Biofilm (Dec 2020)

In vivo efficacy of a unique first-in-class antibiofilm antibiotic for biofilm-related wound infections caused by Acinetobacter baumannii

  • Dustin L. Williams,
  • Brooke Kawaguchi,
  • Nicholas B. Taylor,
  • Gina Allyn,
  • Marissa A. Badham,
  • Jeffery C. Rogers,
  • Brittany R. Peterson,
  • Paul R. Sebahar,
  • Travis J. Haussener,
  • Hariprasada Reddy Kanna Reddy,
  • Brad M. Isaacson,
  • Paul F. Pasquina,
  • Ryan E. Looper

Journal volume & issue
Vol. 2
p. 100032

Abstract

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Wounds complicated by biofilms challenge even the best clinical care and can delay a return to duty for service members. A major component of treatment in wounded warriors includes infected wound management. Yet, all antibiotic therapy options have been optimized against planktonic bacteria, leaving an important gap in biofilm-related wound care. We tested the efficacy of a unique compound (CZ-01179) specifically synthesized to eradicate biofilms. CZ-01179 was formulated as the active agent in a hydrogel, and tested in vitro and in vivo in a pig excision wound model for its ability to treat and prevent biofilm-related wound infection caused by Acinetobacter baumannii. Data indicated that compared to a clinical standard—silver sulfadiazine—CZ-01179 was much more effective at eradicating biofilms of A. baumannii in vitro and up to 6 days faster at eradicating biofilms in vivo. CZ-01179 belongs to a broader class of newly-synthesized antibiofilm agents (referred to as CZ compounds) with reduced risk of resistance development, specific efficacy against biofilms, and promising formulation potential for clinical applications. Given its broad spectrum and biofilm-specific nature, CZ-01179 gel may be a promising agent to increase the pipeline of products to treat and prevent biofilm-related wound infections.

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