Direct demonstration of viable Staphylococcus aureus biofilms in an infected total joint arthroplasty: a case report
Direct demonstration of viable Staphylococcus aureus biofilms in an infected total joint arthroplasty: a case report
Infection following total joint arthroplasty is difficult to diagnose and treat; a nascent body of evidence from studies of prosthetic joint infections suggests that biofilm bacteria are the underlying cause. We describe the case of a patient who had chronic recurring symptoms of infection that persisted for years following total elbow arthroplasty despite numerous medical and surgical interventions. Confocal microscopy performed on fluid, tissue, and cement at the final surgical revision demonstrated viable bacteria in biofilm aggregates. Reverse transcriptase-polymerase chain reaction analysis confirmed the presence of metabolically active Staphylococcus aureus. These observations comprise compelling evidence that viable biofilm bacteria play an important role in refractory infection following joint arthroplasty.Chronic infection following joint replacement is increasingly thought to result from the presence of bacterial biofilm communities attached to the implant. Biofilm bacteria are vastly more resistant to conventional antibiotic therapy than are their single planktonic counterparts (unattached solitary bacteria living freely) and are typically difficult to culture by conventional microbiological methods. The biofilm paradigm can explain contradictory signs and symptoms that suggest infection but are often associated with negative cultures. Moreover, biofilm infections are difficult to detect by simple Gram stain and culture techniques but can persist as a nidus of infection from which recurrent acute exacerbations may arise through episodic planktonic “showering”.
1751-1758
Stoodley, Paul
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Nistico, Laura
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Johnson, Sandra
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Lasko, Leslie-Anne
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Baratz, Mark
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Gahlot, Vikram
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Ehrlich, Garth D.
aa8e5162-77a6-4627-a793-acd724ed0782
Kathju, Sandeep
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1 August 2008
Stoodley, Paul
08614665-92a9-4466-806e-20c6daeb483f
Nistico, Laura
7a83886a-6bf1-46a1-87dd-75a120d41603
Johnson, Sandra
0ee8f4bd-cfa3-4f55-a9a1-c98054a9d8d4
Lasko, Leslie-Anne
ae5c35e4-ac52-43c2-a1a6-f0f051576476
Baratz, Mark
cde911ef-31a3-471c-aa15-dcc3add144a5
Gahlot, Vikram
255ce834-e4ff-43dc-abde-6dd770c3340a
Ehrlich, Garth D.
aa8e5162-77a6-4627-a793-acd724ed0782
Kathju, Sandeep
80cdb7ee-2e0d-4e70-98c9-93682ce05a09
Stoodley, Paul, Nistico, Laura, Johnson, Sandra, Lasko, Leslie-Anne, Baratz, Mark, Gahlot, Vikram, Ehrlich, Garth D. and Kathju, Sandeep
(2008)
Direct demonstration of viable Staphylococcus aureus biofilms in an infected total joint arthroplasty: a case report.
Journal of Bone and Joint Surgery, 90 (8), .
(doi:10.2106/JBJS.G.00838).
(PMID:18676908)
Abstract
Infection following total joint arthroplasty is difficult to diagnose and treat; a nascent body of evidence from studies of prosthetic joint infections suggests that biofilm bacteria are the underlying cause. We describe the case of a patient who had chronic recurring symptoms of infection that persisted for years following total elbow arthroplasty despite numerous medical and surgical interventions. Confocal microscopy performed on fluid, tissue, and cement at the final surgical revision demonstrated viable bacteria in biofilm aggregates. Reverse transcriptase-polymerase chain reaction analysis confirmed the presence of metabolically active Staphylococcus aureus. These observations comprise compelling evidence that viable biofilm bacteria play an important role in refractory infection following joint arthroplasty.Chronic infection following joint replacement is increasingly thought to result from the presence of bacterial biofilm communities attached to the implant. Biofilm bacteria are vastly more resistant to conventional antibiotic therapy than are their single planktonic counterparts (unattached solitary bacteria living freely) and are typically difficult to culture by conventional microbiological methods. The biofilm paradigm can explain contradictory signs and symptoms that suggest infection but are often associated with negative cultures. Moreover, biofilm infections are difficult to detect by simple Gram stain and culture techniques but can persist as a nidus of infection from which recurrent acute exacerbations may arise through episodic planktonic “showering”.
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Published date: 1 August 2008
Organisations:
Engineering Mats & Surface Engineerg Gp
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Local EPrints ID: 155191
URI: http://eprints.soton.ac.uk/id/eprint/155191
ISSN: 0301-620X
PURE UUID: 52f9c6ad-e544-449b-818d-397c7fc0d9f7
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Date deposited: 27 May 2010 10:21
Last modified: 14 Mar 2024 02:55
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Author:
Laura Nistico
Author:
Sandra Johnson
Author:
Leslie-Anne Lasko
Author:
Mark Baratz
Author:
Vikram Gahlot
Author:
Garth D. Ehrlich
Author:
Sandeep Kathju
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