Recent advcances on plant-based bioengineered nanoparticles using secondary metabolites and their potential in lung cancer management

IF 5.2 Q1 FOOD SCIENCE & TECHNOLOGY Journal of Future Foods Pub Date : 2024-02-27 DOI:10.1016/j.jfutfo.2024.01.001
Atiqul Islam , Iqra Rahat , Anurag , Chandrababu Rejeeth , Devkant Sharma , Alok Sharma
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Abstract

As modern technology evolves, researchers are attempting to discover novel strategies for controlling deadly lung cancer. The use of secondary metabolites from plants as a precursor in the green synthesis of metallic nanoparticles has several advantages over the more common physiochemical synthesis as it includes, low cost, energy efficiency, biocompatibility, and therapeutic value. This review aims to investigate the effects of employing materials made from plant-based synthesis that contain metallic nanoparticles (Ag, Au, CuO, Se, ZnO, Pt, and SnO2) highlighting the advantages of their widespread application in lung cancer treatment of the next-generation. Despite a persisting prejudice about the application of nanotechnological products and medicine. The phytochemicals found in plants that are responsible for nanoparticle bio-reduction include flavones, terpenoids, sugars, ketones, aldehydes, carboxylic acids, and amides. These molecules range in size from small molecules to low molecular weight (MW > 5 000) compounds. Additionally, these plant extract biomolecules serve as a reducing and stabilizing agent, resulting in nanoparticles that are stable and have a regulated form. The focus of this review is on the biomolecule green nanoparticles used in the treatment of lung cancer found in the plant extract, which is thought to be the next generation of futuristic materials.

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利用次生代谢物的植物基生物工程纳米粒子的最新进展及其在治疗肺癌方面的潜力
随着现代科技的发展,研究人员正试图发现控制致命肺癌的新策略。与更常见的物理化学合成法相比,使用植物次生代谢物作为前体来绿色合成金属纳米粒子具有多种优势,包括成本低、能效高、生物相容性好和治疗价值高。本综述旨在研究使用由植物合成的含有金属纳米粒子(Ag、Au、CuO、Se、ZnO、Pt 和 SnO2)的材料所产生的效果,并强调其在下一代肺癌治疗中广泛应用的优势。尽管人们对纳米技术产品和医学的应用一直存在偏见。在植物中发现的植物化学物质对纳米粒子的生物还原起作用,其中包括黄酮类、萜类、糖类、酮类、醛类、羧酸类和酰胺类。这些分子的大小从小分子到低分子量(MW > 5 000)化合物不等。此外,这些植物萃取物生物大分子还可作为还原剂和稳定剂,从而形成稳定且形态规范的纳米颗粒。本综述的重点是植物提取物中用于治疗肺癌的生物大分子绿色纳米粒子,它被认为是下一代未来材料。
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