Fatty Alcohols and Fatty Acids

TL;DR: This review describes various lipid materials used in the preparation of nanoemulsions for topical and transdermal drug delivery, classified as vegetable oils, fatty acids, fatty alcohols, medium chain glycerides, and fatty acid esters.

TL;DR: Investigation of possible penetration enhancing properties of selected oils, utilizing flurbiprofen as marker compound in emulgel formulations suggested that oils containing predominantly mono-unsaturated oleic acid, on average increased the flux of the marker to a larger extent than oils containing an almost even mixture of both mono- and poly-uns saturated fatty acids.

TL;DR: Background Emollient molecules are widely used in skin care formulations to improve skin sensory properties and to alleviate dry skin but little is understood regarding their effects on skin biomechanical properties.

TL;DR: The composition of the nanovesicle played an important role in physical properties and drug permeation and also contribute towards stability and non-irritancy in transdermal formulations containing permeation enhancer.

TL;DR: Remarkable percutaneous absorption enhancement was observed in the presence of linoleic acid when a series of unsaturated straight fatty acids with different carbon numbers were substituted for oleic acid, and Lauric acid was the most effective in the series of saturatedstraight fatty acids.

TL;DR: There were significant differences between human skin and hairless guinea pig skin when comparing in vitro fluxes with the two skin permeation-enhancing formulations and the differences in lag time between formulations could be related to differences in the mechanisms of permeation enhancement.

TL;DR: When evaluating SLS patch testing by bioengineering methods, TEWL measurement appears to be more suitable for a test procedure that provokes mild skin reactions, whereas LD measurement is more appropriate to evaluate pronounced skin reactions.

TL;DR: Transdermal delivery of levosimendan can be significantly increased by formulation modification and therapeutic plasma concentrations may be achievable transdermally, based on kinetic calculations.