Pseudomonas aeruginosa biofilm killing beyond the spacer by antibiotic loaded calcium sulfate beads: an in vitro study
Pseudomonas aeruginosa biofilm killing beyond the spacer by antibiotic loaded calcium sulfate beads: an in vitro study
Introduction: Bacterial biofilms are an important virulence factor in chronic periprosthetic joint infection (PJI) and other orthopedic infection since they are highly tolerant to antibiotics and host immunity. Antibiotics are mixed into carriers such as bone cement and calcium sulfate bone void fillers to achieve sustained high concentrations of antibiotics required to more effectively manage biofilm infections through local release. The effect of antibiotic diffusion from antibiotic-loaded calcium sulfate beads (ALCS-B) in combination with PMMA bone cement spacers on the spread and killing of
Pseudomonas aeruginosa Xen41 (PA-Xen41) biofilm was investigated using a "large agar plate" model scaled for clinical relevance.
Methods: Bioluminescent PA-Xen41 biofilms grown on discs of various orthopedic materials were placed within a large agar plate containing a PMMA full-size mock "spacer" unloaded or loaded with vancomycin and tobramycin, with or without ALCS-B. The amount of biofilm spread and log reduction on discs at varying distances from the spacer was assessed by bioluminescent imaging and viable cell counts.
Results: For the unloaded spacer control, PA-Xen41 spread from the biofilm to cover the entire plate. The loaded spacer generated a 3 cm zone of inhibition and significantly reduced biofilm bacteria on the discs immediately adjacent to the spacer but low or zero reductions on those further away. The combination of ALCS-B and a loaded PMMA spacer greatly reduced bacterial spread and resulted in significantly greater biofilm reductions on discs at all distances from the spacer.
Discussion: The addition of ALCS-B to an antibiotic-loaded spacer mimic increased the area of antibiotic coverage and efficacy against biofilm, suggesting that a combination of these depots may provide greater physical antibiotic coverage and more effective dead space management, particularly in zones where the spread of antibiotic is limited by diffusion (zones with little or no fluid motion).
biofilm, Antibiotic loaded calcium sulfate beads, pseudomonas, antibiotic loaded bone cement spacers, Periprosthetic joint infection, local antibiotics
119–129
Brooks, Jacob R.
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Dusane, Devendra
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Moore, Kelly
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Gupta, Tripti Thapa
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Delury, Craig
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Aiken, Sean
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Laycock, Phillip A.
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Sullivan, Anne
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Granger, Jeffrey F.
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Dipane, Matthew V.
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McPherson, Edward J.
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Stoodley, Paul
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2021
Brooks, Jacob R.
d82d53dd-aafb-4895-81b8-f5f41b1e2e85
Dusane, Devendra
6c396d1d-c25a-481a-9beb-cad5c76eb090
Moore, Kelly
7ce22be7-6d12-4766-8b17-603b79b3a53b
Gupta, Tripti Thapa
81131501-352a-489d-bffe-8910035598f5
Delury, Craig
3b6f0751-f41a-4480-b470-3ce001bba84a
Aiken, Sean
c029c46b-baad-4ff3-8d4f-f38807024a93
Laycock, Phillip A.
bf34e2e9-d2fd-4128-b671-7f3e25d80d8a
Sullivan, Anne
2fc4e087-c92c-405d-9071-18d5873b4cbd
Granger, Jeffrey F.
cac1970b-bff4-4842-a1e3-62cc55d87bd7
Dipane, Matthew V.
4aa94d69-8b93-4ebc-9763-5229b7e4c8b2
McPherson, Edward J.
d00c0949-e3f3-4ecf-ae19-18449073d4f5
Stoodley, Paul
08614665-92a9-4466-806e-20c6daeb483f
Brooks, Jacob R., Dusane, Devendra, Moore, Kelly, Gupta, Tripti Thapa, Delury, Craig, Aiken, Sean, Laycock, Phillip A., Sullivan, Anne, Granger, Jeffrey F., Dipane, Matthew V., McPherson, Edward J. and Stoodley, Paul
(2021)
Pseudomonas aeruginosa biofilm killing beyond the spacer by antibiotic loaded calcium sulfate beads: an in vitro study.
Journal of Bone and Joint Infection, 6 (5), .
(doi:10.5194/jbji-6-119-2021).
Abstract
Introduction: Bacterial biofilms are an important virulence factor in chronic periprosthetic joint infection (PJI) and other orthopedic infection since they are highly tolerant to antibiotics and host immunity. Antibiotics are mixed into carriers such as bone cement and calcium sulfate bone void fillers to achieve sustained high concentrations of antibiotics required to more effectively manage biofilm infections through local release. The effect of antibiotic diffusion from antibiotic-loaded calcium sulfate beads (ALCS-B) in combination with PMMA bone cement spacers on the spread and killing of
Pseudomonas aeruginosa Xen41 (PA-Xen41) biofilm was investigated using a "large agar plate" model scaled for clinical relevance.
Methods: Bioluminescent PA-Xen41 biofilms grown on discs of various orthopedic materials were placed within a large agar plate containing a PMMA full-size mock "spacer" unloaded or loaded with vancomycin and tobramycin, with or without ALCS-B. The amount of biofilm spread and log reduction on discs at varying distances from the spacer was assessed by bioluminescent imaging and viable cell counts.
Results: For the unloaded spacer control, PA-Xen41 spread from the biofilm to cover the entire plate. The loaded spacer generated a 3 cm zone of inhibition and significantly reduced biofilm bacteria on the discs immediately adjacent to the spacer but low or zero reductions on those further away. The combination of ALCS-B and a loaded PMMA spacer greatly reduced bacterial spread and resulted in significantly greater biofilm reductions on discs at all distances from the spacer.
Discussion: The addition of ALCS-B to an antibiotic-loaded spacer mimic increased the area of antibiotic coverage and efficacy against biofilm, suggesting that a combination of these depots may provide greater physical antibiotic coverage and more effective dead space management, particularly in zones where the spread of antibiotic is limited by diffusion (zones with little or no fluid motion).
Text
JBJI Revised Submission_2_26_21 Final Version Clean
- Accepted Manuscript
More information
Accepted/In Press date: 4 March 2021
e-pub ahead of print date: 23 March 2021
Published date: 2021
Additional Information:
Copyright: © 2021 Jacob R. Brooks et al.
Keywords:
biofilm, Antibiotic loaded calcium sulfate beads, pseudomonas, antibiotic loaded bone cement spacers, Periprosthetic joint infection, local antibiotics
Identifiers
Local EPrints ID: 447571
URI: http://eprints.soton.ac.uk/id/eprint/447571
PURE UUID: 17e902bd-b334-43bf-8613-65ed9bc29ba8
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Date deposited: 16 Mar 2021 17:33
Last modified: 17 Mar 2024 06:24
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Contributors
Author:
Jacob R. Brooks
Author:
Devendra Dusane
Author:
Kelly Moore
Author:
Tripti Thapa Gupta
Author:
Craig Delury
Author:
Sean Aiken
Author:
Phillip A. Laycock
Author:
Anne Sullivan
Author:
Jeffrey F. Granger
Author:
Matthew V. Dipane
Author:
Edward J. McPherson
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