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Drug delivery applications nanoparticles

This change was found to be reversible if the corona block is not too large and may become of interest for controlled drug delivery applications. It was also shown that these systems can host gold nanoparticles in the P2VP shell [93],... [Pg.196]

Such microgel nanoparticles with varying gelatin concentration and crosslinking density have a high potential for use in drug delivery applications. The gelatin nanoparticles can also be used as template particles for the formulation of apatite... [Pg.44]

Drug Delivery Applications and Biological Fate of Natural Polymeric Nanoparticles... [Pg.535]

Interfacial Polymerization Interfacial polymerization is a process whereby very thin films or membranes, on the order of nanometer thickness, are produced by reacting two monomers at the interface between two immiscible solutions [199], Nanoparticles [200] and aqueous core capsules with very thin membranes have been produced using this method for drug delivery applications. [Pg.1303]

N ew opportunities and future directions in the area of microchannel emulsification are most likely in the areas of scale-up [140,141], encapsulation/polymeriza-tion [123, 125, 158, 164—169], rapid quenching of droplets [135], and the use of emulsions as templates for uniform macroporous particle structure formation [172]. MicroChannel emulsification is also likely to open up new opportunities with systems that are highly shear-sensitive [120, 135, 173]. The ability to scale up the process will spur new markets that require high production rates and the production of monodisperse capsules and polymer particles. Such developments will be useful in drug delivery applications and will contribute to the further quantification of micro-particle properties. Additionally, the use of monodisperse emulsions as particle templates is likely to enhance the utility of highly functional nanoparticles in need of a deployment mechanism [172]. [Pg.147]

Tat-SH, containing a C-terminal cysteine. They also showed that the multifunctional nanoparticles are indeed interesting materials for drug delivery applications. [Pg.1274]

Ravindra, S., Antoine, F. M., Rajinikanth, V., Varaprasad, K., Nara3 na Reddy, N., Mohana Raju, K. (2012). Development and characterization of curcumin loaded silver nanoparticle hydrogels for antibacterial and drug delivery applications. I. Inora. Oraanomet. Polvm.. 22, 1254-1262. [Pg.751]

Modification of mesoporous silica nanoparticles using the bifunctional strategy, post-synthesis grafting, and backfilling strategy in order to make them suitable for drug delivery applications was reported (Lu et al. 2007). The modified nanoparticles were able to deliver the water insoluble drug camptothecin into different types of human cancer cells (Johansson et al. 2008). [Pg.419]

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