Organoids were cultured from healthy donor iPSC sources and differentiated using the human iPSC-derived Cerebral Organoid ...

Localization and distribution of Müller glia cells (CRALBP, red) in retinal organoids. Nuclear DAPI staining (blue). Image Credit: Newcells Biotech Newcells' team works with customers to design ...

Newcells’ iPSC-derived retinal organoids offer a unique in vitro platform for disease modeling and investigating drug efficacy. These retinal organoids are fully stratified and present all of the ...

Explore how researchers use organoids to understand tissue regeneration and develop novel therapies. A series of rodent experiments showed that even with abundant food and water, personal space is ...

These retinal "organoids" are sheets of light-detecting cells, derived from stem cells that can be nudged to develop into any tissue in the body. Related: Scientists develop 'crying' model of ...

Researchers use human pluripotent stem cells to create retinal organoids—3D cellular models of the retina—to study eye development, normal vision, and degenerative diseases. They also use these ...

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 ...

We used patient iPSC-derived retinal pigment epithelium (RPE) and retinal organoids for a common RP2 nonsense mutation that causes X-linked retinitis pigmentosa, to test if translational read ...

A new way of delivering a corrected version of the faulty gene that causes Usher syndrome—PCDH15—restored hearing in mouse models and showed potential in retinal organoids and nonhuman ...