Graphene Oxide as a Collagen Modifier of Amniotic Membrane and Burnt Skin.

IF 4.9 Q2 NANOSCIENCE & NANOTECHNOLOGY Nanotechnology, Science and Applications Pub Date : 2021-12-07 eCollection Date: 2021-01-01 DOI:10.2147/NSA.S343540
Anna Pielesz, Czesław Ślusarczyk, Marta Sieradzka, Tomasz Kukulski, Dorota Biniaś, Ryszard Fryczkowski, Rafał Bobiński, Wioletta Waksmańska
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引用次数: 2

Abstract

Introduction: The aim of this interdisciplinary study was to answer the question of whether active antioxidants as graphene oxide (GO), sodium ascorbate, and L-ascorbic acid modify at a molecular and supramolecular level the tissue of pathological amnion and the necrotic eschar degraded in thermal burn. We propose new solutions of modifiers based on GO that will become innovative ingredients to be used in transplants (amnion) and enhance regeneration of epidermis degraded in thermal burn.

Methods: A Nicolet 6700 spectrophotometer with Omnic software and the EasiDiff diffusion accessory were used in FTIR spectroscopic analysis. A Nicolet Magna-IR 860 spectrometer with an FT Raman accessory was used to record the Raman spectra of the samples. The surface of the samples was examined using a Phenom ProX scanning electron microscope with an energy-dispersive X-ray spectroscopy detector to diagnose and illustrate morphological effects on skin and amnion samples. SAXS measurements were carried out with a compact Kratky camera equipped with the SWAXS optical system.

Results: Characterisation of amide I-III regions, important for molecular structure, on both FTIR and FTR spectra revealed distinct shifts, testifying to organization of protein structure after GO modification. A wide lipid band associated with ester-group vibrations in phospholipids of cell membranes and vibrations of the carbonyl group of GO in the 1,790-1,720 cm-1 band were observed in the spectra of thermally degraded and GO-modified epidermis and pathological amnion. SAXS studies revealed that GO caused a significant change in the structure of the burnt skin, but its influence on the structure of the amnion was weak.

Conclusion: Modification of burn-damaged epidermis and pathological amnion by means of GO results in stabilization and regeneration of tissue at the level of molecular (FTIR, FTR) and supramolecular (SAXS) interactions.

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氧化石墨烯作为羊膜和烧伤皮肤胶原蛋白改性剂的研究。
简介:这项跨学科研究的目的是回答活性抗氧化剂如氧化石墨烯(GO)、抗坏血酸钠和l -抗坏血酸是否在分子和超分子水平上改变病理性羊膜组织和热烧伤坏死痂的降解。我们提出了基于氧化石墨烯的改性剂的新解决方案,这些改性剂将成为用于移植(羊膜)的创新成分,并增强热烧伤中降解的表皮的再生。方法:采用Nicolet 6700分光光度计,采用Omnic软件和EasiDiff扩散附件进行FTIR光谱分析。用带FT拉曼附件的Nicolet Magna-IR 860光谱仪记录样品的拉曼光谱。使用Phenom ProX扫描电子显微镜和能量色散x射线光谱检测器检查样品表面,以诊断和说明对皮肤和羊膜样品的形态学影响。SAXS的测量是用配备了SWAXS光学系统的紧凑型Kratky相机进行的。结果:在FTIR和FTR光谱上,对分子结构重要的酰胺I-III区域的表征显示出明显的变化,证明了氧化石墨烯修饰后蛋白质结构的组织。在热降解和氧化石墨烯修饰的表皮和病理羊膜的光谱中观察到细胞膜磷脂的酯基振动和氧化石墨烯羰基在1790 - 1720 cm-1波段的宽脂带。SAXS研究表明,氧化石墨烯引起烧伤皮肤结构的显著变化,但对羊膜结构的影响较弱。结论:氧化石墨烯修饰烧伤损伤表皮和病理羊膜在分子(FTIR、FTR)和超分子(SAXS)相互作用水平上具有组织稳定和再生的作用。
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来源期刊
Nanotechnology, Science and Applications
Nanotechnology, Science and Applications NANOSCIENCE & NANOTECHNOLOGY-
CiteScore
11.70
自引率
0.00%
发文量
3
审稿时长
16 weeks
期刊介绍: Nanotechnology, Science and Applications is an international, peer-reviewed, Open Access journal that focuses on the science of nanotechnology in a wide range of industrial and academic applications. The journal is characterized by the rapid reporting of reviews, original research, and application studies across all sectors, including engineering, optics, bio-medicine, cosmetics, textiles, resource sustainability and science. Applied research into nano-materials, particles, nano-structures and fabrication, diagnostics and analytics, drug delivery and toxicology constitute the primary direction of the journal.
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