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Filaments in curved streamlines: Rapid formation of Staphylococcus aureus biofilm streamers.


ABSTRACT: Biofilms are surface-associated conglomerates of bacteria that are highly resistant to antibiotics. These bacterial communities can cause chronic infections in humans by colonizing, for example, medical implants, heart valves, or lungs. Staphylococcus aureus, a notorious human pathogen, causes some of the most common biofilm-related infections. Despite the clinical importance of S. aureus biofilms, it remains mostly unknown how physical effects, in particular flow, and surface structure influence biofilm dynamics. Here we use model microfluidic systems to investigate how environmental factors, such as surface geometry, surface chemistry, and fluid flow affect biofilm development in S. aureus. We discovered that S. aureus rapidly forms flow-induced, filamentous biofilm streamers, and furthermore if surfaces are coated with human blood plasma, streamers appear within minutes and clog the channels more rapidly than if the channels are uncoated. To understand how biofilm streamer filaments reorient in flows with curved streamlines to bridge the distances between corners, we developed a mathematical model based on resistive force theory of slender filaments. Understanding physical aspects of biofilm formation in S. aureus may lead to new approaches for interrupting biofilm formation of this pathogen.

SUBMITTER: Kim MK 

PROVIDER: S-EPMC4255984 | biostudies-literature | 2014 Jun

REPOSITORIES: biostudies-literature

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Filaments in curved streamlines: Rapid formation of <i>Staphylococcus aureus</i> biofilm streamers.

Kim Minyoung Kevin MK   Drescher Knut K   Pak On Shun OS   Bassler Bonnie L BL   Stone Howard A HA  

New journal of physics 20140601 6


Biofilms are surface-associated conglomerates of bacteria that are highly resistant to antibiotics. These bacterial communities can cause chronic infections in humans by colonizing, for example, medical implants, heart valves, or lungs. <i>Staphylococcus aureus</i>, a notorious human pathogen, causes some of the most common biofilm-related infections. Despite the clinical importance of <i>S. aureus</i> biofilms, it remains mostly unknown how physical effects, in particular flow, and surface stru  ...[more]

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