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Goldberg JL 29
Showing records 1 to 25 | Display all abstracts from Goldberg JL106335 Directly induced human retinal ganglion cells mimic fetal RGCs and are neuroprotective after transplantation in vivo
Luo Z
Stem cell reports 2022; 17: 2690-2703
105774 Nanomedicine and drug delivery to the retina: current status and implications for gene therapy
Tawfik M
Naunyn-Schmiedeberg's archives of pharmacology 2022; 395: 1477-1507
106408 Longitudinal in vivo Ca imaging reveals dynamic activity changes of diseased retinal ganglion cells at the single-cell level
Li L
Proceedings of the National Academy of Sciences of the United States of America 2022; 119: e2206829119
106111 Preferential Loss of Contrast Decrement Responses in Human Glaucoma
Norcia AM; Yakovleva A
Investigative Ophthalmology and Visual Science 2022; 63: 16
106335 Directly induced human retinal ganglion cells mimic fetal RGCs and are neuroprotective after transplantation in vivo
Chang KC
Stem cell reports 2022; 17: 2690-2703
106408 Longitudinal in vivo Ca imaging reveals dynamic activity changes of diseased retinal ganglion cells at the single-cell level
Feng X
Proceedings of the National Academy of Sciences of the United States of America 2022; 119: e2206829119
105774 Nanomedicine and drug delivery to the retina: current status and implications for gene therapy
Chen F; Goldberg JL
Naunyn-Schmiedeberg's archives of pharmacology 2022; 395: 1477-1507
106408 Longitudinal in vivo Ca imaging reveals dynamic activity changes of diseased retinal ganglion cells at the single-cell level
Fang F
Proceedings of the National Academy of Sciences of the United States of America 2022; 119: e2206829119
106111 Preferential Loss of Contrast Decrement Responses in Human Glaucoma
Jehangir N
Investigative Ophthalmology and Visual Science 2022; 63: 16
106335 Directly induced human retinal ganglion cells mimic fetal RGCs and are neuroprotective after transplantation in vivo
Wu S
Stem cell reports 2022; 17: 2690-2703
106408 Longitudinal in vivo Ca imaging reveals dynamic activity changes of diseased retinal ganglion cells at the single-cell level
Miller DA
Proceedings of the National Academy of Sciences of the United States of America 2022; 119: e2206829119
106111 Preferential Loss of Contrast Decrement Responses in Human Glaucoma
Goldberg JL
Investigative Ophthalmology and Visual Science 2022; 63: 16
105774 Nanomedicine and drug delivery to the retina: current status and implications for gene therapy
Sabel BA
Naunyn-Schmiedeberg's archives of pharmacology 2022; 395: 1477-1507
106335 Directly induced human retinal ganglion cells mimic fetal RGCs and are neuroprotective after transplantation in vivo
Sun C
Stem cell reports 2022; 17: 2690-2703
106408 Longitudinal in vivo Ca imaging reveals dynamic activity changes of diseased retinal ganglion cells at the single-cell level
Zhang S
Proceedings of the National Academy of Sciences of the United States of America 2022; 119: e2206829119
106335 Directly induced human retinal ganglion cells mimic fetal RGCs and are neuroprotective after transplantation in vivo
Xia X
Stem cell reports 2022; 17: 2690-2703
106408 Longitudinal in vivo Ca imaging reveals dynamic activity changes of diseased retinal ganglion cells at the single-cell level
Zhuang P
Proceedings of the National Academy of Sciences of the United States of America 2022; 119: e2206829119
106335 Directly induced human retinal ganglion cells mimic fetal RGCs and are neuroprotective after transplantation in vivo
Nahmou M; Bian M
Stem cell reports 2022; 17: 2690-2703
106408 Longitudinal in vivo Ca imaging reveals dynamic activity changes of diseased retinal ganglion cells at the single-cell level
Huang H
Proceedings of the National Academy of Sciences of the United States of America 2022; 119: e2206829119
106335 Directly induced human retinal ganglion cells mimic fetal RGCs and are neuroprotective after transplantation in vivo
Wen RR
Stem cell reports 2022; 17: 2690-2703
106408 Longitudinal in vivo Ca imaging reveals dynamic activity changes of diseased retinal ganglion cells at the single-cell level
Liu P
Proceedings of the National Academy of Sciences of the United States of America 2022; 119: e2206829119
106335 Directly induced human retinal ganglion cells mimic fetal RGCs and are neuroprotective after transplantation in vivo
Zhu Y
Stem cell reports 2022; 17: 2690-2703
106408 Longitudinal in vivo Ca imaging reveals dynamic activity changes of diseased retinal ganglion cells at the single-cell level
Liu J; Sredar N
Proceedings of the National Academy of Sciences of the United States of America 2022; 119: e2206829119
106335 Directly induced human retinal ganglion cells mimic fetal RGCs and are neuroprotective after transplantation in vivo
Shah S
Stem cell reports 2022; 17: 2690-2703
106408 Longitudinal in vivo Ca imaging reveals dynamic activity changes of diseased retinal ganglion cells at the single-cell level
Liu L
Proceedings of the National Academy of Sciences of the United States of America 2022; 119: e2206829119
