Tarek Omairi scite author profile

Tarek Omairi

4Publications

61Citation Statements Received

44Citation Statements Given

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Affiliations

University of Applied Sciences and Arts University of Applied Sciences and Arts Hildesheim/Holzminden/Göttingen

Publications

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Electron spectroscopic analysis of the human lipid skin barrier: cold atmospheric plasma‐induced changes in lipid composition

Marschewski

Hirschberg

Omairi

et al. 2012

Experimental Dermatology

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The lipids of the stratum corneum comprise the most important components of the skin barrier. In patients with ichthyoses or atopic dermatitis, the composition of the skin barrier lipids is disturbed resulting in dry, scaly, itching erythematous skin. Using the latest X-Ray Photoelectron Spectroscopy (XPS) technology, we investigated the physiological skin lipid composition of human skin and the effects of cold atmospheric plasma treatment on the lipid composition. Skin lipids were stripped off forearms of six healthy volunteers using the cyanoacrylate glue technique, plasma treated or not and then subjected to detailed XPS analysis. We found that the human lipid skin barrier consisted of 84.4% carbon (+1.3 SEM%), 10.8% oxygen (+1.0 SEM%) and 4.8% nitrogen (+0.3 SEM%). The composition of physiological skin lipids was not different in males and females. Plasma treatment resulted in significant changes in skin barrier lipid stoichiometry. The total carbon amount was reduced to 76.7%, and the oxygen amount increased to 16.5%. There was also a slight increase in nitrogen to 6.8%. These changes could be attributed to reduced C-C bonds and increased C-O, C=O, C-N and N-C-O bonds. The moderate increase in nitrogen was caused by an increase in C-N and N-C-O bonds. Our results show for the first time that plasma treatment leads to considerable changes in the human skin lipid barrier. Our proof of principle investigations established the technical means to analyse, if plasma-induced skin lipid barrier changes may be beneficial in the treatment of ichthyotic or eczematous skin.

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Influence of excitation pulse duration of dielectric barrier discharges on biomedical applications

Hirschberg¹,

Omairi²,

Mertens³

et al. 2013

J. Phys. D: Appl. Phys.

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Evidence of 5-aminolevulinic acid (ALA) penetration increase due to microdrilling in soft tissue using femtosecond laser ablation

et al. 2012

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Photodynamic therapy (PDT) is a therapeutic technique mainly applied to the treatment of malignant and pre-malignant lesions, which induces cell death by the combined effect of a photosensitizer, irradiation in a proper wavelength, and molecular oxygen. One of the main limitations of PDT using 5-aminolevulinic acid (ALA) is the superficial volume of treatment, mainly due to the limited penetration of topical photosensitization. In this context, the present study investigates if a laser micromachining producing microchannels on the tissue surface could improve ALA penetration and result in an increase in the treatment depth. The laser micromachining under femtosecond regime was performed on the tissue surface of rat livers. Conventional PDT was applied and the induced depth of necrosis with or without laser micromachining was compared. The results showed an increase of more than 20% in the depth of necrosis when the femtosecond laser micromachining was performed before the treatment with the PDT.

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Investigation of the ultrashort laser ablation in liver for increased ALA penetration

Nicolodelli¹,

Rego

Omairi³

et al. 2011

Photodiagnosis and Photodynamic Therapy

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Tarek Omairi

Electron spectroscopic analysis of the human lipid skin barrier: cold atmospheric plasma‐induced changes in lipid composition

Influence of excitation pulse duration of dielectric barrier discharges on biomedical applications

Evidence of 5-aminolevulinic acid (ALA) penetration increase due to microdrilling in soft tissue using femtosecond laser ablation

Investigation of the ultrashort laser ablation in liver for increased ALA penetration

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