Retinal organoid with a microscopically small bead of DNA (yellow) and various retinal cell types (green, cyan, magenta). This image may be used only in connection with the contents of this press ...

Cross-section through part of a retinal organoid: On day 143 of their differentiation, the inner nuclear layer (bottom) contains the cell bodies of functionally distinct cells: those of the ...

Human induced pluripotent stem cell (iPSC)-derived retinal organoids are an emerging tool for the study of retinal development, disease modeling and drug discovery. In this webinar, we will focus on ...

Human induced pluripotent stem cell (iPSC)-derived retinal organoids are an emerging tool for the study of retinal development, disease modeling and drug discovery. In this webinar, we will focus on ...

We confirmed for the first time in a non-human primate model that embryonic stem-derived retinal organoid sheet ...

This research focuses on in vitro methods for evaluating ocular toxicity and identifying strategies for phenotypic rescue.

Dr. Roxana Redis: Retinal organoids have shown remarkable promise, especially in cases where traditional models fall short.