PVA based nanofiber containing cellulose modified with graphitic carbon nitride/nettles/trachyspermum accelerates wound healing

Danial Nemati; Mohsen Ashjari; Hamid Rashedi

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PVA based nanofiber containing cellulose modified with graphitic carbon nitride/nettles/trachyspermum accelerates wound healing

机译：PVA based nanofiber containing cellulose modified with graphitic carbon nitride/nettles/trachyspermum accelerates wound healing

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Today,bacterial cellulose has received a great deal of attention for its medical applications due to its unique structural properties such as high porosity,good fluid uptake,good strength,and biocompatibility.This study aimed to fabricate and study bacterial cellulose/graphitic carbon nitride/nettles/trachyspermum nanocomposite by immersion and PVA/BC/g-C3N4/nettles/trachyspermum nanofiber by electrospinning method as a wound dressing.The g-C3N4 and g-C3N4 solution were synthesized and then were characterized using Fourier transform infrared,X-ray diffraction,Zeta Potential,and scanning electronic microscope analyzes.Also,the antibacterial properties of the synthesized materials were proved by gram-positive and gram-negative bacteria using the minimum inhibitory concentration method.Besides,the toxicity,migration,and cell proliferation results of the synthesized materials on NIH 3T3 fibroblasts were evaluated using MTT and scratch assays and showed that the BC/PVA/g-C3N4/nettles/trachyspermum composite not only had no toxic effect on cells but also contributed to cell survival,cell migration,and proliferation has done.To evaluate the mechanical properties,a tensile strength test was performed on PVA/BC/g-C3N4/nettles/trachyspermum nanofibers,and the results showed good strength of the nanocomposite.In addition,in vivo assay,the produced nanofibers were used to evaluate wound healing,and the results showed that these nanofibers were able to accelerate the wound healing process so that after 14 days,the wound healing percentage showed 95%.Therefore,this study shows that PVA/BC/g-C3N4/nettles/trachyspermum nanofibers effectively inhibit bacterial growth and accelerate wound healing.

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来源
《Biotechnology Progress》 |2021年第6期|共16页
作者
Danial Nemati; Mohsen Ashjari; Hamid Rashedi;
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作者单位

Department of Chemical Engineering,Faculty of Engineering,University of Kashan,Kashan,Iran;

School of Chemical Engineering,College of Engineering,University of Tehran,Tehran,Iran;

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原文格式 PDF
正文语种英语
中图分类生物科学;
关键词
bacterial cellulose; cytotoxicity; graphitic carbon nitride; wound dressing;

PVA based nanofiber containing cellulose modified with graphitic carbon nitride/nettles/trachyspermum accelerates wound healing

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