Killing of a multispecies biofilm using a gram-negative and gram-positive targeted antibiotic released from high purity calcium sulfate beads
Killing of a multispecies biofilm using a gram-negative and gram-positive targeted antibiotic released from high purity calcium sulfate beads
Background: multispecies biofilm orthopedic infections are more challenging to treat than mono-species infections. In this in-vitro study, we aimed to determine if a multispecies biofilm, consisting of Gram positive and negative species with different antibiotic susceptibilities could be treated more effectively using high purity antibiotic-loaded calcium sulfate beads (HP-ALCSB) containing vancomycin (VAN) and tobramycin (TOB) in combination than alone.
Methods: three sets of species pairs from bioluminescent strains of Pseudomonas aeruginosa (PA) and Staphylococcus aureus (SA) and clinical isolates, Enterococcus faecalis (EF) and Enterobacter cloacae were screened for compatibility. PA+EF developed intermixed biofilms with similar cell concentrations and so were grown on 316L stainless steel coupons for 72 h or as 24 h agar lawn biofilms and then treated with HP-ALCSBs with single or combination antibiotics and assessed by viable count or bioluminescence and light imaging to distinguish each species. Replica plating was used to assess viability.
Results: the VAN+TOB bead significantly reduced the PA+EF biofilm CFU and reduced the concentration of surviving antibiotic tolerant variants by 50% compared to single antibiotics.
Conclusion: the combination of Gram-negative and positive targeted antibiotics released from HP-ALCSBs may be more effective in treating multispecies biofilms than monotherapy alone.
biofilm, calcium sulfate, orthopedic infection, multispecies infection
Moore, Kelly
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Li, Anthony
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Gupta, Niraj K.
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Gupta, Tripti Thapa
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Delury, Craig
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Aiken, Sean S.
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Laycock, Phillip A.
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Stoodley, Paul
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Moore, Kelly
7ce22be7-6d12-4766-8b17-603b79b3a53b
Li, Anthony
0aaa4f10-7283-4d03-9b1b-4a1406227349
Gupta, Niraj K.
cb1eb6ec-18fb-4aee-81ba-a3202f74ab85
Gupta, Tripti Thapa
81131501-352a-489d-bffe-8910035598f5
Delury, Craig
3b6f0751-f41a-4480-b470-3ce001bba84a
Aiken, Sean S.
96111e2a-e87d-4824-9a2c-2180fe64e217
Laycock, Phillip A.
bf34e2e9-d2fd-4128-b671-7f3e25d80d8a
Stoodley, Paul
08614665-92a9-4466-806e-20c6daeb483f
Moore, Kelly, Li, Anthony, Gupta, Niraj K., Gupta, Tripti Thapa, Delury, Craig, Aiken, Sean S., Laycock, Phillip A. and Stoodley, Paul
(2023)
Killing of a multispecies biofilm using a gram-negative and gram-positive targeted antibiotic released from high purity calcium sulfate beads.
Microorganisms.
(In Press)
Abstract
Background: multispecies biofilm orthopedic infections are more challenging to treat than mono-species infections. In this in-vitro study, we aimed to determine if a multispecies biofilm, consisting of Gram positive and negative species with different antibiotic susceptibilities could be treated more effectively using high purity antibiotic-loaded calcium sulfate beads (HP-ALCSB) containing vancomycin (VAN) and tobramycin (TOB) in combination than alone.
Methods: three sets of species pairs from bioluminescent strains of Pseudomonas aeruginosa (PA) and Staphylococcus aureus (SA) and clinical isolates, Enterococcus faecalis (EF) and Enterobacter cloacae were screened for compatibility. PA+EF developed intermixed biofilms with similar cell concentrations and so were grown on 316L stainless steel coupons for 72 h or as 24 h agar lawn biofilms and then treated with HP-ALCSBs with single or combination antibiotics and assessed by viable count or bioluminescence and light imaging to distinguish each species. Replica plating was used to assess viability.
Results: the VAN+TOB bead significantly reduced the PA+EF biofilm CFU and reduced the concentration of surviving antibiotic tolerant variants by 50% compared to single antibiotics.
Conclusion: the combination of Gram-negative and positive targeted antibiotics released from HP-ALCSBs may be more effective in treating multispecies biofilms than monotherapy alone.
Text
microorganisms_2502747_Revised_2_Final_Clean_Accepted
- Accepted Manuscript
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Accepted/In Press date: 9 September 2023
Keywords:
biofilm, calcium sulfate, orthopedic infection, multispecies infection
Identifiers
Local EPrints ID: 481913
URI: http://eprints.soton.ac.uk/id/eprint/481913
PURE UUID: 190eac34-9188-4d86-aeec-c2e8ce74e0ba
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Date deposited: 12 Sep 2023 17:21
Last modified: 18 Mar 2024 03:13
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Contributors
Author:
Kelly Moore
Author:
Anthony Li
Author:
Niraj K. Gupta
Author:
Tripti Thapa Gupta
Author:
Craig Delury
Author:
Sean S. Aiken
Author:
Phillip A. Laycock
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