Journal of

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Background and Aim: Moisturizers have important roles in the treatment of dry skin. Their safety has to be evaluated on human volunteers in order to assess their potential skin irritation. Measurements of skin biophysical parameters can be used as fast and noninvasive methods to assess any harmful effect of cosmetic formulations on the skin sites where those products are applied. Methods: Two moisturizers were selected from Iran's market to determine the changes in Trans Epidermal Water Loss (TEWL), stratum corneum hydration, pH, melanin and hemoglobin contents by biometric assessments with MPA 580 Cutometer®. Results: There was no any significant change in TEWL, skin pH, melanin and hemoglobin contents before and after products application. Stratum corneum hydration was increased after application of Neu Derm Renutrive Honey Shea from 0.09 to 0.39 (P0.001). Neu Derm Optimal Hydrosense increased stratum corneum hydration from 0.23 to 0.48 (P0.001). Conclusion: Application of the studied moisturizers on human volunteers did not show any adverse effect. So, those products could be recommended for safe use. Significant changes in the stratum corneum hydration associated with application of each moisturizer were related to humectant ingredients which were used in each product.

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The function of the horny layer of the skin as a barrier is to protect the underlying tissues from infection, dryness, and mechanical stress. Disruption of this function results in increased transepidermal water loss (TEWL) and is associated with conditions like atopic dermatitis and other chronic skin diseases. Moisturizers have been shown to improve these conditions through restoration of the integrity of the stratum corneum, acting as a barrier to water loss and replacement of skin lipids and other compounds. Also, moisturizers are commonly used to reduce fine lines and make the skin appear smooth and soft. They contain varying combinations of emollients, occlusives, and humectants to achieve their beneficial effects, and there are an overwhelming number of formulations available.

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Background and Aim: Although several commercial moisturizers are available in the market, continued role of pharmaceutical compounding have been still felt in dry skin management. This study aimed to evaluate the effect of a two urea- based compounded moisturizers on barrier function, compared to similar commercial product. 15 volunteers (14 females and one male) age 36.15 ±9.55 years old (range 21-56 years old) with non-pathologic dry skin, recruited to the study applied 5% urea containing hydrophilic petrolatum and 10% urea containing hydrophilic petrolatum during two following phases.
Methods: Upper parts of right and left forearms randomly were assigned for twice a day application of commercial or compounded products. Biophysical assessments including trans epidermal water loss (TEWL), skin hydration, friction co efficient, pH and surface lipids, performed before intervention, 1, 4 after single application and at 24 hours and one week twice daily application. 
Results: In both phases, commercial and compounded moisturizers showed appropriate and comparable effect on skin barrier function compared to the baseline. However commercial products, led to better improvement in TEWL, 4 hours after single application in both phases (P=0.04). The rate of increase in skin hydration was also significantly higher for commercial emollient, compared to compounding product (57.48±11.23 vs. 50.59±11.42, P=0.01).
Conclusion: Commercial formulation led to higher acceptability and better improvement on skin barrier function after single application, probably due to influence of excipients. Present study did not find sufficient added value for pharmacy product relative to commercial one and suggest to be replaced in similar condition.

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