AI Article Synopsis
- Nanocrystals, which are typically used in oral pharmaceuticals, are now being explored to enhance the delivery of cosmetic and pharmaceutical compounds through the skin, particularly with poorly soluble substances.
- A new approach involves creating nanocrystals from medium soluble actives to serve as a fast-dissolving depot that increases skin penetration by accumulating in hair follicles.
- Caffeine was chosen as a model for this research, and a specific low-energy milling process was developed, successfully producing stable nanocrystals of varying sizes, suitable for further testing in living subjects.
Article Abstract
After use in oral pharmaceutical products, nanocrystals are meanwhile applied to improve the dermal penetration of cosmetic actives (e.g. rutin, hesperidin) and of drugs. By now, nanocrystals are only dermally applied made from poorly soluble actives. The novel concept is to formulate nanocrystals also from medium soluble actives, and to apply a dermal formulation containing additionally nanocrystals. The nanocrystals should act as fast dissolving depot, increase saturation solubility and especially accumulate in the hair follicles, to further increase skin penetration. Caffeine was used as model compound with relevance to market products, and a particular process was developed for the production of caffeine nanocrystals to overcome the supersaturation related effect of crystal growth and fiber formation - typical with medium soluble compounds. It is based on low energy milling (pearl milling) in combination with low dielectric constant dispersion media (water-ethanol or ethanol-propylene glycol mixtures) and optimal stabilizers. Most successful was Carbopol(®) 981 (e.g. 20% caffeine in ethanol-propylene glycol 3:7 with 2% Carbopol, w/w). Nanocrystals with varied sizes can now be produced in a controlled process e.g. 660 nm (optimal for hair follicle accumulation) to 250 nm (optimal for fast dissolution). The short term test proved stability over 2 months of the present formulation being sufficient to perform in vivo testing of the novel concept.
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| http://dx.doi.org/10.1016/j.ijpharm.2014.04.060 | DOI Listing |
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