These vascularized vROs exhibit improved function of optic nerve cells and, for the first time, form fully functional light-signaling pathways from the photoreceptors to the retinal ganglion cells.

Until now, it has been difficult to maintain retinal ganglion cells deep inside organoids over extended periods. The supply of nutrients and oxygen in the densely packed tissues is limited, leading to ...

The research team of Robyn Jamieson from Children’s Medical Research Institute, University of Sydney, Australia have now set up a lab-based testing platform to classify variants of uncertain ...

This article is based on a poster originally authored by Valeria Chichagova, Carol de Santis, William Atkin, Hannah Steward, and Carolina Gandara. The prevalence of non-treatable visual impairment due ...

Until now, it has been difficult to maintain retinal ganglion cells deep inside organoids over extended periods. The supply of nutrients and oxygen in the densely packed tissues is limited, leading to ...

Breakthrough in retinal organoid research as researchers create vascular networks that enhance survival and function of retinal cells. The scientists tested several methods for integrating the ...

Axol Bioscience Ltd. (Axol), a leading provider of induced pluripotent stem cell (iPSC) technologies for drug discovery and research, today announced that it has acquired the ophthalmology business of ...