Kinetics and morphology of polymicrobial biofilm formation on polypropylene mesh
Kinetics and morphology of polymicrobial biofilm formation on polypropylene mesh
We examined the ability of three clinical bacterial isolates to form mixed biofilms on surgical polypropylene mesh in vitro. The three strains, Staphylococcus aureus, Enterococcus faecalis and Enterobacter cloacae, were isolated from a patient with an infected polypropylene mesh. S. aureus and E. faecalis (alone and in combination) were inoculated into culture containing squares of polypropylene mesh and allowed to attach and propagate into mature biofilms. E. faecalis initially attached to the mesh in greater numbers, however, at 7 days post-inoculation there were more S. aureus cells attached, indicating that in vitro S. aureus is the out-competing species. All three isolates were then co-cultured to form mature biofilms on mesh, and the biofilms were examined by confocal microscopy using both Live/Dead staining and fluorescent in situ hybridization (FISH). Imaging revealed a dense biofilm structure with interstitial voids and channels; rods and cocci were interspersed throughout the biofilm, indicating bacterial co-existence in close proximity. FISH revealed staphylococci and enterococci adjacent to each other and also to the Enterobacter, distinguishable by its rod morphology. These studies show that different species can co-operatively form mature biofilms on mesh but that the relative abundance of a species within the biofilm may vary over time.
Stoodley, Paul
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Sidhu, Sandeep
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Nistico, Laura
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Mather, Megan
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Boucek, Ashley
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Hall-Stoodley, Luanne
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Kathju, Sandeep
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Stoodley, Paul
08614665-92a9-4466-806e-20c6daeb483f
Sidhu, Sandeep
7cba11e3-96a9-45c4-98b6-9f1950235b40
Nistico, Laura
7a83886a-6bf1-46a1-87dd-75a120d41603
Mather, Megan
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Boucek, Ashley
27c72bf6-67a2-446b-8df5-d1efaf1b552f
Hall-Stoodley, Luanne
94ebdc00-b549-4488-b15f-5310fb965f5b
Kathju, Sandeep
80cdb7ee-2e0d-4e70-98c9-93682ce05a09
Stoodley, Paul, Sidhu, Sandeep, Nistico, Laura, Mather, Megan, Boucek, Ashley, Hall-Stoodley, Luanne and Kathju, Sandeep
(2012)
Kinetics and morphology of polymicrobial biofilm formation on polypropylene mesh.
FEMS Immunology & Medical Microbiology.
(doi:10.1111/j.1574-695X.2012.00948.x).
(PMID:22364207)
(In Press)
Abstract
We examined the ability of three clinical bacterial isolates to form mixed biofilms on surgical polypropylene mesh in vitro. The three strains, Staphylococcus aureus, Enterococcus faecalis and Enterobacter cloacae, were isolated from a patient with an infected polypropylene mesh. S. aureus and E. faecalis (alone and in combination) were inoculated into culture containing squares of polypropylene mesh and allowed to attach and propagate into mature biofilms. E. faecalis initially attached to the mesh in greater numbers, however, at 7 days post-inoculation there were more S. aureus cells attached, indicating that in vitro S. aureus is the out-competing species. All three isolates were then co-cultured to form mature biofilms on mesh, and the biofilms were examined by confocal microscopy using both Live/Dead staining and fluorescent in situ hybridization (FISH). Imaging revealed a dense biofilm structure with interstitial voids and channels; rods and cocci were interspersed throughout the biofilm, indicating bacterial co-existence in close proximity. FISH revealed staphylococci and enterococci adjacent to each other and also to the Enterobacter, distinguishable by its rod morphology. These studies show that different species can co-operatively form mature biofilms on mesh but that the relative abundance of a species within the biofilm may vary over time.
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Accepted/In Press date: 25 February 2012
Organisations:
nCATS Group
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Local EPrints ID: 333904
URI: http://eprints.soton.ac.uk/id/eprint/333904
ISSN: 0928-8244
PURE UUID: 8ef614b0-982b-4163-a35f-626e83d7c259
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Date deposited: 06 Mar 2012 14:13
Last modified: 15 Mar 2024 03:34
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Contributors
Author:
Sandeep Sidhu
Author:
Laura Nistico
Author:
Megan Mather
Author:
Ashley Boucek
Author:
Luanne Hall-Stoodley
Author:
Sandeep Kathju
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