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Quantitative Insights and Visualization of Antimicrobial Tolerance in Mixed-Species Biofilms

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Quantitative Insights and Visualization of Antimicrobial Tolerance in Mixed-Species Biofilms. / Dittmer, Mandy; Brill, Florian H H; Kampe, Andreas; Geffken, Maria; Rembe, Julian-Dario; Moll, Raphael; Alio, Ifey; Streit, Wolfgang R; Debus, Eike Sebastian; Smeets, Ralf; Stuermer, Ewa Klara.

in: BIOMEDICINES, Jahrgang 11, Nr. 10, 2640, 26.09.2023.

Publikationen: SCORING: Beitrag in Fachzeitschrift/ZeitungSCORING: ZeitschriftenaufsatzForschungBegutachtung

Harvard

Dittmer, M, Brill, FHH, Kampe, A, Geffken, M, Rembe, J-D, Moll, R, Alio, I, Streit, WR, Debus, ES, Smeets, R & Stuermer, EK 2023, 'Quantitative Insights and Visualization of Antimicrobial Tolerance in Mixed-Species Biofilms', BIOMEDICINES, Jg. 11, Nr. 10, 2640. https://doi.org/10.3390/biomedicines11102640

APA

Dittmer, M., Brill, F. H. H., Kampe, A., Geffken, M., Rembe, J-D., Moll, R., Alio, I., Streit, W. R., Debus, E. S., Smeets, R., & Stuermer, E. K. (2023). Quantitative Insights and Visualization of Antimicrobial Tolerance in Mixed-Species Biofilms. BIOMEDICINES, 11(10), [2640]. https://doi.org/10.3390/biomedicines11102640

Vancouver

Dittmer M, Brill FHH, Kampe A, Geffken M, Rembe J-D, Moll R et al. Quantitative Insights and Visualization of Antimicrobial Tolerance in Mixed-Species Biofilms. BIOMEDICINES. 2023 Sep 26;11(10). 2640. https://doi.org/10.3390/biomedicines11102640

Bibtex

@article{e28f6261753c41b096d8508ca7333a65,
title = "Quantitative Insights and Visualization of Antimicrobial Tolerance in Mixed-Species Biofilms",
abstract = "Biofilms are a major problem in hard-to-heal wounds. Moreover, they are composed of different species and are often tolerant to antimicrobial agents. At the same time, interspecific synergy and/or competition occurs when some bacterial species clash. For this reason, the tolerance of two dual-species wound biofilm models of Pseudomonas aeruginosa and Staphylococcus aureus or Enterococcus faecium against antimicrobials and antimicrobial dressings were analyzed quantitatively and by confocal laser scanning microscopy (CLSM). The results were compared to findings with planktonic bacteria. Octenidine-dihydrochloride/phenoxyethanol and polyhexamethylene biguanide (PHMB) irrigation solutions showed a significant, albeit delayed reduction in biofilm bacteria, while the PHMB dressing was not able to induce this effect. However, the cadexomer-iodine dressing caused a sustained reduction in and killed almost all bacteria down to 102 cfu/mL within 6 days compared to the control (1010 cfu/mL). By means of CLSM in untreated human biofilm models, it became evident that P. aeruginosa dominates over E. faecium and S. aureus. Additionally, P. aeruginosa appeared as a vast layer at the bottom of the samples, while S. aureus formed grape-like clusters. In the second model, the distribution was even clearer. Only a few E. faecium were visible, in contrast to the vast layer of P. aeruginosa. It seems that the different species avoid each other and seek their respective niches. These mixed-species biofilm models showed that efficacy and tolerance to antimicrobial substances are nearly species-independent. Their frequent application appears to be important. The bacterial wound biofilm remains a challenge in treatment and requires new, combined therapy options.",
author = "Mandy Dittmer and Brill, {Florian H H} and Andreas Kampe and Maria Geffken and Julian-Dario Rembe and Raphael Moll and Ifey Alio and Streit, {Wolfgang R} and Debus, {Eike Sebastian} and Ralf Smeets and Stuermer, {Ewa Klara}",
year = "2023",
month = sep,
day = "26",
doi = "10.3390/biomedicines11102640",
language = "English",
volume = "11",
journal = "BIOMEDICINES",
issn = "2227-9059",
publisher = "MDPI AG",
number = "10",

