Common nano drug carriers include inorganic and polymeric nano-drug delivery nano drug carriers. Among them, the polymeric nanoparticles as drug delivery research earlier, has a small amount of polymer-based drug of nano carrier got some European and American countries the drug agency approved for clinical treatment. This is because the polymer nanoparticles good biocompatibility, toxicity, drug coated through physical or chemical bonding in its polymer nanoparticles, excreted polymeric carrier via degradation after their release. Common inorganic nano-drug delivery system include magnetic nanoparticles, mesoporous silica, Nano-carbon materials, quantum dots, and the inorganic nano-drug delivery system, in achieving the targeted drug delivery, controlled-release and sustained-release drugs, as well as targeted cancer therapy is a good prospect
And Nano Element Particles compared to, inorganic nano particles not only size, and morphology can controlled sex like surface area big, and unique of light, and electric, and magnetic nature gives its has potential of imaging developer, and target to conveying and collaborative drug treatment, function, makes its more for in cell within for drug conveying. main introduced Fe3O4 magnetic Nano grain, and contains drug Nano hydroxy apatite, and quantum points several new contains drug nano particles of typical preparation process and the exists of problem, And looks forward to the prospect of drug-loaded nanoparticles.
Biomedical uses of magnetic nano-particles is mainly due to its special magnetic properties, it is usually based on magnetic nano-particles for nuclear, organic or inorganic shell by surface modification coating formed by assembling composite particles with unique features. Nano magnetic target to drug carrier as a new drug carrier, can in specific of oriented mechanism Xia, will drug efficient of transport to target organ, makes drug in local played role, greatly to reduced has drug on body of HIV side effects. magnetic nano particles due to its good of Super Shun magnetic can makes its outside magnetic field of role Xia convenient to for magnetic separation and oriented, and due to magnetic nano particles can in magnetic field in the not was permanent magnetization, so in body both security and easily control. In addition, the magnetic nanoparticles also has suspension stability, functional group characteristics and biocompatibility, biodegradability and magnetic fluorescent double-functional advantages.
There are many kinds of magnetic materials, including Tungsten Carbide Cobalt Powder, chromium oxide, iron oxide, ferrite and iron nitride, including magnetic particles of Fe3O4 is the most widely used. Magnetic Fe3O4 nanoparticle size distribution around 1-100 nm, Nano-size particles with different from atoms is also different from the physical and chemical properties of the bulk materials [6], magnetic nanoparticles of quantum size effect and surface effects causes significant changes in magnetic properties. Nano-particle size d<16 NM, anisotropic thermal motion reduced and compared, easy magnetization direction without the law change, they generate superparamagnetic. And Fe3O4 has was proved nontoxic and has bio compatible sex, based on unique of physical, and chemical, and thermal and magnetic performance, Super Shun magnetic iron oxide nano particles has is big of potential application Yu variety bio medicine field, as cell mark, and target to and the as cell ecological research of tool for cell separation and purification, cell treatment; organization repair; drug transmission; NMR Imaging; cancer of fever treatment,. Fe3O4 become most biomedical research in the field and also the most promising Nano magnetic material.