Impedance-based non-invasive assay for ocular damage prediction on in vitro 3D reconstructed human corneal epithelium
Authors
Manuel Chacón, Manuel Sánchez, Natalia Vázquez, Mairobi Persinal-Medina, Sergio Alonso-Alonso, Begoña Baamonde, Jose F. Alfonso, Luis Fernández-Vega-Cueto, Jesús Merayo-Lloves, Álvaro Meana
Institution
Universidad de Oviedo
Country
Spain
Year
2022
Journal
Bioelectrochemistry
Abstract
Reconstructed human cornea-like epithelium (RhCE) holds unprecedented promise for toxicological analyses and the replacement of animal use. However, current standards to evaluate potential ocular irritancy present a major downfall, the need to invasively alter tissue samples to evaluate cell viability. In this study, the applicability of impedance analysis was validated by monitoring the change in cell capacitance during tissue maturation and before and after chemical application using coupled electrodes. Our results indicate that cell maturation on RhCE models can be evaluated during model production using capacitance sensing offering a faster and simpler quality control criteria for RhCE model usability. Additionally, cell capacitance resulted to be more sensitive in detecting slight cell damages than methods based on cell metabolism, and when integrated into OECD-approved testing strategies, capacitance sensing performed as good as currently accepted methodologies displaying 66% sensitivity, 100% specificity and 83% accuracy when evaluated at 300 Hz. In summary, a quantitative analysis to predict in vivo ocular irritation based on changes in RhCE capacitance by impedance spectroscopy is suggested. This methodology represents a non-invasive and non-destructive alternative that would enable the monitoring of reversible effects or repeated dose toxicity.