Alexandros G .Sfakianakis,ENT,Anapafeos 5 Agios Nikolaos Crete 72100 Greece,00302841026182

Τετάρτη 25 Απριλίου 2018

Direct nanodrug delivery for tumor targeting subject to shear-augmented diffusion in blood flow

Abstract

The advent of multifunctional nanoparticle has enabled numerous innovative strategies in diagnostics, imaging, and cancer therapy. Despite the intense research efforts in developing new nanoparticles and surface bonding ligands, one major obstacle in achieving highly effective treatment, including minimizing detrimental side effects, is the inability to deliver drug-carrying nanoparticles from the injection point directly to the tumor site. The present study seeks to employ a direct nanodrug delivery methodology to feed multifunctional nanoparticles directly to tumor vasculatures, sparing healthy tissue. An important aspect to examine is how the interactions between such nanoparticles and relatively large red blood cells would affect the transport and delivery efficiency of nanodrugs. So, a novel computer simulation model has been developed to study nanoparticle transport in a representative human hepatic artery system, subject to shear-induced diffusion of nanoparticles due to hydrodynamic interactions with red blood cells. The particle-size effect was also evaluated by comparing the dynamics of nanoparticles with microspheres. Results from computer simulations under physiologically realistic conditions indicate that shear-induced diffusion has a significant effect on nanoparticle transport, even in large arteries. Nevertheless, as documented, direct nanodrug delivery to tumor-feeding hepatic artery branches is feasible.

Graphical abstract

Direct nanodrug delivery from injection point to tumor-feeding artery branch


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