Graphene Oxide and Stabilized Ortho-Silicic Acid as Modifiers of Amnion and Burn Affected Skin: A Comparative Study

Anna Pielesz,1 Janusz Fabia,1 Włodzimierz Biniaś,1 Ryszard Fryczkowski,1 Beata Fryczkowska,1 Andrzej Gawłowski,1 Alicja Machnicka,2 Rafał Bobiński,3 Henk-Maarten Laane,4 Wioletta Waksmańska5 1Faculty of Materials, Civil and Environmental Engineering, University of Bielsko-Biala, Bielsko-Biala, Polan...

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Autores principales: Pielesz A, Fabia J, Biniaś W, Fryczkowski R, Fryczkowska B, Gawłowski A, Machnicka A, Bobiński R, Laane HM, Waksmańska W
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Publicado: Dove Medical Press 2021
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spelling oai:doaj.org-article:4cea2294999044fea00a7434069e35142021-12-02T14:20:37ZGraphene Oxide and Stabilized Ortho-Silicic Acid as Modifiers of Amnion and Burn Affected Skin: A Comparative Study1177-8903https://doaj.org/article/4cea2294999044fea00a7434069e35142021-03-01T00:00:00Zhttps://www.dovepress.com/graphene-oxide-and-stabilized-ortho-silicic-acid-as-modifiers-of-amnio-peer-reviewed-article-NSAhttps://doaj.org/toc/1177-8903Anna Pielesz,1 Janusz Fabia,1 Włodzimierz Biniaś,1 Ryszard Fryczkowski,1 Beata Fryczkowska,1 Andrzej Gawłowski,1 Alicja Machnicka,2 Rafał Bobiński,3 Henk-Maarten Laane,4 Wioletta Waksmańska5 1Faculty of Materials, Civil and Environmental Engineering, University of Bielsko-Biala, Bielsko-Biala, Poland; 2Department of Microbiology and Environmental Technology, Institute of Engineering and Environmental Protection, University of Bielsko-Biała, Bielsko-Biala, Poland; 3Faculty of Health Sciences, Department of Biochemistry and Molecular Biology, University of Bielsko-Biala, Bielsko-Biala, Poland; 4ReXil Agro BV, Hengelo, OV, The Netherlands; 5Faculty of Health Sciences, Department of Public Health, University of Bielsko-Biala, Bielsko-Biala, PolandCorrespondence: Anna PieleszUniversity of Bielsko-Biala, ul. Willowa 2, Bielsko-Biala, 43-309, PolandTel +48 33 8279114Fax +48 33 8279355Email apielesz@ath.bielsko.plIntroduction: Oxidative tissue damage caused by reactive oxygen species results in a significant decrease in the total antioxidant capacity of the biological system. The aim of this interdisciplinary study was to answer the question of whether active antioxidants modify, at a molecular and supramolecular level, the tissue of pathological amnion and the necrotic eschar degraded in thermal burn.Methods: A Nicolet 6700 Fourier-transform spectrophotometer with OMNIC software and the EasiDiff diffusion accessory were used in the FTIR spectroscopic analysis. A NICOLET MAGNA-IR 860 spectrometer with FT-Raman accessory was used to record the Raman spectra of the samples. The samples were exposed to bacteria capable of causing nosocomial infections, ie Gram-positive Staphylococcus aureus and Gram-negative Escherichia coli and Pseudomonas aeruginosa. Whereas samples of hypotrophic amnion interacted with Staphylococcus aureus, Escherichia coli and Enterococcus faecalis. The obtained flame retardant effect of placentas was evaluated using the method of the limiting oxygen index (LOI).Results: The infrared spectroscopy analysis proved that after modification of the amniotic samples in graphene oxide and ortho-silicic acid, the amide II band is split into two components. Incubation of samples in modifier solutions: graphene oxide, sodium ascorbate and L-ascorbic acid results in shifts and changes of intensity within the broadly understood lipid band 1743– 1745– 1747 cm− 1. The oxidising changes observed within the lipid and amide bands are affected by the incubation effect of graphene oxide as a modifier, possibly adsorbing on the surface of the amniotic membrane. On the basis of microbiological studies, pathogenic bacteria commonly causing amniotic infections and growing in burn wounds were found to have particularly good resistance to stabilized ortho-silicic acid (E. coli) and lactoferrin (S.aureus).Conclusion: This thermogravimetric study found the highest stability of the analysed tissues (hypotrophic amnion and burnt epidermis) after modification with graphene oxide and sodium ascorbate.Keywords: graphene oxide, stabilized ortho-silicic acid, sodium ascorbate, L-ascorbic acidPielesz AFabia JBiniaś WFryczkowski RFryczkowska BGawłowski AMachnicka ABobiński RLaane HMWaksmańska WDove Medical Pressarticlegraphene oxidestabilized ortho-silicic acidsodium ascorbatel-ascorbic acidamnion and burn skinMedical technologyR855-855.5Chemical technologyTP1-1185ENNanotechnology, Science and Applications, Vol Volume 14, Pp 49-67 (2021)
institution DOAJ
collection DOAJ
language EN
topic graphene oxide
stabilized ortho-silicic acid
sodium ascorbate
l-ascorbic acid
amnion and burn skin
