Optimisation and evaluation of long circulating Ru-SLNs carrier for targeting melanoma cells.

The aim of study was to prepared and evaluated rutin-loaded solid-lipid-nanoparticles (Ru-SLNs) gel for treatment of melanoma cells. SLNs were prepared by ultrasonication method through optimisation and evaluated their mean-diameter, PDI, zeta-potential, morphology, entrapment-efficiency, drug-loading, interaction by FTIR, in vitro skin permeation, stability, antioxidant/MTT assay and fluorescence microscopic. Further developed Ru-SLNs was incorporated into gel and characterised their physicochemical properties, drug contents, in vitro diffusion, ex vivo permeation and retention studies in human cadaver skin. Optimised Ru-SLNs batch showed 556.4 ± 2.6 nm mean-diameter, -21.9 mV zeta-potential, 94.8 ± 04% entrapment-efficiency, 62.3 ± 29% loading, and 86.63% release after 6 hrs. MTT assay showed, Ru-SLNs have 15.37 times more effectiveness against melanoma cells, while fluorescence microscopy confirmed the cellular uptake over time. Gel based Ru-SLNs, have reduction in flux across skin, indicating a sustained release of rutin and higher retention within the deeper epidermis layer. Finally, Ru-SLNs based gel exhibited promising potential and effectively targeting to skin's epidermal layer for melanoma cells.