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A phase I clinical trial of human embryonic stem cell‐derived retinal pigment epithelial cells for early‐stage Stargardt macular degeneration: 5‐years' follow‐up

Shiying Li, Yong Liu, Lei Wang, Lei Wang, Fang Wang, Tongtao Zhao, Qiyou Li, Haiwei Xu, Xiaohong Meng, Jie Hao, Qi Zhou, Liu Wang, Liu Wang, Zhengqin Yin

2021Cell Proliferation76 citationsDOIOpen Access PDF

Abstract

OBJECTIVES: To evaluate the long-term biosafety and efficacy of transplantation of human embryonic stem cells-derived retinal pigment epithelial (hESC-RPE) cells in early-stage of Stargardt macular degeneration (STGD1). MATERIALS AND METHODS: hESC-RPE cells in one eye, whereas the fellow eye served as control. These patients were reassessed for a 60-month follow-up through systemic and ophthalmic examinations. RESULTS: None of the patients experienced adverse reactions systemically or locally, except for two who had transiently high intraocular pressure post-operation. Functional assessments demonstrated that all of the seven operated eyes had transiently increased or stable visual function 1-4 months after transplantation. At the last follow-up visit, two of the seven eyes showed visual function loss than the baseline; however, one of them showed a stable visual acuity when compared with the change of fellow eye. Obvious small high reflective foci in the RPE layer were displayed after the transplantation, and maintained until the last visit. Interestingly, three categories of patients who were classified based on autofluorescence, exhibited distinctive patterns of morphological and functional change. CONCLUSIONS: Subretinal transplantation of hESC-RPE in early-stage STGD1 is safe and tolerated in the long term. Further investigation is needed for choosing proper subjects according to the multi-model image and function assessments.

Topics & Concepts

Stargardt diseaseMacular degenerationTransplantationRetinal pigment epitheliumRetinalMedicineOphthalmologyVisual acuityRetinaClinical trialEmbryonic stem cellStem cellSurgeryBiologyPathologyNeuroscienceGeneGeneticsBiochemistryRetinal Development and DisordersPluripotent Stem Cells ResearchRetinal Diseases and Treatments