Lanolin-based organogel of salicylic acid: evidences of better dermatokinetic profile in imiquimod-induced keratolytic therapy in BALB/c mice model.

The primary aim of the present study was to develop lanolin-based organogel with enhanced delivery potential and reduced skin irritation for the treatment of hyperkeratotic lesions and scaling. The drug was encapsulated in the lipidic bilayers of organogel. The values of particle size, polydispersity index (PDI), and zeta potential of the developed carrier system was found to be 257.5 nm, 0.272, and -24.9 mV, respectively. The system was pseudoplastic in nature with the yield value of 2.3078 Pa. The skin permeation studies exhibited superiority of the prepared lanolin-based organogel formulation over the conventional gel formulation (CGF). Further, the dermatokinetic studies also confirmed better permeation and enhanced skin bioavailability of SA to epidermis as well as dermis vis-à-vis the CGF. In conclusion, the developed organogel system not only improved the delivery profile of SA but also reduced the skin irritant potential. The current findings can provide a suitable alternative for the development of an effective topical formulation of SA for the treatment of hyperkeratotic lesions.

Exotic Vegetable Oils for Cosmetic O/W Nanoemulsions: In Vivo Evaluation.

Oil-in-water nanoemulsions are stable systems with droplet sizes in the 20-200 nm range. The physicochemical properties of these systems may be influenced by the addition of additives. Thus, the influence of ethoxylated (EL) and acetylated lanolin (AL) addition on the droplet size, pH values, electrical conductivity and stability of nanoemulsions was investigated. Then, effect of nano-emulsions additives with EL (NE-EL) or AL (NE-AL) in hydration, oiliness and pH of the skin were evaluated. Nanoemulsion safety was evaluated through the observation of no undesirable effects after skin formulation application. Both additives caused changes in droplet size and electrical conductivity, but not in pH values. Nanoemulsions containing up to 6.0% ethoxylated lanolin and 2.0% acetylated lanolin remained stable after centrifugation tests. Higher concentrations of the additives made the nanoemulsions unstable. Stability tests showed that ethoxylated lanolin produced more stable nanoemulsions then acetylated lanolin and that the major instability phenomenon occurring in these systems is coalescence at elevated temperatures. Nanoemulsion-based lanolin derivatives increased skin hydration and oiliness and did not change cutaneous pH values. These formulations are non-toxic since they did not cause any irritation on the skin surface after nanoemulsion application, showing potential as carriers for pharmaceuticals and cosmetic applications.