Full Article Biomedical Potential Of Plant Based Selenium

Full Article Biomedical Potential Of Plant Based Selenium Biomedical potential of plant based senps to treat cancer. cancer is reported as the second most leading cause of death worldwide, accounting for 9.6 million deaths in 2018. cancer is usually caused by mutations in proto oncogenes and key tumor suppressor genes. Unfortunately, the plant based senps failed to attain considerable attention in the pharmaceutical industry. however, a few studies were performed to explore the therapeutic potential of the senps against various cancer cells, microbial pathogens, viral infections, hepatoprotective actions, diabetic management, and antioxidant approaches.

Full Article Biomedical Potential Of Plant Based Selenium This review summarizes the recent progress in the biogenesis of plant based senps by using various plant species and the role of secondary metabolites on their biocompatible functioning and provides up to date information on the mechanistic actions that thesenps adopt to achieve their designated tasks. abstract selenium nanoparticles (senps) have advantages over other nanomaterials because of. Selenium is found in the form of both crystalline and amorphous polymorphic structures in nature. monoclinic and trigonal selenium are the crystalline forms. monoclinic selenium (m se) is red in color and contains rings of se 8. based on different packings, it exists in three allotropic forms (α, β and γ). Plant extracts also demonstrated potential for senps biosynthesis. for example, vitis vinifera fruit extract has shown to reduce selenious acid, producing elemental se. sharma et al. indicated that the biopolymer lignin, due to its phenolic group, is responsible for the reduction and stabilization of senps (figure 5a). Plant derived compounds such as phenolic acids, flavonoids, cinnamic acid, coumarin, sesquiterpenes, and tannins operate as efficient and strong stabilizing agents in the phyto synthesis of senps. selenium based on structural properties is classified in detail in table 1. the purpose of this study is to provide a thorough assessment of the.

Full Article Biomedical Potential Of Plant Based Selenium Plant extracts also demonstrated potential for senps biosynthesis. for example, vitis vinifera fruit extract has shown to reduce selenious acid, producing elemental se. sharma et al. indicated that the biopolymer lignin, due to its phenolic group, is responsible for the reduction and stabilization of senps (figure 5a). Plant derived compounds such as phenolic acids, flavonoids, cinnamic acid, coumarin, sesquiterpenes, and tannins operate as efficient and strong stabilizing agents in the phyto synthesis of senps. selenium based on structural properties is classified in detail in table 1. the purpose of this study is to provide a thorough assessment of the. Selenium nanoparticles (senps) captivate researchers due to their unique properties and promise in biomedicine. this review explores senp synthesis methods, emphasizing how they influence functionality in diverse applications. chemical, physical, and biological approaches tailor senp size, shape, and surface chemistry, impacting their biocompatibility and potential for drug delivery, imaging. Selenium nanoparticles (senps) captivate researchers due to their unique properties and promise in biomedicine. this review explores senp synthesis meth ods, emphasizing how they influence functionality in diverse applications. chemical, physical, and biological approaches tailor senp size, shape, and surface chemistry, impact ing their.

Full Article Biomedical Potential Of Plant Based Selenium Selenium nanoparticles (senps) captivate researchers due to their unique properties and promise in biomedicine. this review explores senp synthesis methods, emphasizing how they influence functionality in diverse applications. chemical, physical, and biological approaches tailor senp size, shape, and surface chemistry, impacting their biocompatibility and potential for drug delivery, imaging. Selenium nanoparticles (senps) captivate researchers due to their unique properties and promise in biomedicine. this review explores senp synthesis meth ods, emphasizing how they influence functionality in diverse applications. chemical, physical, and biological approaches tailor senp size, shape, and surface chemistry, impact ing their.

Full Article Biomedical Potential Of Plant Based Selenium