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Multi-physics simulations for investigating the effect of electrode conditions on transscleral ocular iontophoresis for particulate drug delivery into ocular tissuesopen access

Authors
Lee, SangjunKim, Se-NaLee, ChanyChoy, Young BinIm, Chang-Hwan
Issue Date
May-2024
Publisher
SPRINGERNATURE
Keywords
Ocular iontophoresis; Transscleral drug delivery; Finite element method; Nernst-Planck equation; Electrode condition
Citation
BIOMEDICAL ENGINEERING LETTERS, v.14, no.3, pp 439 - 450
Pages
12
Indexed
SCIE
SCOPUS
KCI
Journal Title
BIOMEDICAL ENGINEERING LETTERS
Volume
14
Number
3
Start Page
439
End Page
450
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/217617
DOI
10.1007/s13534-024-00359-2
ISSN
2093-9868
2093-985X
Abstract
Purpose: Transscleral ocular iontophoresis has been proposed to deliver charged particulate drugs to ocular tissues effectively by transmitting a weak electrical current through the sclera. The electric fields formed are influenced by the electrode conditions, thus affecting the amount of particulate drugs delivered to the ocular tissues via iontophoresis. Computational simulation is widely used to simulate drug concentrations in the eye; therefore, reflecting the characteristics of the drugs in living tissues to the simulations is important for a more precise estimation of drug concentration. In this study, we investigated the effect of electrode conditions (location and size) on the efficacy of transscleral iontophoresis. Methods: We first determined the simulation parameters based on the comparison of the amount of drug in the sclera in the simulation and in vivo experimental results. The injection of the negatively charged nanoparticles into the cul-de-sac of the lower eyelid was simulated. The active electrode (cathode) was attached to the skin immediately above the injection site, while the return electrode (anode) was placed over the eyebrow. The drug concentration distribution in the eye, based on either the location or size of each electrode, was evaluated using the finite element method with the estimated simulation parameters. Results: Our results indicate that drug permeability varies depending on the location and the size of the electrodes. Conclusion: Our findings demonstrate that the determination of optimal electrode conditions is necessary to enhance the effectiveness of transscleral iontophoresis.
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