Fabrication and Characterization of a Flexible Thin-Film-Based Array of Microelectrodes for Corneal Electrical Stimulation

Author:

Hernández-Sebastián Natiely1ORCID,Carpio-Verdín Víctor Manuel1,Ambriz-Vargas Fabián1,Morales-Morales Francisco1,Benítez-Lara Alfredo2,Buenrostro-Jáuregui Mario Humberto3ORCID,Bojorges-Valdez Erik4ORCID,Barrientos-García Bernardino1

Affiliation:

1. Centro de Investigaciones en Óptica, A.C. Loma del Bosque 115, León 37150, Mexico

2. CONAHCYT, Centro de Investigaciones en Óptica, A.C. Loma del Bosque 115, León 37150, Mexico

3. Laboratorio de Neurociencias, Departamento de Psicología, Universidad Iberoamericana Ciudad de México, Ciudad de México 01219, Mexico

4. Departamento de Estudios en Ingeniería para la Innovación, Universidad Iberoamericana Ciudad de México, Ciudad de México 01219, Mexico

Abstract

The electric stimulation (ES) of the cornea is a novel therapeutic approach to the treatment of degenerative visual diseases. Currently, ES is delivered by placing a mono-element electrode on the surface of the cornea that uniformly stimulates the eye along the electrode site. It has been reported that a certain degree of correlation exists between the location of the stimulated retinal area and the position of the electrode. Therefore, in this study, we present the development of a sectioned surface electrode for selective electric stimulation of the human cornea. The proposed device consists of 16 independent microelectrodes, a reference electrode, and 18 contact pads. The microelectrodes have a size of 200 µm × 200 µm, are arranged in a 4 × 4 matrix, and cover a total stimulation area of 16 mm2. The proposed fabrication process, based on surface micromachining technology and flexible electronics, uses only three materials: polyimide, aluminum, and titanium, which allow us to obtain a simplified, ergonomic, and reproducible fabrication process. The fabricated prototype was validated to laboratory level by electrical and electrochemical tests, showing a relatively high electrical conductivity and average impedance from 712 kΩ to 1.4 MΩ at the clinically relevant frequency range (from 11 Hz to 30 Hz). Additionally, the biocompatibility of the electrode prototype was demonstrated by performing in vivo tests and by analyzing the polyimide films using Fourier transform infrared spectroscopy (FTIR). The resulting electrode prototype is robust, mechanically flexible, and biocompatible, with a high potential to be used for selective ES of the cornea.

Funder

Instituto de Innovación, Ciencia y Emprendimiento para la Competitividad para el Estado de Guanajuato

Publisher

MDPI AG

Subject

Electrical and Electronic Engineering,Mechanical Engineering,Control and Systems Engineering

Reference26 articles.

1. Mechanisms of electrical stimulation in eye diseases: A narrative review;Liu;Adv. Ophthalmol. Pract. Res.,2022

2. The role of electrical stimulation therapy in ophthalmic diseases;Fu;Graefe’s Arch. Clin. Exp. Ophthalmol.,2015

3. Role of electrical stimulation for rehabilitation and regeneration after spinal cord injury: An overview;Hamid;Eur. Spine J.,2008

4. Multi-channel transorbital electrical stimulation for effective stimulation of posterior retina;Lee;Sci. Rep.,2021

5. Whole-eye electrical stimulation therapy preserves visual function and structure in P23H-1 rats;Adam;Exp. Eye Res.,2016

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