}

RIS

TY - JOUR

T1 - Quantitative Insights and Visualization of Antimicrobial Tolerance in Mixed-Species Biofilms

AU - Dittmer, Mandy

AU - Brill, Florian H H

AU - Kampe, Andreas

AU - Geffken, Maria

AU - Rembe, Julian-Dario

AU - Moll, Raphael

AU - Alio, Ifey

AU - Streit, Wolfgang R

AU - Debus, Eike Sebastian

AU - Smeets, Ralf

AU - Stuermer, Ewa Klara

PY - 2023/9/26

Y1 - 2023/9/26

N2 - Biofilms are a major problem in hard-to-heal wounds. Moreover, they are composed of different species and are often tolerant to antimicrobial agents. At the same time, interspecific synergy and/or competition occurs when some bacterial species clash. For this reason, the tolerance of two dual-species wound biofilm models of Pseudomonas aeruginosa and Staphylococcus aureus or Enterococcus faecium against antimicrobials and antimicrobial dressings were analyzed quantitatively and by confocal laser scanning microscopy (CLSM). The results were compared to findings with planktonic bacteria. Octenidine-dihydrochloride/phenoxyethanol and polyhexamethylene biguanide (PHMB) irrigation solutions showed a significant, albeit delayed reduction in biofilm bacteria, while the PHMB dressing was not able to induce this effect. However, the cadexomer-iodine dressing caused a sustained reduction in and killed almost all bacteria down to 102 cfu/mL within 6 days compared to the control (1010 cfu/mL). By means of CLSM in untreated human biofilm models, it became evident that P. aeruginosa dominates over E. faecium and S. aureus. Additionally, P. aeruginosa appeared as a vast layer at the bottom of the samples, while S. aureus formed grape-like clusters. In the second model, the distribution was even clearer. Only a few E. faecium were visible, in contrast to the vast layer of P. aeruginosa. It seems that the different species avoid each other and seek their respective niches. These mixed-species biofilm models showed that efficacy and tolerance to antimicrobial substances are nearly species-independent. Their frequent application appears to be important. The bacterial wound biofilm remains a challenge in treatment and requires new, combined therapy options.

AB - Biofilms are a major problem in hard-to-heal wounds. Moreover, they are composed of different species and are often tolerant to antimicrobial agents. At the same time, interspecific synergy and/or competition occurs when some bacterial species clash. For this reason, the tolerance of two dual-species wound biofilm models of Pseudomonas aeruginosa and Staphylococcus aureus or Enterococcus faecium against antimicrobials and antimicrobial dressings were analyzed quantitatively and by confocal laser scanning microscopy (CLSM). The results were compared to findings with planktonic bacteria. Octenidine-dihydrochloride/phenoxyethanol and polyhexamethylene biguanide (PHMB) irrigation solutions showed a significant, albeit delayed reduction in biofilm bacteria, while the PHMB dressing was not able to induce this effect. However, the cadexomer-iodine dressing caused a sustained reduction in and killed almost all bacteria down to 102 cfu/mL within 6 days compared to the control (1010 cfu/mL). By means of CLSM in untreated human biofilm models, it became evident that P. aeruginosa dominates over E. faecium and S. aureus. Additionally, P. aeruginosa appeared as a vast layer at the bottom of the samples, while S. aureus formed grape-like clusters. In the second model, the distribution was even clearer. Only a few E. faecium were visible, in contrast to the vast layer of P. aeruginosa. It seems that the different species avoid each other and seek their respective niches. These mixed-species biofilm models showed that efficacy and tolerance to antimicrobial substances are nearly species-independent. Their frequent application appears to be important. The bacterial wound biofilm remains a challenge in treatment and requires new, combined therapy options.

U2 - 10.3390/biomedicines11102640

DO - 10.3390/biomedicines11102640

M3 - SCORING: Journal article

C2 - 37893014

VL - 11

JO - BIOMEDICINES

JF - BIOMEDICINES

SN - 2227-9059

IS - 10

M1 - 2640

ER -