The Irritant Effects of Pharmaceutically Applied Surfactants

Erős, Gábor; Kurgyis, Zsuzsanna; Németh, István; Csizmazia, Eszter; Berkó, Szilvia; Szabó‐Révész, Piroska; Kemény, Lajos; Csányi, Erzsébet

doi:10.1007/s11743-013-1444-6

Cited by 6 publications

(5 citation statements)

References 16 publications

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“…According to the available literature data, application of SLS induces T cell‐dominated inflammatory response in mouse oral mucosa . In line with these results, our previous study has also demonstrated that exposure to SLS can lead to lymphocyte accumulation in the skin of SKH‐1 mice . This study provides evidence that the applied polyols are able to reduce the number of lymphocytes at the irritation site.…”

Section: Discussionsupporting

confidence: 85%

Anti‐irritant and anti‐inflammatory effects of glycerol and xylitol in sodium lauryl sulphate‐induced acute irritation

Szél

Polyánka

Szabó

et al. 2015

Acad Dermatol Venereol

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Background Glycerol is known to possess anti‐irritant and hydrating properties and previous studies suggested that xylitol may also have similar effects. Objective Our aim was to study whether different concentrations of these polyols restore skin barrier function and soothe inflammation in sodium lauryl sulphate (SLS)‐induced acute irritation. Methods The experiments were performed on male SKH‐1 hairless mice. The skin of the dorsal region was exposed to SLS (5%) for 3 h alone or together with 5% or 10% of glycerol respectively. Further two groups received xylitol solutions (8.26% and 16.52% respectively) using the same osmolarities, which were equivalent to those of the glycerol treatments. The control group was treated with purified water. Transepidermal water loss (TEWL) and skin hydration were determined. Microcirculatory parameters of inflammation were observed by means of intravital videomicroscopy (IVM). Furthermore, accumulation of neutrophil granulocytes and lymphocytes, the expression of inflammatory cytokines and SLS penetration were assessed, as well. Results Treatment with the 10% of glycerol and both concentrations of xylitol inhibited the SLS‐induced elevation of TEWL and moderated the irritant‐induced increase in dermal blood flow and in the number of leucocyte‐endothelial interactions. All concentrations of the applied polyols improved hydration and prevented the accumulation of lymphocytes near the treatment site. At the mRNA level, neither glycerol nor xylitol influenced the expression of interleukin‐1 alpha. However, expression of interleukin‐1 beta was significantly decreased by the 10% glycerol treatment, while expression of tumour necrosis factor‐alpha decreased upon the same treatment, as well as in response to xylitol. Higher polyol treatments decreased the SLS penetration to the deeper layers of the stratum corneum. Conclusion Both of the analysed polyols exert considerable anti‐irritant and anti‐inflammatory properties, but the effective concentration of xylitol is lower than that of glycerol.

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Section: Discussionsupporting

confidence: 85%

Anti‐irritant and anti‐inflammatory effects of glycerol and xylitol in sodium lauryl sulphate‐induced acute irritation

Szél

Polyánka

Szabó

et al. 2015

Acad Dermatol Venereol

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“…Interest in using nonionic surfactants associated with a cosurfactant is growing in ME composition, mainly because of the high stability, low toxicity, and biodegradability of these compounds. Polyoxyethylenglycerol (PEG)-40 hydrogenated castor oil is a nonionic surfactant for pharmaceutical use 21,22 that provides adequate conditions to stabilize w/o ME when used in surfactant mixtures. 12,23,24 The effect of ME on drug delivery has been well described in the literature and reveals a favorable influence on the modification of the bioavailability of many drugs, such as the antimicrobial activity of glycerol monolaurate by using o/w ME; 5 tween-based MEs has been developed for the delivery of a fixeddose combination of three first-line antitubercular drugs; 11 and other MEs have been produced for the solubilization of many drugs such as azithromicin, 25 chloramphenicol, 4 and several water-soluble peptides of different molecular structures, sizes, and charges in w/o MEs containing long-or medium-chain triglycerides.…”

Section: Introductionmentioning

confidence: 99%

Development and Characterization of a Biocompatible Soybean Oil-Based Microemulsion for the Delivery of Poorly Water-Soluble Drugs

Aloisio

Longhi

Oliveira

2015

Journal of Pharmaceutical Sciences

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“…Osmotic challenge influences cellular viability in an osmolarity- and time-dependent manner 4–7. Such effect is also characteristic of ICD: severe irritation of the skin (24 hrs exposure to SLS) can induce tissue necrosis in vivo27 but milder irritant challenges do not lead to necrosis 28. In our experiments, 24 hrs exposure to 450 and 500 mOsm sorbitol did not influence cellular viability and cytotoxicity, but 600 mOsm resulted in a significant decrease in viability as compared to untreated control cells.…”

Section: Discussionmentioning

confidence: 99%

<p>Protective effects of glycerol and xylitol in keratinocytes exposed to hyperosmotic stress</p>

Szél

Danis

Sőrés

et al. 2019

CCID

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Purpose: Our goal was to study whether glycerol and xylitol provide protection against osmotic stress in keratinocytes. Methods: The experiments were performed on HaCaT keratinocytes. Hyperosmotic stress was induced by the addition of sorbitol (450, 500 and 600 mOsm). Both polyols were applied at two different concentrations (glycerol: 0.027% and 0.27%, xylitol: 0.045% and 0.45%). Cellular viability and cytotoxicity were assessed, intracellular Ca 2+ concentration was measured, and the RNA expression of inflammatory cytokines was determined by means of PCR. Differences among groups were analyzed with one-way ANOVA and Holm-Sidak post-hoc test. When the normality test failed, Kruskal–Wallis one-way analysis of variance on ranks, followed by Dunn’s method for pairwise multiple comparison was performed. Results: The higher concentrations of the polyols were effective. Glycerol ameliorated the cellular viability while xylitol prevented the rapid Ca 2+ signal. Both polyols suppressed the expression of IL-1α but only glycerol decreased the expression of IL-1β and NFAT5. Conclusions: Glycerol and xylitol protect keratinocytes against osmotic stress. Despite their similar chemical structure, the effect of these polyols displayed differences. Hence, joint application of glycerol and xylitol may be a useful therapeutic approach for different skin disorders.

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The Irritant Effects of Pharmaceutically Applied Surfactants

Cited by 6 publications

References 16 publications

Anti‐irritant and anti‐inflammatory effects of glycerol and xylitol in sodium lauryl sulphate‐induced acute irritation

Anti‐irritant and anti‐inflammatory effects of glycerol and xylitol in sodium lauryl sulphate‐induced acute irritation

Development and Characterization of a Biocompatible Soybean Oil-Based Microemulsion for the Delivery of Poorly Water-Soluble Drugs

<p>Protective effects of glycerol and xylitol in keratinocytes exposed to hyperosmotic stress</p>

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