Efficacy of liposomal amphotericin B against four species of Candida biofilms in an experimental mouse model of intravascular catheter infection.

The formation of Candida biofilms on implanted medical devices is crucial to the development of infections and an important clinical problem because of elevated resistance to antifungals. The aim of this study was to compare the in vitro activity of liposomal amphotericin B (L-AMB) and micafungin (MCFG) against four species of Candida biofilms, and the efficacy of systemic plus lock therapy with L-AMB and MCFG in a Candida biofilm-associated catheter infection model. An XTT-reduction assay was used to measure the metabolic activity of the biofilms to evaluation of in vitro antibiofilm activity. MCFG had better in vitro activity than L-AMB against Candida glabrata biofilms, whereas L-AMB had better activity than MCFG against Candida albicans and Candida tropicalis biofilms. L-AMB and MCFG had comparable efficacy against Candida parapsilosis biofilms. In an in vitro lock therapy model, 2 mg/ml L-AMB, unlike 2 mg/ml MCFG, significantly reduced the metabolic activity of all the strains of biofilms by >96%. Systemic and intraluminal lock treatment with L-AMB for 3-days resulted in more than about 2 log10 reduction of Candida compared with that of systemic treatment and the control group in the C. albicans SP-20012, C. glabrata SP-20040, C. glabrata SP-20131, C. parapsilosis SP-20137, and C. tropicalis SP-20047 infection models. L-AMB was more effective at eradicating Candida biofilms in 3-day course of systemic and lock therapy than MCFG. L-AMB may be useful for the treatment of catheter-related Candida biofilm infections, but this finding will need to be confirmed by further studies including a long treatment duration.