Comparative efficacy of dalbavancin alone and with rifampicin against in vitro biofilms in a pharmacodynamic model with methicillin-resistant Staphylococcus aureus.

BACKGROUND

The anti-biofilm efficacy of dalbavancin (DAL) has been evaluated in static models. The comparative activity of DAL alone and with rifampicin (RIF) against biofilm-embedded methicillin-resistant Staphylococcus aureus (MRSA) was evaluated using an in vitro pharmacokinetic/pharmacodynamic (PK/PD) model.

METHODS

Two MRSA strains (HUB-4, HUB-5) were evaluated with the Calgary Device System and the dynamic CDC-Biofilm Reactor over 144 h. Dosage regimens simulated the human PK of DAL (1500 mg, single dose), vancomycin (VAN) (1000 mg/12 h) and linezolid (LZD) (600 mg/12 h), alone and with RIF (600 mg/24 h). Efficacy was evaluated by assessing log10CFU/mL changes (ΔlogCFU/mL) and screening for resistance was conducted.

RESULTS

The minimal biofilm inhibitory/eradication concentrations of DAL were 0.25/16 mg/L (HUB-4) and 0.25/8 mg/L (HUB-5). In the PK/PD analysis, DAL alone showed limited efficacy but no development of resistance. Adding RIF improved the activities of DAL, VAN, and LZD, but RIF-resistant strains appeared over time in all cases. DAL-RIF was bactericidal against HUB-4 in the absence of resistance at 72 h and 144 h (ΔlogCFU/mL: -3.54±0.83, -4.32±0.12, respectively), an effect that was only achieved by LZD-RIF at 144 h (-3.33 ± 0.66). DAL-RIF activity against HUB-5 was impaired by RIF resistance to a greater extent than other combinations and this combination had no bactericidal effect.

CONCLUSIONS

The anti-biofilm efficacy of DAL was improved significantly by adding RIF. Although DAL resistance did not occur, RIF resistance appeared in all combination therapies and decreased their efficacy over time. DAL-RIF in vitro treatment appears to be a promising anti-biofilm therapy, but further studies are needed to evaluate the efficacy and risk of resistance in vivo.