9^th World Drug Delivery Summit

Biography

Biography: Alessandro Parodi

Abstract

Biological barriers maintain the homeostasis between different compartments of the body and regulate the transport of every therapeutic administered systemically. Upon intravenous injection, the tumor vascular barrier, the tumor extracellular matrix and the tumor cell membrane barriers represent major obstacles hampering the delivery of the drug to the target. In this work we showed advanced surface modification that enable nanoparticles to overcome all these barriers allowing for a more efficient targeting of tumor microenvironment at a systemic, tissue and cellular level. Proteolipid surfaces coatings directly purified form the cell membrane of leukocytes allowed for the targeting and negotiation of tumor vascular barrier. Proteolytic coatings derived from the stem of the pineapple were efficient in increasing particle penetration and diffusion in tumor extracellular matrix in order to target hypoxic tumor region. Finally polymer science enabled synthetic carriers with pH responsiveness and ability to escape the endolysosomal compartment after internalization and to deliver a payload within the cytoplasm of the cells. A complete characterization of the different systems was performed through chemical technique and imaging analysis. Fluorescent and confocal microscopy was used to characterize the systems in vitro, while intravital microscopy allowed for determining particle targeting and bioactivity. In this work we showed different techniques to negotiate and overcome several biological barriers that stand and between the administration point and the target.