Bioengineering & Translational Medicine (Jul 2023)
Nanoporous electroporation needle for localized intracellular delivery in deep tissues
Abstract
Abstract The exogenous control of intracellular drug delivery has been shown to improve the overall efficacy of therapies by reducing nonspecific off‐target toxicity. However, achieving a precise on‐demand dosage of a drug in deep tissues with minimal damage is still a challenge. In this study, we report an electric‐pulse‐driven nanopore‐electroporation (nEP) system for the localized intracellular delivery of a model agent in deep tissues. Compared with conventional bulk electroporation, in vitro nEP achieved better transfection efficiency (>60%) with a high cell recovery rate (>95%) under a nontoxic low electroporation condition (40 V). Furthermore, in vivo nEP using a nanopore needle electrode with a side drug‐releasing compartment offered better control over the dosage release, time, and location of propidium iodide, which was used as a model agent for intracellular delivery. In a pilot study using experimental animals, the nEP system exhibited two times higher transfection efficiency of propidium iodide in the thigh muscle tissue, while minimizing tissue damage (<20%) compared to that of bulk electroporation. This tissue‐penetrating nEP platform can provide localized, safe, and effective intracellular delivery of diverse therapeutics into deep tissues in a controlled manner.
Keywords
