EPSCoR - Alaska Adapting to Changing Environments

EPSCoR - Alaska Adapting to Changing Environments

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Biofilm Cohesive Strength as a Basis for Biofilm Recalcitrance: Are Bacterial Biofilms Overdesigned?

Bacterial biofilms are highly resistant to common antibacterial treatments, and several physiological explanations have been offered to explain the recalcitrant nature of bacterial biofilms. Herein, a biophysical aspect of biofilm recalcitrance is being reported on. While engineering structures are often overdesigned with a factor of safety (FOS) usually under 10, experimental measurements of biofilm cohesive strength suggest that the FOS is on the order of thousands. In other words, bacterial biofilms appear to be designed to withstand extreme forces rather than typical or average loads. In scenarios requiring the removal or control of unwanted biofilms, this emphasizes the importance of considering strategies for structurally weakening the biofilms in conjunction with bacterial inactivation.

Data and Resources

  • View website
    Website :: Publisher's website

    https://www.ncbi.nlm.nih.gov/pubmed/26819559

Status: Complete
Type: Project
Data Types: Report
Primary Contact
Clucas, Tania
Email: thclucas@alaska.edu
Primary Agency
EPSCoR - Alaska Adapting to Changing Environments
Type
Academic

Funding Agency
EPSCoR - Alaska Adapting to Changing Environments
Type
Academic

Other Agencies
National Science Foundation

ISO Topics
geoscientificInformation

Geo-keywords
Alaska

Direct Record Link
http://epscor.portal.gina.alaska.edu/catalogs/11791-biofilm-cohesive-strength-as-a-basis-for-biofi
  • 01c8ceef3d596f40f05bf496ca00d929
    Published by Lisa
    2016-10-28 14:31:21 -0800
  • 01c8ceef3d596f40f05bf496ca00d929
    Updated by Lisa
    2016-10-28 14:31:17 -0800
  • 01c8ceef3d596f40f05bf496ca00d929
    Updated by Lisa
    2016-10-28 14:30:40 -0800
  • A01710a84bb2b48878decca075ee597f
    Updated by Patrick
    2016-10-26 08:34:44 -0800
  • A01710a84bb2b48878decca075ee597f
    Updated by Patrick
    2016-10-26 08:33:40 -0800
  • A01710a84bb2b48878decca075ee597f
    New record created
    2016-10-26 08:32:02 -0800
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