‘‘Development approach and application of magnetic nanoparticles and encapsulation method’’

Abstract

Today's varied and developing field is nanotechnology. Nanoparticles' Importance achieves the highest levels in pharmaceuticals, medicine, or diagnostics for medication delivery. Out of all the magnetic nanoparticles, which are new, simple to make, and have a variety of applications in biomedicine. Magnetic nanoparticles' distinctive properties display a variety of uses, including cancer treatment, customized drug administration, and illness diagnostics. An overview of this subject covers its background, benefits, and drawbacks. Magnetic nanoparticle preparation techniques and biological applications As well concentrates on the broad facts about magnetic nanoparticles and their potential Inorganic nanoparticles made by engineers have been intensively examined, explored, and integrated into biomedical area during the past few years because the platforms that have emerged from this work expand the use of the nanoparticles for specific theragnostic applications. Nano systems have the potential to create a theragnostic mode that combines imaging, targeting, and therapy in a way that can deliver individualized and tailored medicine while also integrating illness detection and treatment into a specific system. Due to their unique abilities. The use of nanoparticles with magnetic properties (MNPs) as therapeutic agents in magnetic fields such as imaging with magnetic resonance, therapy at high temperatures, bioseparation, genetic therapy, enzyme immobilisation, and controlled drug release has attracted growing attention in material science. MNPs have been decorated to increase their therapeutic and diagnostic effectiveness.