Fusarium
and
Candida albicans
Biofilms on Soft Contact Lenses: Model Development, Influence of Lens Type, and Susceptibility to Lens Care Solutions
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Published:2008-01
Issue:1
Volume:52
Page:171-182
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ISSN:0066-4804
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Container-title:Antimicrobial Agents and Chemotherapy
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language:en
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Short-container-title:Antimicrob Agents Chemother
Author:
Imamura Yoshifumi1, Chandra Jyotsna1, Mukherjee Pranab K.1, Lattif Ali Abdul1, Szczotka-Flynn Loretta B.2, Pearlman Eric2, Lass Jonathan H.2, O'Donnell Kerry3, Ghannoum Mahmoud A.1
Affiliation:
1. Center for Medical Mycology and Department of Dermatology 2. Department of Ophthalmology and Visual Sciences, University Hospitals Case Medical Center and Case Western Reserve University, Cleveland, Ohio 3. National Center for Agricultural Utilization Research, ARS-USDA, Peoria, Illinois
Abstract
ABSTRACT
Fungal keratitis is commonly caused by
Fusarium
species and less commonly by
Candida
species. Recent outbreaks of
Fusarium
keratitis were associated with contact lens wear and with ReNu with MoistureLoc contact lens care solution, and biofilm formation on contact lens/lens cases was proposed to play a role in this outbreak. However, no in vitro model for contact lens-associated fungal biofilm has been developed. In this study, we developed and characterized in vitro models of biofilm formation on various soft contact lenses using three species of
Fusarium
and
Candida albicans
. The contact lenses tested were etafilcon A, galyfilcon A, lotrafilcon A, balafilcon A, alphafilcon A, and polymacon. Our results showed that clinical isolates of
Fusarium
and
C. albicans
formed biofilms on all types of lenses tested and that the biofilm architecture varied with the lens type. Moreover, differences in hyphal content and architecture were found between the biofilms formed by these fungi. We also found that two recently isolated keratitis-associated fusaria formed robust biofilms, while the reference ATCC 36031 strain (recommended by the International Organization for Standardization guidelines for testing of disinfectants) failed to form biofilm. Furthermore, using the developed in vitro biofilm model, we showed that phylogenetically diverse planktonic fusaria and
Candida
were susceptible to MoistureLoc and MultiPlus. However,
Fusarium
biofilms exhibited reduced susceptibility against these solutions in a species- and time-dependent manner. This in vitro model should provide a better understanding of the biology and pathogenesis of lens-related fungal keratitis.
Publisher
American Society for Microbiology
Subject
Infectious Diseases,Pharmacology (medical),Pharmacology
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