Mannosylated Solid Lipid Nanocarriers of Chrysin to Target Gastric Cancer: Optimization and Cell Line Study.

BACKGROUND: Despite significant biological effects, the clinical use of chrysin has been restricted because of its poor oral bioavailability. OBJECTIVE: The purpose of the present research was to investigate the targeting potential of Mannose decorated chrysin (5,7- dihydroxyflavone) loaded solid lipid nanocarrier (MC-SLNs) for gastric cancer. METHODS: The Chrysin loaded SLNs (C-SLNs) were developed, optimized, characterized and further mannosylated. The C-SLNs were developed with a high shear homogenizer, optimized with 32 full factorial designs and characterized by Fourier Transform Infrared Spectroscopy (FTIR), Differential Scanning Calorimetry (DSC), X-Ray Diffraction (XRD) and Scanning Electron Microscope (SEM) and evaluated for particle size/polydispersity index, zeta-potential, entrapment efficiency, % release and haemolytic toxicity. The ex-vivo cytotoxicity study was performed on gastric cancer (ACG) and normal cell lines. RESULTS: DSC and XRD data predict the chrysin encapsulation in the lipid core and FTIR results confirm the mannosylation of C-SLNs. The optimized C-SLNs exhibited a narrow size distribution with a particle size of 285.65 nm. The % Entrapment Efficiency (%EE) and % controlled release were found to be 74.43% and 64.83%. Once C-SLNs were coated with mannose, profound change was observed in a dependent variable - an increase in the particle size of MC-SLNs (307.1 nm) was observed with 62.87% release and 70.8% entrapment efficiency. Further, the in vitro studies depicted MC- SLNs to be least hemolytic than pure chrysin and C-SLNs. MC-SLNs were most cytotoxic and were preferably taken up ACG tumor cells as evaluated against C-SLNs. CONCLUSION: These data suggested that the MC-SLNs demonstrated better biocompatibility and targeting efficiency to treat gastric cancer.

Cyclosporine laden tailored microemulsion-gel depot for effective treatment of psoriasis: In vitro and in vivo studies.

Psoriasis is a widespread chronic disease affecting 1-3 % of total population. In major cases (>80 %), it is treated by topical application of corticosteroids. However, the topical route is very challenging due to physico-chemical nature of diseased stratum corneum and so no single treatment works for every patient. The oral route showed severe side effects due to systemic immunosuppression, which can be avoided by topical route. The aim of the research work was to investigate cyclosporine loaded microemulsion based gel for effective cyclosporine permeation and retention in the skin tissue for psoriasis treatment. The pseudo ternary phase diagram at three Smix ratios (2:1, 1:1, and 1:2; Tween 80: isopropyl alcohol) were constructed using isopropyl myristate as oil phase. The Smix at 2:1 ratio showed large microemulsion area. The transmission electron microscope images showed spherical non-aggregated oil globules with the size < 50 nm. The selected microemulsion (Cy-2-ME12O55SM) was incorporated in Carbopol 940 gel for topical application. The ex vivo diffusion study showed improved permeation (>24 h) with microemulsion-gel in comparison to cyclosporine suspension. The microemulsion-gel was non-irritating on the rabbit skin. In drug retention studies, microemulsion-gel showed high drug retention (trapping, 38.92 %) in the skin tissue, which was due to destabilization of microemulsion after penetration in the skin layer causing precipitation of cyclosporine. The depot effect due to cyclosporine precipitates could be helpful for sustained effect of cyclosporine for the effective treatment of psoriasis.