iPSC-Derived Retina Transplants Improve Vision in rd1 End-Stage Retinal-Degeneration Mice-Reference-Cited by-同舟云学术

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iPSC-Derived Retina Transplants Improve Vision in rd1 End-Stage Retinal-Degeneration Mice

Published:2017-04 Issue:4 Volume:8 Page:1112-1113
ISSN:2213-6711
Container-title:Stem Cell Reports
language:en
Short-container-title:Stem Cell Reports

Author:

Mandai Michiko,Fujii Momo,Hashiguchi Tomoyo,Sunagawa Genshiro A.,Ito Shin-ichiro,Sun Jianan,Kaneko Jun,Sho Junki,Yamada Chikako,Takahashi Masayo

Publisher

Elsevier BV

Subject

Cell Biology,Developmental Biology,Genetics,Biochemistry

Reference7 articles.

1. iPSC-derived retina transplants improve vision in rd1 end-stage retinal degeneration mice;Mandai;Stem Cell Reports,2017

2. Retinal transplantation-induced recovery of retinotectal visual function in a rodent model of retinitis pigmentosa;Sagdullaev;Invest. Ophthalmol. Vis. Sci.,2003

3. Retinal transplants restore visually evoked responses in rats with photoreceptor degeneration;Woch;Invest. Ophthalmol. Vis. Sci.,2001

4. Light-driven retinal ganglion cell responses in blind rd mice after neural retinal transplantation;Radner;Invest. Ophthalmol. Vis. Sci.,2001

5. Retinal transplants restore visual responses: trans-synaptic tracing from visually responsive site in the superior colliculus (SC) labels transplant neurons;Seiler;Eur. J. Neurosci.,2008

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1. New Perspectives in Stem Cell Transplantation and Associated Therapies to Treat Retinal Diseases: From Gene Editing to 3D Bioprinting;Stem Cell Reviews and Reports;2024-02-06

2. Application of patient-derived induced pluripotent stem cells and organoids in inherited retinal diseases;Stem Cell Research & Therapy;2023-11-27

3. Single-cell transcriptome analysis of xenotransplanted human retinal organoids defines two migratory cell populations of nonretinal origin;Stem Cell Reports;2023-05

4. Photoreceptor Cell Replacement Using Pluripotent Stem Cells: Current Knowledge and Remaining Questions;Cold Spring Harbor Perspectives in Medicine;2022-12-12

5. Nature-inspired saccadic-like electrical stimulation paradigm promotes sustained retinal ganglion cell responses by spatiotemporally alternating activation of contiguous multi-electrode patterns;Journal of Neural Engineering;2022-09-06

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