CaCO₃-based carriers with prolonged release properties for antifungal drug delivery to hair follicles

Superficial fungal infections are of serious concern worldwide due to their morbidity and increasing distribution across the globe in this era of growing antimicrobial resistance. The delivery of antifungals to the target regions of the skin and sustaining the effective drug concentration are essential for successful treatment of such mycoses. Topical formulations get extra benefits here if they penetrate into the hair follicles since fungal hyphae can proliferate and produce spores in such reservoirs. We designed a novel particulate system for the encapsulation and intrafollicular delivery of griseofulvin (Gf) antifungal drug, which is water-insoluble and currently commercially available in oral dosage forms. Micron-sized calcium carbonate (vaterite) carriers containing 25 ± 3% (w/w) of Gf were prepared via the wet chemical method. The successful in vivo transportation of the carriers into the hair follicles of rats was demonstrated using scanning electron and confocal laser scanning microscopy. In addition, we introduced an approach toward Gf release prolongation for the proposed system. The stabilizing coatings were formed on the surface of the obtained particles via the layer-by-layer technique. The formulations displayed sufficient biocompatibility and good cellular uptake in contact with fibroblast cells in vitro. Four different coatings were tested for their preserving ability in the course of continued carrier incubation in the model media. The best release prolonging formulation liberated 38% of the loaded Gf during 5 days, while the uncoated carriers demonstrated more than 50% drug release within the first 24 h in water. To assess the in vivo release properties, free Gf drug and Gf-loaded carriers (uncovered and covered with the stabilizing shell) were administered topically in rats and the drug excretion profiles were further studied. By comparing the daily Gf levels in urine, we verified the sustained effect (longer than a week) of the stabilizing shell formed on the carrier surface. Conversely, the application of the free drug did not provide reliable Gf detection for this period. These findings open new prospects for the efficiency enhancement of topical therapeutics. Importantly, the elaborated system could be adapted for the dermal delivery of various water-insoluble drugs beyond the scope of antifungal therapy.