BUS model

/Tag:BUS model

Use of the Bovine Udder Skin Model to Evaluate the Tolerability of Mesem Cosmetic Cream

Christa Raak, Friedrich Molsberger, Wolfgang Pittermann, Mathias Bertram, Sibylle Robens and Thomas Ostermann

Observational studies of Mesem cream (based on Mesembryanthemum crystallinum L. plant extract) found that it had positive effects on skin hydration and smoothing of the skin. However, some patients reported skin irritation effects. The current study evaluated the skin tolerability of Mesem cream, as compared to the carrier cream (without the active ingredient), by using the isolated perfused bovine udder skin model. The primary outcomes investigated were cytotoxicity (i.e. cell viability), assessed with the MTT assay, and irritancy and inflammation, assessed by measuring PGE2 tissue levels. A total reaction score was calculated by combining the results for each parameter. In the case of a single topical application, significant differences were found between the carrier cream and the Mesem cream. While the application of carrier cream resulted in low cytotoxicity (–8.4% change in viability, as compared to the untreated control), the Mesem cream was more cytotoxic (–18.7% change). In addition, one hour after application, PGE2 levels were higher in Mesem cream-treated skin, as compared to carrier cream-treated skin (16.6% versus 11.3%). Further experiments (tape-stripped skin and repeated application) also found significant differences between the two creams in the results obtained. Evaluation of the effectiveness, safety and tolerability of phyto-cosmetic products is important. Our results confirmed the findings of two previous human observational studies (the human patch test and open application study). Future experiments to understand the underlying principles of its effectiveness, safety and tolerability should include extracts of M. crystallinum L. juice, as well as the Mesem cream itself.
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The Skin Compatibility of Distilled Tall Oils: Evaluation With the Bovine Udder Skin In Vitro Model System

Wolfgang Pittermann, Fredrik Hopfgarten and Manfred Kietzmann

Distilled tall oil (DTO) is a natural product, often added as an emulsifying ingredient in cutting fluids used as lubricants and coolants in metal working. The in vitro model used to test the skin compatibility of these substances, was the isolated perfused ex vivo bovine udder skin (BUS) model. After three exposure periods (0.5, 1, and 5 hours), cytotoxic effects were determined by using the 3-(4,5-dimethylthiazol- 2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay, and tissue levels of the pre-inflammatory mediator prostaglandin E2 (PGE2) in treated whole skin biopsies were assessed by using an enzyme immunoassay. The BUS standard study design, involving a single application, was previously developed to investigate the skin irritation potential of cosmetics and chemicals. In the current study, four different batches of undiluted DTO, and tall oil fatty acids as a reference compound, were applied both singly and repeatedly (three times), under open conditions which were in line with the potential usage conditions in the work place. Under the standardised single application conditions, no major differences in cytotoxic effects or PGE2 levels between the samples were apparent, so no indication of a skin irritation potential could be concluded. This result is in accordance with prior in vivo studies for acute dermal toxicity. Under repeated application conditions, signs of cytotoxicity were observed after the application of one of the DTO samples, which was known to be derived from different raw materials. Therefore, it was concluded that, generally, the presence of DTO at a concentration of up to 10% in cutting fluids, is not expected to result in any DTO-related deterioration of the skin.
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