P-1268. Phage Sensitivity Profiles and their Association with Biofilm-mediated Antibiotic Tolerance in DNS-MRSA Isolates
Callan Bleick, Sean R Van Helden, Andrew D Berti, Michael J Rybak

TL;DR
This study explores how phage sensitivity relates to antibiotic tolerance in daptomycin-resistant MRSA strains, suggesting phage profiling could help identify difficult-to-treat infections.
Contribution
The study identifies a potential link between phage resistance and biofilm-mediated antibiotic tolerance in DNS-MRSA isolates.
Findings
Phage-resistant DNS-MRSA strains showed higher biofilm-associated antibiotic tolerance, as indicated by elevated MBIC values.
Strains susceptible to all three phages had uniformly low MBICs, suggesting reduced biofilm tolerance.
Dual mutations in gyrA and parC were found in phage-resistant strains with elevated MBICs.
Abstract
Daptomycin non-susceptible MRSA (DNS-MRSA) presents a significant therapeutic challenge due to resistance to multiple antibiotic agents and biofilm-associated antibiotic tolerance. While phage therapy is a promising alternative, resistance mechanisms and strain-specific differences in biofilm formation may hinder efficacy.Table 1.List of DNS-MRSA strains with corresponding MIC/MBIC and phage susceptibilitiesMIC and MBIC tests were determined via microbroth dilution assays*Daptomycin (DAP), Levofloxacin (LEV), Rifampicin (RIF), Delafloxacin (DEL)Bacteriophages: Intesti13, Sb-1, and RomulusS: Sensitive, clear or high sensitivity to Sb-1 with distinct plaque formation (EOP of 0.1-1 in comparison to reference strain)I: Turbid or medium sensitivity to phage with distinct plaque formation (EOP of 0.0001-0.01 in comparison to reference strain)R: Resistant or no disturbance of bacterial lawn…
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Taxonomy
TopicsBacteriophages and microbial interactions · Bacterial biofilms and quorum sensing · Antimicrobial agents and applications
