Investigation of Photodynamic and Rhamnolipid Inhibition on the Dermatophyte Biofilm.

The failure to successfully treat dermatophyte-related diseases is often due to the formation of biofilms, which makes dermatophytes resistant to antifungals. Here, an attempt has been made to assess inhibition of dermatophyte biofilm production using photodynamic therapy and rhamnolipid biosurfactant. Two methods were used to inhibit biofilm formation by dermophytes , and , and . The first method was the use of rhamnolipid with concentrations of 39 to 1000 ppm and the second was the use of photodynamic method with concentrations of 8, 16 and 32 µg/ml of methylene blue. In addition, these two methods were evaluated simultaneously. The biofilm formation was evaluated using spectrophotometry and scanning electron microscopy. Biosurfactant has been shown to have an improved ability to inhibit the formation of biofilm by the strains. Although photodynamic therapy has not been successful, but in combination with biosurfactant, it may have a synergistic effect. By investigating the effect of rhamnolipid on the formation of biofilm, it was found that Microsporum species has a relatively stronger attachment to the surfaces of the wells compared to trichophyton species. The biofilms were evaluated with electron microscope in the simultaneous treatment of rhamnolipid and photodynamics. The results showed that after the treatment, the biofilms became discrete and their structural integrity was reduced. Even in Microsporum species, which were among the most resistant dermatophytes, the changes in the fungal biofilm after treatment were significant.