Macromolecular Carriers in Nanomedicine and Nanodevices

Abstract

Magnetic nano- and micro spheres coated with polymers that have the right combination of characteristics have enormous potential for applications in drug delivery, biological sensor technologies, pathogen diagnostics, antibody-antigen and intracellular targeting, and more recently, for nano-motors and other nano-devices. For in-vivo use in all of these applications, the surface properties of the macromolecular nanospheres or microspheres must be tailored to: 1) disperse them in physiological media, and 2) avoid immune response. Moreover, surfaces that can target specific cell populations or pathogens are also of great interest. This DARPA-AFOSR project has helped to address macromolecular concepts relative to tailoring the surface properties of biodegradable nanospheres and micro spheres for in-vivo blood-contacting applications. The project goals have been to define relationships among chemical composition, processing parameters, nanosphere sizes and size distributions, and surface structure. Our accomplishments include 1) a facile method for achieving magnetite-polylactide nanospheres that can be dispersed in aqueous media; 2) methods for functionalizing the termini of the hydrophilic brushes on the nanospheres in order to conjugate targeting moieties; 3) development of a nanosphere processing approach that yields nanospheres in the desired size range with a narrow distribution of sizes; and 4) maintenance of all of these characteristics with up to approximately 60 weight percent of magnetite incorporated into the nanospheres.

Document Details

Document Type

Technical Report

Publication Date

Feb 05, 2008

Accession Number

ADA476967

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