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Kim CBY 19
Showing records 1 to 19 | Display all abstracts from Kim CBY122886 Development of Microcystoid Macular Degeneration in the Retina of Nonhuman Primates: Time-Course and Associated Pathologies
Lavery TCM
Current Eye Research 2025; 50: 93-100
124799 In vivo scanning laser fundus and high-resolution OCT imaging of retinal ganglion cell injury in a non-human primate model with an activatable fluorescent-labeled TAT peptide probe
Qiu X
PLoS ONE 2024; 19: e0313579
122886 Development of Microcystoid Macular Degeneration in the Retina of Nonhuman Primates: Time-Course and Associated Pathologies
Rasmussen CA
Current Eye Research 2025; 50: 93-100
124799 In vivo scanning laser fundus and high-resolution OCT imaging of retinal ganglion cell injury in a non-human primate model with an activatable fluorescent-labeled TAT peptide probe
Gammon ST
PLoS ONE 2024; 19: e0313579
122886 Development of Microcystoid Macular Degeneration in the Retina of Nonhuman Primates: Time-Course and Associated Pathologies
Katz AW
Current Eye Research 2025; 50: 93-100
124799 In vivo scanning laser fundus and high-resolution OCT imaging of retinal ganglion cell injury in a non-human primate model with an activatable fluorescent-labeled TAT peptide probe
Rasmussen C; Pisaneschi F
PLoS ONE 2024; 19: e0313579
122886 Development of Microcystoid Macular Degeneration in the Retina of Nonhuman Primates: Time-Course and Associated Pathologies
Kim CBY
Current Eye Research 2025; 50: 93-100
124799 In vivo scanning laser fundus and high-resolution OCT imaging of retinal ganglion cell injury in a non-human primate model with an activatable fluorescent-labeled TAT peptide probe
Kim CBY
PLoS ONE 2024; 19: e0313579
122886 Development of Microcystoid Macular Degeneration in the Retina of Nonhuman Primates: Time-Course and Associated Pathologies
Ver Hoeve JN
Current Eye Research 2025; 50: 93-100
124799 In vivo scanning laser fundus and high-resolution OCT imaging of retinal ganglion cell injury in a non-human primate model with an activatable fluorescent-labeled TAT peptide probe
Ver Hoeve J
PLoS ONE 2024; 19: e0313579
122886 Development of Microcystoid Macular Degeneration in the Retina of Nonhuman Primates: Time-Course and Associated Pathologies
Miller PE
Current Eye Research 2025; 50: 93-100
124799 In vivo scanning laser fundus and high-resolution OCT imaging of retinal ganglion cell injury in a non-human primate model with an activatable fluorescent-labeled TAT peptide probe
Millward SW
PLoS ONE 2024; 19: e0313579
122886 Development of Microcystoid Macular Degeneration in the Retina of Nonhuman Primates: Time-Course and Associated Pathologies
Sonnentag PJ
Current Eye Research 2025; 50: 93-100
124799 In vivo scanning laser fundus and high-resolution OCT imaging of retinal ganglion cell injury in a non-human primate model with an activatable fluorescent-labeled TAT peptide probe
Barnett EM
PLoS ONE 2024; 19: e0313579
122886 Development of Microcystoid Macular Degeneration in the Retina of Nonhuman Primates: Time-Course and Associated Pathologies
Christian BJ; Murphy CJ
Current Eye Research 2025; 50: 93-100
124799 In vivo scanning laser fundus and high-resolution OCT imaging of retinal ganglion cell injury in a non-human primate model with an activatable fluorescent-labeled TAT peptide probe
Nork TM; Kaufman PL
PLoS ONE 2024; 19: e0313579
122886 Development of Microcystoid Macular Degeneration in the Retina of Nonhuman Primates: Time-Course and Associated Pathologies
Piwnica-Worms DR
Current Eye Research 2025; 50: 93-100
124799 In vivo scanning laser fundus and high-resolution OCT imaging of retinal ganglion cell injury in a non-human primate model with an activatable fluorescent-labeled TAT peptide probe
Piwnica-Worms D
PLoS ONE 2024; 19: e0313579
122886 Development of Microcystoid Macular Degeneration in the Retina of Nonhuman Primates: Time-Course and Associated Pathologies
Gammon ST; Qiu X; Kaufman PL; Nork TM
Current Eye Research 2025; 50: 93-100
