Decolonization potential of 0.02% polyhexanide irrigation solution in urethral catheters under practice-like in vitro conditions

Decolonization potential of 0.02% polyhexanide irrigation solution in urethral catheters under practice-like in vitro conditions

Abstract Background Long-term use of indwelling urethral catheters is associated with high risk of urinary tract infection (UTI) and blockage, which may in turn cause significant morbidity and reduce the life of the catheter. A 0.02% polyhexanide irrigation solution has been developed for routine me...

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Main Authors: Florian H. H. Brill, Henrik Gabriel, Holger Brill, Jan-Hendrik Klock, Joerg Steinmann, Andreas Arndt
Format: Article
Language:English
Published: BMC 2018-05-01
Series:BMC Urology
Subjects:
Bacterial decolonization
Biofilm
Polyhexanide
Urinary catheter
Urinary tract infection
Online Access:http://link.springer.com/article/10.1186/s12894-018-0362-3
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spelling doaj-ff0743562aa0434498c3165dbe45801f2020-11-25T01:20:32ZengBMCBMC Urology1471-24902018-05-011811610.1186/s12894-018-0362-3Decolonization potential of 0.02% polyhexanide irrigation solution in urethral catheters under practice-like in vitro conditionsFlorian H. H. Brill0Henrik Gabriel1Holger Brill2Jan-Hendrik Klock3Joerg Steinmann4Andreas Arndt5Dr. Brill + Partner GmbH Institute for Hygiene and MicrobiologyDr. Brill + Partner GmbH Institute for Hygiene and MicrobiologyDr. Brill + Partner GmbH Institute for Hygiene and MicrobiologyDr. Brill + Partner GmbH Institute for Hygiene and MicrobiologyInstitute of Medical Microbiology, University Hospital EssenDepartment of Research and Development, B. Braun Medical Ltd.Abstract Background Long-term use of indwelling urethral catheters is associated with high risk of urinary tract infection (UTI) and blockage, which may in turn cause significant morbidity and reduce the life of the catheter. A 0.02% polyhexanide irrigation solution has been developed for routine mechanical rinsing together with bacterial decolonization of suprapubic and indwelling urethral catheters. Methods Using a practice-like in vitro assay and standard silicon catheters, artificially contaminated with clinically relevant bacteria, experiments were carried out to evaluate the bacterial decolonization potential of polyhexanide vs. 1) no intervention (standard approach) and 2) irrigation with a saline (NaCl 0.9%) solution. Swabbing and irrigation was used to extract the bacteria. Results Irrigation with polyhexanide reduced the microbial population vs. the control catheters by a factor of 1.64 log10 (swab extraction) and by a factor of 2.56 log10 (membrane filtration). The difference in mean microbial counts between the two groups (0.90) was statistically significant in favor of polyhexanide when the liquid extraction method was used (p = 0.034). The difference between the two groups using the swab extraction method did not reach statistical significance. Conclusions The saline and polyhexanide solutions are able to reduce bacterial load of catheters, which shows a combined mechanical and antimicrobial effect. Further research is required to evaluate the long-term tolerability and efficacy of polyhexanide in clinical practice.http://link.springer.com/article/10.1186/s12894-018-0362-3Bacterial decolonizationBiofilmPolyhexanideUrinary catheterUrinary tract infection
collection DOAJ
language English
format Article
sources DOAJ
author Florian H. H. Brill
Henrik Gabriel
Holger Brill
Jan-Hendrik Klock
Joerg Steinmann
Andreas Arndt
spellingShingle Florian H. H. Brill
Henrik Gabriel
Holger Brill
Jan-Hendrik Klock
Joerg Steinmann
Andreas Arndt
Decolonization potential of 0.02% polyhexanide irrigation solution in urethral catheters under practice-like in vitro conditions
BMC Urology
Bacterial decolonization
Biofilm
Polyhexanide
Urinary catheter
Urinary tract infection
author_facet Florian H. H. Brill
Henrik Gabriel
Holger Brill
Jan-Hendrik Klock
Joerg Steinmann
Andreas Arndt
author_sort Florian H. H. Brill
title Decolonization potential of 0.02% polyhexanide irrigation solution in urethral catheters under practice-like in vitro conditions
title_short Decolonization potential of 0.02% polyhexanide irrigation solution in urethral catheters under practice-like in vitro conditions
title_full Decolonization potential of 0.02% polyhexanide irrigation solution in urethral catheters under practice-like in vitro conditions
title_fullStr Decolonization potential of 0.02% polyhexanide irrigation solution in urethral catheters under practice-like in vitro conditions
title_full_unstemmed Decolonization potential of 0.02% polyhexanide irrigation solution in urethral catheters under practice-like in vitro conditions
title_sort decolonization potential of 0.02% polyhexanide irrigation solution in urethral catheters under practice-like in vitro conditions
publisher BMC
series BMC Urology
issn 1471-2490
publishDate 2018-05-01
description Abstract Background Long-term use of indwelling urethral catheters is associated with high risk of urinary tract infection (UTI) and blockage, which may in turn cause significant morbidity and reduce the life of the catheter. A 0.02% polyhexanide irrigation solution has been developed for routine mechanical rinsing together with bacterial decolonization of suprapubic and indwelling urethral catheters. Methods Using a practice-like in vitro assay and standard silicon catheters, artificially contaminated with clinically relevant bacteria, experiments were carried out to evaluate the bacterial decolonization potential of polyhexanide vs. 1) no intervention (standard approach) and 2) irrigation with a saline (NaCl 0.9%) solution. Swabbing and irrigation was used to extract the bacteria. Results Irrigation with polyhexanide reduced the microbial population vs. the control catheters by a factor of 1.64 log10 (swab extraction) and by a factor of 2.56 log10 (membrane filtration). The difference in mean microbial counts between the two groups (0.90) was statistically significant in favor of polyhexanide when the liquid extraction method was used (p = 0.034). The difference between the two groups using the swab extraction method did not reach statistical significance. Conclusions The saline and polyhexanide solutions are able to reduce bacterial load of catheters, which shows a combined mechanical and antimicrobial effect. Further research is required to evaluate the long-term tolerability and efficacy of polyhexanide in clinical practice.
topic Bacterial decolonization
Biofilm
Polyhexanide
Urinary catheter
Urinary tract infection
url http://link.springer.com/article/10.1186/s12894-018-0362-3
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