Photodynamic antifungal activity of a superparamagnetic and fluorescent drug carrier system against antibiotic-resistant fungal strains.

Abstract

Increased antimicrobial resistance demands the development of new antimicrobial agents with high potency. A wide variety of microbial systems are continuously subjected to mutations which ultimately results in antimicrobial resistance. The present study aimed at the fabrication of a nano drug delivery system which simultaneously is superparamagnetic, fluorescent, non-cytotoxic and antifungal. The developed system is an easily targetable and detectable tool owing to its superparamagnetic and fluorescent characteristics respectively. Superparamagnetic iron oxide nanoparticles stabilized by macromolecular starch have been incorporated into a fluorescently modified carrier system to get the final drug delivery system. The finally developed drug carrier system is found to be non-cytotoxic from the in vitro cytotoxicity studies performed against normal rat spleen cells. The photodynamic antifungal capability of the system was the premier concern of investigation of the present study. The antifungal studies were conducted against Histoplasma capsulatum and Trichophyton rubrum by well diffusion method and the results were compared with the activity of the antibiotic, griseofulvin. The minimum inhibitory concentration against each fungal strain was determined using broth dilution method.Graphic abstract Supplementary InformationThe online version contains supplementary material available at 10.1007/s10570-021-04107-y.