Medical technology
R855-855.5
Chemical technology
TP1-1185
spellingShingle graphene oxide
stabilized ortho-silicic acid
sodium ascorbate
l-ascorbic acid
amnion and burn skin
Medical technology
R855-855.5
Chemical technology
TP1-1185
Pielesz A
Fabia J
Biniaś W
Fryczkowski R
Fryczkowska B
Gawłowski A
Machnicka A
Bobiński R
Laane HM
Waksmańska W
Graphene Oxide and Stabilized Ortho-Silicic Acid as Modifiers of Amnion and Burn Affected Skin: A Comparative Study
description Anna Pielesz,1 Janusz Fabia,1 Włodzimierz Biniaś,1 Ryszard Fryczkowski,1 Beata Fryczkowska,1 Andrzej Gawłowski,1 Alicja Machnicka,2 Rafał Bobiński,3 Henk-Maarten Laane,4 Wioletta Waksmańska5 1Faculty of Materials, Civil and Environmental Engineering, University of Bielsko-Biala, Bielsko-Biala, Poland; 2Department of Microbiology and Environmental Technology, Institute of Engineering and Environmental Protection, University of Bielsko-Biała, Bielsko-Biala, Poland; 3Faculty of Health Sciences, Department of Biochemistry and Molecular Biology, University of Bielsko-Biala, Bielsko-Biala, Poland; 4ReXil Agro BV, Hengelo, OV, The Netherlands; 5Faculty of Health Sciences, Department of Public Health, University of Bielsko-Biala, Bielsko-Biala, PolandCorrespondence: Anna PieleszUniversity of Bielsko-Biala, ul. Willowa 2, Bielsko-Biala, 43-309, PolandTel +48 33 8279114Fax +48 33 8279355Email apielesz@ath.bielsko.plIntroduction: Oxidative tissue damage caused by reactive oxygen species results in a significant decrease in the total antioxidant capacity of the biological system. The aim of this interdisciplinary study was to answer the question of whether active antioxidants modify, at a molecular and supramolecular level, the tissue of pathological amnion and the necrotic eschar degraded in thermal burn.Methods: A Nicolet 6700 Fourier-transform spectrophotometer with OMNIC software and the EasiDiff diffusion accessory were used in the FTIR spectroscopic analysis. A NICOLET MAGNA-IR 860 spectrometer with FT-Raman accessory was used to record the Raman spectra of the samples. The samples were exposed to bacteria capable of causing nosocomial infections, ie Gram-positive Staphylococcus aureus and Gram-negative Escherichia coli and Pseudomonas aeruginosa. Whereas samples of hypotrophic amnion interacted with Staphylococcus aureus, Escherichia coli and Enterococcus faecalis. The obtained flame retardant effect of placentas was evaluated using the method of the limiting oxygen index (LOI).Results: The infrared spectroscopy analysis proved that after modification of the amniotic samples in graphene oxide and ortho-silicic acid, the amide II band is split into two components. Incubation of samples in modifier solutions: graphene oxide, sodium ascorbate and L-ascorbic acid results in shifts and changes of intensity within the broadly understood lipid band 1743– 1745– 1747 cm− 1. The oxidising changes observed within the lipid and amide bands are affected by the incubation effect of graphene oxide as a modifier, possibly adsorbing on the surface of the amniotic membrane. On the basis of microbiological studies, pathogenic bacteria commonly causing amniotic infections and growing in burn wounds were found to have particularly good resistance to stabilized ortho-silicic acid (E. coli) and lactoferrin (S.aureus).Conclusion: This thermogravimetric study found the highest stability of the analysed tissues (hypotrophic amnion and burnt epidermis) after modification with graphene oxide and sodium ascorbate.Keywords: graphene oxide, stabilized ortho-silicic acid, sodium ascorbate, L-ascorbic acid
format article
author Pielesz A
Fabia J
Biniaś W
Fryczkowski R
Fryczkowska B
Gawłowski A
Machnicka A
Bobiński R
Laane HM
Waksmańska W
author_facet Pielesz A
Fabia J
Biniaś W
Fryczkowski R
Fryczkowska B
Gawłowski A
Machnicka A
Bobiński R
Laane HM
Waksmańska W
author_sort Pielesz A
title Graphene Oxide and Stabilized Ortho-Silicic Acid as Modifiers of Amnion and Burn Affected Skin: A Comparative Study
title_short Graphene Oxide and Stabilized Ortho-Silicic Acid as Modifiers of Amnion and Burn Affected Skin: A Comparative Study
title_full Graphene Oxide and Stabilized Ortho-Silicic Acid as Modifiers of Amnion and Burn Affected Skin: A Comparative Study
title_fullStr Graphene Oxide and Stabilized Ortho-Silicic Acid as Modifiers of Amnion and Burn Affected Skin: A Comparative Study
title_full_unstemmed Graphene Oxide and Stabilized Ortho-Silicic Acid as Modifiers of Amnion and Burn Affected Skin: A Comparative Study
title_sort graphene oxide and stabilized ortho-silicic acid as modifiers of amnion and burn affected skin: a comparative study
publisher Dove Medical Press
publishDate 2021
url https://doaj.org/article/4cea2294999044fea00a7434069e3514
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