Abstract
Purpose: Traditional electrode-based neurostimulation methods can be invasive and raise concerns about long-term functionality. In contrast, magnetoelectric nanoparticles (MENPs) offer a non-invasive alternative by creating localized electric fields from external magnetic fields. This study explores the use of MENPs for wireless stimulation in retinal tissue using GCaMP6f mouse, assessing cellular responses to this magnetically induced stimulation. Previous research has shown MENPs' effectiveness in modulating neural activity with high precision, highlighting their potential in treating neurological disorders, along with their biocompatibility and controllability by external magnetic fields.