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He J 18
Showing records 1 to 18 | Display all abstracts from He J106496 Asynchronous feature regularization and cross-modal distillation for OCT based glaucoma diagnosis
Song D
Computers in Biology and Medicine 2022; 151: 106283
106379 Transplanted human induced pluripotent stem cells- derived retinal ganglion cells embed within mouse retinas and are electrophysiologically functional
Vrathasha V
iScience 2022; 25: 105308
106055 The Topographic Relationship Between Choroidal Microvascular Dropout and Glaucomatous Damage in Primary Angle-Closure Glaucoma
Tan L
Translational vision science & technology 2022; 11: 20
106496 Asynchronous feature regularization and cross-modal distillation for OCT based glaucoma diagnosis
Li F
Computers in Biology and Medicine 2022; 151: 106283
106379 Transplanted human induced pluripotent stem cells- derived retinal ganglion cells embed within mouse retinas and are electrophysiologically functional
Nikonov S
iScience 2022; 25: 105308
106055 The Topographic Relationship Between Choroidal Microvascular Dropout and Glaucomatous Damage in Primary Angle-Closure Glaucoma
Ma D; He J
Translational vision science & technology 2022; 11: 20
106379 Transplanted human induced pluripotent stem cells- derived retinal ganglion cells embed within mouse retinas and are electrophysiologically functional
Bell BA
iScience 2022; 25: 105308
106496 Asynchronous feature regularization and cross-modal distillation for OCT based glaucoma diagnosis
Li C
Computers in Biology and Medicine 2022; 151: 106283
106379 Transplanted human induced pluripotent stem cells- derived retinal ganglion cells embed within mouse retinas and are electrophysiologically functional
He J
iScience 2022; 25: 105308
106496 Asynchronous feature regularization and cross-modal distillation for OCT based glaucoma diagnosis
Xiong J
Computers in Biology and Medicine 2022; 151: 106283
106055 The Topographic Relationship Between Choroidal Microvascular Dropout and Glaucomatous Damage in Primary Angle-Closure Glaucoma
Wang H
Translational vision science & technology 2022; 11: 20
106379 Transplanted human induced pluripotent stem cells- derived retinal ganglion cells embed within mouse retinas and are electrophysiologically functional
Bungatavula Y
iScience 2022; 25: 105308
106055 The Topographic Relationship Between Choroidal Microvascular Dropout and Glaucomatous Damage in Primary Angle-Closure Glaucoma
Chen S
Translational vision science & technology 2022; 11: 20
106496 Asynchronous feature regularization and cross-modal distillation for OCT based glaucoma diagnosis
He J
Computers in Biology and Medicine 2022; 151: 106283
106055 The Topographic Relationship Between Choroidal Microvascular Dropout and Glaucomatous Damage in Primary Angle-Closure Glaucoma
Lin Y
Translational vision science & technology 2022; 11: 20
106379 Transplanted human induced pluripotent stem cells- derived retinal ganglion cells embed within mouse retinas and are electrophysiologically functional
Uyhazi KE
iScience 2022; 25: 105308
106496 Asynchronous feature regularization and cross-modal distillation for OCT based glaucoma diagnosis
Zhang X; Qiao Y
Computers in Biology and Medicine 2022; 151: 106283
106379 Transplanted human induced pluripotent stem cells- derived retinal ganglion cells embed within mouse retinas and are electrophysiologically functional
Murthy Chavali VR
iScience 2022; 25: 105308
