Authors
Elizabeth E Capowski, Kayvan Samimi, Steven J Mayerl, M Joseph Phillips, Isabel Pinilla, Sara E Howden, Jishnu Saha, Alex D Jansen, Kimberly L Edwards, Lindsey D Jager, Katherine Barlow, Rasa Valiauga, Zachary Erlichman, Anna Hagstrom, Divya Sinha, Valentin M Sluch, Xitiz Chamling, Donald J Zack, Melissa C Skala, David M Gamm
Publication date
2019/1/1
Journal
Development
Volume
146
Issue
1
Pages
dev171686
Publisher
The Company of Biologists Ltd
Description
Numerous protocols have been described for producing neural retina from human pluripotent stem cells (hPSCs), many of which are based on the culture of 3D organoids. Although nearly all such methods yield at least partial segments of retinal structure with a mature appearance, variabilities exist within and between organoids that can change over a protracted time course of differentiation. Adding to this complexity are potential differences in the composition and configuration of retinal organoids when viewed across multiple differentiations and hPSC lines. In an effort to understand better the current capabilities and limitations of these cultures, we generated retinal organoids from 16 hPSC lines and monitored their appearance and structural organization over time by light microscopy, immunocytochemistry, metabolic imaging and electron microscopy. We also employed optical coherence tomography and …
Scholar articles
EE Capowski, K Samimi, SJ Mayerl, MJ Phillips… - Development, 2019