ABSTRACTS 545 before the start of the study, their skin thickness increased a statistically significant increase. Objective skin surface at a statistically significant level. Skin surface pH remained morphology did not change in any group. In summary, almost unchanged in the physiologically optimal range. In drinking more than 2 L of water per day can have a the tap water group, skin density increased significantly, significant impact on skin physiology. The exact effects while skin thickness decreased significantly. Skin surface within the skin seem to differ depending on the nature of pH decreased at a statistically significant level. While in the the water ingested. Randomized, controlled, double-blind mineral water group finger circumference decreased follow-up trials are warranted to confinn the findings of significantly, measurements in the tap water group revealed our exploratory pilot study.

]. Cosmet. Sci.J 58, 547-548 (September/October 2007) Abstracts IFSCC Magazine Vol. 10, No. 2, 2007* Multicenter Study on Measurement of the Natural pH of the Skin Surface Doerte Segget+, Uwe ABmus*, Michael Brocks, Jessica Erasm/, Peter Finkel+, Andreas FitznefS, Helgard Heuss~, Uta Kortemeier§, Sven Munke§§, Thomas Rheinlander**, Hartmut Schmidt-Lewerkilhne'#, Werner Schneider, Gabriele Wesel'- [Members of the DGK (German Society for Scientific and pH were 4.9 (arithmetic mean). The 95% interval was between 4.1 and 5.8. The pH on the forearm of the male volunteers was slightly lower than that of the females. The difference was statistically significant (p0.01 4.8 to 5.0). The authors suggest that the GDCh recommendations for the claims »skin neutral pH«, »ideal pH« or »skin-friendly pH« should be revised and propose a pH range of 4.1 to 5.8 for the main body areas excluding the underarm and genital areas. Changes in Facial Impressions by Controlling the Color of Applied Cosmetics) »Skin Cleansing« Group] Surface Reflection from Cosmetic Foundations: ++ SIT Skin Investigation and Technology Hamburg GmbH, Hamburg, Germany, Dammtorwall 4, 20354 Hamburg, Germany * Institut Fresenius AG, Taunusstein, Germany s Sasol Germany GmbH, Marl, Germany # Cognis, Dilsseldorf, Germany + Sara Lee H&BC, Dusseldorf, Germany $$ Dalli-Werke GmbH, Stolberg, Germany - Firmenich GmbH, Kerpen, Germany § Degussa Care Specialities Goldschmidt AG, Essen, Germany §§ Lever Faberge GmbH, Buxtehude, Germany ** Mibelle AG Cosmetics, Buchs, Switzerland ## Beiersdorf AG, Hamburg, Germany & Hans Schwarzkopf & Henkel GmbH&Co.KG, Hamburg, Germany Characterization of the skin's natural state is very important for understanding skin functions and describing disturbances of skin function. In the field of cosmetics and dermatologicals the natural pH of the skin surface plays an important role in the development of products with a skin neutral pH. In a multicenter study the natural pH of the skin surface (exception of underarm and genital areas), was to be measured. It was to be determined whether gender­ specific differences in the pH occur. The skin surface pH was measured on the inside of the forearms in 222 volunteers (147 female, 75 male) using the skin pH meters of the respective institutes. The pH was measured in triplicate on adjacent areas 24h after the last contact of the measuring site with water, topical applications and an intensive washing procedure. The values of the skin surface Appearance Evaluation and Formulation Technique Koji Minami, Tomomichi Kaneko, Tomoyuki Suzawa, Taisuke Aosaki, Noboru Nagatani, Hajime Hotta, and Kimihiko Hori Skin Care Products Research Laboratories, Kao Corporation, 1-3, Bunka 2-chome, Sumida-ku, Tokyo, 131-8501, Japan An attractive new series of foundations that vary in the glossy color originating in pearlescent pigments and are capable of changing facial impressions was developed. The color of the reflection of pearlescent pigments was attributed to additive mixing of interfering light. A brightly colored foundation film was obtained by mixing a sufficient amount of medium-sized pearlescent pigments into foundations. Five foundation films containing pearlescent pigments of different glossy color (red, gold, green, blue and white) were prepared. Gonio­ spectrophotometry was employed to determine the angle dependence of the reflected spectra, and the approximate optical characteristics of the films were derived. Using the approximations as input parameters in a made-up face simulation system, five images of a woman's facial skin with different glossy colors were processed by a computer graphics technique. Thirty•nine women assessed the facial impressions for glossy color using a semantic differential method with 69 descriptive words. Results of the subsequent statistical analysis showed that different glossy colors provide different impressions of facial appearance. * These abstracts appear as they were originally published. They have not been edited by the Journal of Cosmetic Science. 547