Effects of loading concentration, blood and synovial fluid on antibiotic release and anti-biofilm activity of bone cement beads
Effects of loading concentration, blood and synovial fluid on antibiotic release and anti-biofilm activity of bone cement beads
Antibiotic loaded cement beads are commonly used for the treatment of biofilm related orthopaedic periprosthetic infections; however the effects of antibiotic loading and exposure of beads to body fluids on release kinetics are unclear. The purpose of this study was to determine the effects of (i) antibiotic loading density (ii) loading amount (iii) material type and (iv) exposure to body fluids (blood or synovial fluid) on release kinetics and efficacy of antibiotics against planktonic and lawn biofilm bacteria. Short-term release into an agar gel was evaluated using a fluorescent tracer (fluorescein) incorporated in the carrier materials calcium sulfate (CaSO4) and poly methyl methacrylate (PMMA). Different fluorescein concentrations in CaSO4 beads were evaluated. Mechanical properties of fluorescein-incorporated beads were analyzed. Efficacy of the antibiotics vancomycin (VAN) or tobramycin (TOB) alone and in combination was evaluated against planktonic and lawn biofilms of bioluminescent strains of Staphylococcus aureus and Pseudomonas aeruginosa. Zones of inhibition (ZOI) were measured visually and using an in-vivo imaging system (IVIS). The influence of body fluids on release was assessed using CaSO4 beads that contained fluorescein or antibiotics and were pre-coated with human blood or synovial fluid. The spread from the beads followed a square root of time relationship in all cases. The loading concentration had no influence on short-term fluorescein release and pre-coating of beads with body fluids did not affect short-term release or antibacterial activity. Compared to PMMA, CaSO4 had a more rapid short term rate of elution and activity against planktonic and lawn biofilms. This study highlights the importance of considering antibiotic loading and packaging density when investigating the clinical application of bone cements for infection management.
Running title: Short-term antibiotic release and anti-biofilm efficacy from bone cement beads
Keywords: periprosthetic infection; biofilm; bone cement; antibiotic release; zone of inhibition
1-28
Dusane, Devendra
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Diamond, Scott
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Knecht, Cory
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Farrar, Nicholas
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Peters, Casey
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Howlin, Robert
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Swearingen, Matthew
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Calhoun, Jason
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Plaut, Roger D.
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Nocera, Tanya
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Granger, Jeffrey
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Stoodley, Paul
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Dusane, Devendra
6c396d1d-c25a-481a-9beb-cad5c76eb090
Diamond, Scott
1dc7cbca-9555-438a-b412-8fea116f0ba6
Knecht, Cory
36ea9a8c-0ccd-4a99-bc7d-58f4b02e70ae
Farrar, Nicholas
97407c8a-9e04-426f-b121-fa17c261f384
Peters, Casey
cf82d770-b8af-4189-a198-f64804afc3fc
Howlin, Robert
f3c84990-6196-47d4-ad8a-80954ea46c7f
Swearingen, Matthew
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Calhoun, Jason
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Plaut, Roger D.
79b98842-4ae5-4e00-a267-17b73abb0619
Nocera, Tanya
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Granger, Jeffrey
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Stoodley, Paul
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Dusane, Devendra, Diamond, Scott, Knecht, Cory, Farrar, Nicholas, Peters, Casey, Howlin, Robert, Swearingen, Matthew, Calhoun, Jason, Plaut, Roger D., Nocera, Tanya, Granger, Jeffrey and Stoodley, Paul
(2017)
Effects of loading concentration, blood and synovial fluid on antibiotic release and anti-biofilm activity of bone cement beads.
Journal of Controlled Release, .
(doi:10.1016/j.jconrel.2017.01.005).
Abstract
Antibiotic loaded cement beads are commonly used for the treatment of biofilm related orthopaedic periprosthetic infections; however the effects of antibiotic loading and exposure of beads to body fluids on release kinetics are unclear. The purpose of this study was to determine the effects of (i) antibiotic loading density (ii) loading amount (iii) material type and (iv) exposure to body fluids (blood or synovial fluid) on release kinetics and efficacy of antibiotics against planktonic and lawn biofilm bacteria. Short-term release into an agar gel was evaluated using a fluorescent tracer (fluorescein) incorporated in the carrier materials calcium sulfate (CaSO4) and poly methyl methacrylate (PMMA). Different fluorescein concentrations in CaSO4 beads were evaluated. Mechanical properties of fluorescein-incorporated beads were analyzed. Efficacy of the antibiotics vancomycin (VAN) or tobramycin (TOB) alone and in combination was evaluated against planktonic and lawn biofilms of bioluminescent strains of Staphylococcus aureus and Pseudomonas aeruginosa. Zones of inhibition (ZOI) were measured visually and using an in-vivo imaging system (IVIS). The influence of body fluids on release was assessed using CaSO4 beads that contained fluorescein or antibiotics and were pre-coated with human blood or synovial fluid. The spread from the beads followed a square root of time relationship in all cases. The loading concentration had no influence on short-term fluorescein release and pre-coating of beads with body fluids did not affect short-term release or antibacterial activity. Compared to PMMA, CaSO4 had a more rapid short term rate of elution and activity against planktonic and lawn biofilms. This study highlights the importance of considering antibiotic loading and packaging density when investigating the clinical application of bone cements for infection management.
Running title: Short-term antibiotic release and anti-biofilm efficacy from bone cement beads
Keywords: periprosthetic infection; biofilm; bone cement; antibiotic release; zone of inhibition
Text
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- Accepted Manuscript
More information
Accepted/In Press date: 4 January 2017
e-pub ahead of print date: 10 January 2017
Organisations:
Engineering Science Unit, Centre for Biological Sciences
Identifiers
Local EPrints ID: 404517
URI: http://eprints.soton.ac.uk/id/eprint/404517
ISSN: 0168-3659
PURE UUID: ddd31413-2e20-4377-b349-89354be2abf3
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Date deposited: 11 Jan 2017 10:28
Last modified: 16 Mar 2024 04:01
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Contributors
Author:
Devendra Dusane
Author:
Scott Diamond
Author:
Cory Knecht
Author:
Nicholas Farrar
Author:
Casey Peters
Author:
Robert Howlin
Author:
Matthew Swearingen
Author:
Jason Calhoun
Author:
Roger D. Plaut
Author:
Tanya Nocera
Author:
Jeffrey Granger
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