Retinal Organoids

ISoOR is dedicated to advancing knowledge in retinal organoids, providing the latest research insights for scientists and clinicians. These complex, self-forming three-dimensional structures provide highly accurate in vitro models of the human retina, making retinal organoids invaluable tools for investigating vision loss and testing potential regenerative therapies. Through its comprehensive resources on retinal organoids, ISoOR ensures that the community has access to the most up-to-date information. The ISoOR also organizes Organoids conferences centered on retinal organoids, promoting collaboration and discussion among experts. Additionally, ISoOR's Research Highlights feature significant breakthroughs, keeping researchers informed about the latest developments in retinal organoids research.

Research Highlights

Hyaluronan Improves Photoreceptor Differentiation and Maturation in Human Retinal Organoids
[Acta Biomaterialia] Hyaluronan Boosts Maturation of Photoreceptors in Retinal Organoids.

Retinal Organoids

May 03, 2024
NR2E3 Loss Disrupts Photoreceptor Cell Maturation and Fate in Human Organoid Models of Retinal Development
[Journal Of Clinical Investigation] Loss of NR2E3 Alters Photoreceptor Development in Retinal Organoids.

Retinal Organoids

Apr 23, 2024
CRX Haploinsufficiency Compromises Photoreceptor Precursor Translocation and Differentiation in Human Retinal Organoids
[Stem Cell Research & Therapy] TEffect of haploinsufficiency of the CRX gene on migration and differentiation of photoreceptor cell precursors in human retinal organoids.

Retinal Organoids

Dec 05, 2023
Stage-Specific Dynamic Reorganization of Genome Topology Shapes Transcriptional Neighborhoods in Developing Human Retinal Organoids
[Cell Reports] Based on human retina-like organs, the spatiotemporal dynamics of genomic structure and its relationship with gene expression patterns were elucidated by high-resolution Hi-C mapping, p...

Retinal Organoids

Dec 02, 2023
Eye Lens Organoids Made Simple: Characterization of a New Three-Dimensional Organoid Model for Lens Development and Pathology
[Cells] The research established a mouse lens-like organoid with optical properties and monitored the spatiotemporal expression of key lens genes Jag1, Pax6, Prox1, Hsf4, and Cryab through multi-omics...

Retinal Organoids

Oct 18, 2023