开发和评估利用果皮制成的环保洗手液配方

IF 3 Q3 MATERIALS SCIENCE, BIOMATERIALS International Journal of Biomaterials Pub Date : 2023-12-30 DOI:10.1155/2023/2516233
J. Verma, R. Mishra, A. Mazumdar, R. Singh, N. S. El-Gendy
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引用次数: 0

摘要

事实证明,使用洗手液是减少由多种有害病原体引起的传染病传播的一种常见而实用的方法。由于市场上的大多数洗手液都是含酒精的,经常使用会损伤皮肤并造成危害,因此需要不含酒精的洗手液。印度是世界上最大的水果生产国,水果消费后的一个主要问题是果皮,这会造成废物管理问题,并形成温室气体,导致空气污染,加剧气候变化问题。将这些废物转化为其他高附加值产品,并将其纳入生态友好型无酒精洗手液的配方中,可以解决这些问题,保护环境,造福社会,并有助于实现可持续发展目标。因此,本研究的重点是利用石榴、甜酸橙和柠檬果皮中各种生物活性成分的抗菌特性,配制出一种有效的天然无酒精洗手液。事实证明,果皮提取物和配制的消毒剂对致病性大肠杆菌和手部微生物具有相当强的抗菌活性。此外,还应用分子对接法研究了配体与蛋白质的相互作用模式,并预测了消毒植物化合物与 COVID-19、流感和肺炎病毒中目标蛋白质的结合构象和亲和力。结合亲和力和蛋白质-配体相互作用虚拟研究表明,消毒植物化合物通过氢键相互作用与目标蛋白质活性位点的氨基酸结合。因此,有可能利用这些潜在发现的基本结构,从果皮中配制出一种天然、不含酒精的洗手液,这种洗手液能有效抵抗病原菌和病毒。
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Development and Evaluation of an Eco-Friendly Hand Sanitizer Formulation Valorized from Fruit Peels
Hand sanitizer usage has proven to be a common and practical method for reducing the spread of infectious diseases which can be caused by many harmful pathogens. There is a need for alcohol-free hand sanitizers because most hand sanitizers on the market are alcohol-based, and regular use of them can damage the skin and can be hazardous. India is the world’s largest producer of fruits and one of the major problems after fruit consumption is their peels, causing waste management problems and contributing to the formation of greenhouse gases leading to air pollution and adding to the problem of climate change. Valorization of such wastes into other value-added products and their incorporation into formulations of eco-friendly alcohol-free hand sanitizers would solve these issues, save the environment, benefit the society, and help in achieving the sustainable development goals. Thus, this research focuses on formulating an effective natural alcohol-free hand sanitizer that harnesses the antimicrobial properties of the various types of bioactive components found in fruit peels of pomegranate, sweet lime, and lemon. The peel extracts and the formulated sanitizer proved considerable antimicrobial activity against the pathogenic Escherichia coli and hand microflora. Molecular docking was also applied to examine ligand-protein interaction patterns and predict binding conformers and affinity of the sanitizer phytocompounds towards target proteins in COVID-19, influenza, and pneumonia viruses. The binding affinities and the protein-ligand interactions virtual studies revealed that the sanitizer phytocompounds bind with the amino acids in the target proteins’ active sites via hydrogen bonding interactions. As a result, it is possible to formulate a natural, alcohol-free hand sanitizer from fruit peels that is effective against pathogenic germs and viruses using the basic structure of these potential findings.
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来源期刊
International Journal of Biomaterials
International Journal of Biomaterials MATERIALS SCIENCE, BIOMATERIALS-
CiteScore
4.30
自引率
3.20%
发文量
50
审稿时长
21 weeks
期刊最新文献
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