NANOBOTS Smart Systems to Improve Therapeutics Delivery

alsaiari, shahad

10 1900

With the remarkable advancement in the nanoparticles (NPs)-based drug delivery systems (DDS) over the past several decades, the pharmacological properties associated with conventional free drugs delivery are improved. In this thesis, we report potential candidates for the next-generation NP-based DDS. While natural DDS are promising as they possess exceptional delivery mechanisms and selective targeting, synthetic DDS are more favorable for their low immunogenicity. Our developed natural DDS called magnetotactic bacterial cages (MBC), which is based on magnetotactic bacteria (MTB) as a guidable delivery vehicle for DNA functionalized gold nanoparticles (AuNPs). Loading DNA functionalized AuNPs in MTB aided in increasing the maximum-tolerated dose of DNA functionalized AuNPs and tackled issues related to DNA functionalized AuNPs stability and systemic delivery. Natural DDS hold great advantages; however, it is difficult to make complete prediction about their immunogenicity and toxicity on the basis of preclinical trials. Thus, we assessed the efficacy of synthetic NP-based DDS. Using inorganic platforms, we were able to develop the first visual monitoring system of bacteria-NPs interaction. The system offers simultaneous sensing and inhibition of bacteria in infected cells. The system is comprised of Au nanoclusters @lysozyme (AuNC@lys) colloids MSN loaded with antibacterial agents. The applicability of the inorganic DDS in the biomedical field has been limited by the high bioaccumulation risks. Hybrid materials combine the advantages of organic, inorganic and natural carriers, offering opportunities for enhanced stability, manipulating release behavior and combine two or more functions in a single platform. To further enhance the properties our inorganic DDS, we incorporated light-responsive organic ligands to silicabased NPs. Plasmid DNA was loaded on the light-responsive bridged silsesquioxane nanocomposites (BS NPs). Light irradiation was performed to reverse the surface charge of NPs via a photoreaction of the organic fragments (silsesquioxane) within the NPs, that resulted in the release of plasmid DNA in HeLa cancer cells. Finally, we assessed a new class of organic-inorganic DDS composed of inorganic metal ions and organic linkers, zeolite imidazolate frameworks-8 (ZIF-8). These NPs showed exceptional ability to entrap large cargo due to their tunable porosity and structural flexibility.

Drug Delivery

Nanoparticles

Nanobots

Cancer

Bacterial infection

Glow: A Novel

Vachon, Lauren Marie

29 July 2013

No description available.

Language Arts

Literature

Modern Literature

novel

glow

glowing

LGBT

queer

gay

banks

society

ownership

corruption

capitalism

new society

dystopia

dystopian

doomsday prepper

farm

farming

nanos

nanobots

barter

bartering

SCUM Manifesto

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