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γ辐射对不同明胶纳米纤维和明胶的影响。

The Influence of Gamma Radiation on Different Gelatin Nanofibers and Gelatins.

作者信息

Gaidau Carmen, Râpă Maria, Ionita Gabriela, Stanculescu Ioana Rodica, Zaharescu Traian, Constantinescu Rodica-Roxana, Lazea-Stoyanova Andrada, Stanca Maria

机构信息

Research and Development National Institute for Textiles and Leather-Division Leather and Footwear Research Institute, 93 Ion Minulescu Street, 031215 Bucharest, Romania.

Faculty of Materials Science and Engineering, POLITEHNICA Bucharest National University of Science and Technology, 313 Splaiul Independentei, 060042 Bucharest, Romania.

出版信息

Gels. 2024 Mar 26;10(4):226. doi: 10.3390/gels10040226.

DOI:10.3390/gels10040226
PMID:38667645
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11049530/
Abstract

Gelatin nanofibers are known as wound-healing biomaterials due to their high biocompatible, biodegradable, and non-antigenic properties compared to synthetic-polymer-fabricated nanofibers. The influence of gamma radiation doses on the structure of gelatin nanofiber dressings compared to gelatin of their origin is little known, although it is very important for the production of stable bioactive products. Different-origin gelatins were extracted from bovine and donkey hides, rabbit skins, and fish scales and used for fabrication of nanofibers through electrospinning of gelatin solutions in acetic acid. Nanofibers with sizes ranging from 73.50 nm to 230.46 nm were successfully prepared, thus showing the potential of different-origin gelatin by-products valorization as a lower-cost alternative to native collagen. The gelatin nanofibers together with their origin gelatins were treated with 10, 20, and 25 kGy gamma radiation doses and investigated for their structural stability through chemiluminescence and FTIR spectroscopy. Chemiluminescence analysis showed a stable behavior of gelatin nanofibers and gelatins up to 200 °C and increased chemiluminescent emission intensities for nanofibers treated with gamma radiation, at temperatures above 200 °C, compared to irradiated gelatins and non-irradiated nanofibers and gelatins. The electron paramagnetic (EPR) signals of DMPO adduct allowed for the identification of long-life HO radicals only for bovine and donkey gelatin nanofibers treated with a 20 kGy gamma radiation dose. Microbial contamination with aerobic microorganisms, yeasts, filamentous fungi, , , and of gelatin nanofibers treated with 10 kGy gamma radiation was under the limits required for pharmaceutical and topic formulations. Minor shifts of FTIR bands were observed at irradiation, indicating the preservation of secondary structure and stable properties of different-origin gelatin nanofibers.

摘要

与合成聚合物制成的纳米纤维相比,明胶纳米纤维具有高生物相容性、可生物降解和无抗原性等特性,因此被视为伤口愈合生物材料。尽管γ辐射剂量对明胶纳米纤维敷料结构的影响对于稳定生物活性产品的生产非常重要,但与原始明胶相比,这方面的了解还很少。从牛皮、驴皮、兔皮和鱼鳞中提取了不同来源的明胶,并通过在乙酸中对明胶溶液进行静电纺丝来制备纳米纤维。成功制备了尺寸范围为73.50纳米至230.46纳米的纳米纤维,从而显示出不同来源明胶副产品增值作为天然胶原蛋白低成本替代品的潜力。将明胶纳米纤维及其原始明胶用10、20和25千戈瑞的γ辐射剂量进行处理,并通过化学发光和傅里叶变换红外光谱(FTIR)研究其结构稳定性。化学发光分析表明,明胶纳米纤维和明胶在高达200°C时表现出稳定的行为,与辐照明胶以及未辐照的纳米纤维和明胶相比,在温度高于200°C时,经γ辐射处理的纳米纤维的化学发光发射强度增加。仅对于用20千戈瑞γ辐射剂量处理的牛和驴明胶纳米纤维,DMPO加合物的电子顺磁共振(EPR)信号能够识别长寿命的羟基自由基。用10千戈瑞γ辐射处理的明胶纳米纤维的需氧微生物、酵母、丝状真菌等的微生物污染低于药物和外用制剂所需的限度。辐照时观察到FTIR谱带的微小位移,表明不同来源明胶纳米纤维的二级结构得以保留且性质稳定。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/058c/11049530/9e8c09338b50/gels-10-00226-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/058c/11049530/56940369cb98/gels-10-00226-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/058c/11049530/805ae64ff524/gels-10-00226-g002a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/058c/11049530/8e9007693940/gels-10-00226-g003a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/058c/11049530/6dd49657a258/gels-10-00226-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/058c/11049530/c7312ed7fdf0/gels-10-00226-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/058c/11049530/2afaf0135980/gels-10-00226-g006a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/058c/11049530/9e8c09338b50/gels-10-00226-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/058c/11049530/56940369cb98/gels-10-00226-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/058c/11049530/805ae64ff524/gels-10-00226-g002a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/058c/11049530/8e9007693940/gels-10-00226-g003a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/058c/11049530/6dd49657a258/gels-10-00226-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/058c/11049530/c7312ed7fdf0/gels-10-00226-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/058c/11049530/2afaf0135980/gels-10-00226-g006a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/058c/11049530/9e8c09338b50/gels-10-00226-g007.jpg

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