Synthesis, structural, physical and chemical characterization of hybrid magnetic liposome nanocarriers of novel antioxidants for targeted drug delivery
ieee international magnetics conference(2017)
Abstract
Naturally occurring dietary flavonoids and curcuminoids are two classes of widely spread plant secondary metabolites that have received considerable attention on account of their antiamyloidogenic, antioxidative, and anti-inflammatory properties.
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Key words
structural characterization,physical characterization,chemical characterization,hybrid magnetic liposome nanocarriers,antioxidants,targeted drug delivery,naturally occurring dietary flavonoids,curcuminoids,plant secondary metabolites,antiamyloidogenic properties,antioxidative properties,antiinflammatory properties,lipid-based magnetic nanocarriers,high drug loading capacity,functionalization ability,blood brain barrier permeability,targeted nanomedicine,physiologically active substances,magnetic liposomal nanocarriers,neurodegenerative diseases,oxidative stress,low molecular mass hybrid metal-complexes,encapsulating ability,antioxidant activity,liposomal carriers,single crystal X-ray diffraction,FT-IR spectroscopy,UV-Visible spectroscopy,fluorometry-luminescence,heteronuclear NMR,TGA,ESI-MS,ICP-MS,XPS,EPR,SEM,TEM,magnetic susceptibility measurements,magnetic nanoparticles,magnetite core size,citric acid,magnetic cationic liposomes,MLV-DOTAP,hybrid ternary vanadium complexes,cerium complexes,V(IV)-curcumin-2,2'-bipy and Ce(III)-quercetin1,10-phen,metal-flavonoid complexes,magnetic liposomes,physical properties,chemical properties,solubility,bioavailability,toxicity,free flavonoids,magnetic targeting,Fe3O4
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