For essential oils, several biological effects such as antibacterial, anti-inflammatory, expectorant, and blood-circulation-enhancing properties have been described. The method of application depends on the pathophysiology, the desired outcome, safety, and toxicity data. For treating respiratory symptoms and nervous disorders, inhalation may be the best means of application, whereas topical application is the best way for treating skin diseases. For dermal application, percutaneous absorption of essential oil and oil components is of great interest. Essential oils are complex mixtures of different volatile substances. So, the question is raised whether all components of a complex composed essential oil are equivalent with respect to their human skin permeation. By means of artificial mixtures of different essential oil ingredients, we investigated the cooperative effect of monoterpenes and phenylpropanoids on the permeation through heat-separated human skin epidermis in static Franz-Diffusion Cells. Limonene showed an enhancing effect on the permeation of citronellol and eugenol. Both alpha-pinene and myrcene increased the apparent permeability ( P(app)) value of phenylethanol. beta-Pinene had an enhancing effect on the permeation behaviour of methyleugenol but not of geraniol. The investigations clearly show that cooperative effects of single essential oil components may influence percutaneous essential oil absorption.
Background: Rose oil is the essential oil extracted from the petals of the damask rose. It is an ingredient of cosmetic as well as health care products and it is used in folk medicine and in aromatherapy. It is well known that essential oils are able to permeate the skin whereas the lipophilic properties of the compounds as well as the application site have an influence on their permeation behaviour. In this paper, we investigated the influence of the application site on the permeation of rose oil. Method: We tested the permeation of rose oil and its major ingredients through human heat-separated epidermis of abdominal skin, breast skin, and skin from the upper arm. Results: We found that no application site is suited best for all substances tested to permeate the skin. It depends on the structure of the essential oil ingredients which application site should be chosen for topical application, which is already known for pharmaceuticals. Furthermore, when investigating the permeation of essential oils, we found that not only the Papp value but also the lag-time should be considered. Conclusion: The application site of substances to permeate the skin has a great influence on the permeation behaviour. As essential oils are volatile mixtures and their retention on the surface of the skin amounts only to a few hours, the lag-time should be considered in addition to the Papp-value.
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