Bioengineering & Translational Medicine (Jul 2023)

Nanoporous electroporation needle for localized intracellular delivery in deep tissues

  • Gyeong Won Lee,
  • Byeongyeon Kim,
  • Tae Wook Lee,
  • Sang‐Gu Yim,
  • Ajeesh Chandrasekharan,
  • Hyewon Kim,
  • Sungyoung Choi,
  • Seung Yun Yang

DOI
https://doi.org/10.1002/btm2.10418
Journal volume & issue
Vol. 8, no. 4
pp. n/a – n/a

Abstract

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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.

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