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A Blueprint for Broadly Effective Phage-Antibiotic Cocktails

SciFocus/Dec 3, 2024/USA — Stanford University researchers unveil a groundbreaking strategy to combat multidrug-resistant (MDR) bacterial infections using bacteriophage-antibiotic combinations. By systematically identifying complementary phages and pairing them with specific antibiotics, this innovative approach delivers broad-spectrum efficacy against deadly pathogens.

Study provides a blueprint for developing off-the-shelf bacteriophage-antibiotic cocktails that target multidrug-resistant infections effectively, paving the way for scalable solutions to a critical global health challenge.

Key Highlights:

  • Phage Complementarity Groups: Identified groups of phages using non-redundant bacterial receptors to prevent bacterial resistance.
  • Broad-Spectrum Cocktails: Developed three phage-antibiotic combinations effective against ≥96% of 153 Pseudomonas aeruginosa clinical isolates, including biofilms.
  • Pathogen Coverage: Effective cocktails also created for Staphylococcus aureus and mixed infections (P. aeruginosa + S. aureus).
  • In Vivo Efficacy: Demonstrated success in wound infection models, highlighting potential real-world application.
  • Predictive Strategy: Characterized interactions between phage groups and antibiotic classes to streamline cocktail design.
  • Scalable Therapeutics: Paves the way for off-the-shelf phage-based solutions to address MDR bacterial infections globally.
ICABB-2025
ICABB-2025

This innovative framework promises to revolutionize phage therapy, overcoming challenges like narrow host range and resistance, to tackle the escalating threat of antibiotic-resistant infections.

Source: https://www.nature.com/articles/s41467-024-53994-9

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