms on medical devices

Watson¹,

Swann²,

Zimmer³

et al. 2023

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Lauren Foulkes

Controlled‐release iodine foam dressings demonstrate broad‐spectrum biofilm management in several in vitro models

The Ability of a Concentrated Surfactant Gel to Reduce an Aerobic, Anaerobic and Multispecies Bacterial Biofilm In Vitro

In Vitro Evaluation of Resistance Development to Silver Sulfadiazine and Subsequent Cross-Resistance to Antibiotics

Contributors

Aspects of biofilms on medical devices

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