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Hua Y 11
Showing records 1 to 11 | Display all abstracts from Hua Y100594 Eye-specific 3D modeling of factors influencing oxygen concentration in the lamina cribrosa
Hua Y
Experimental Eye Research 2022; 220: 109105
99942 A Workflow for Three-Dimensional Reconstruction and Quantification of the Monkey Optic Nerve Head Vascular Network
Lee PY
Journal of Biomechanical Engineering 2022; 144:
100594 Eye-specific 3D modeling of factors influencing oxygen concentration in the lamina cribrosa
Lu Y
Experimental Eye Research 2022; 220: 109105
99942 A Workflow for Three-Dimensional Reconstruction and Quantification of the Monkey Optic Nerve Head Vascular Network
Hua Y; Brazile BL; Brazile BL
Journal of Biomechanical Engineering 2022; 144:
100594 Eye-specific 3D modeling of factors influencing oxygen concentration in the lamina cribrosa
Walker J; Lee PY
Experimental Eye Research 2022; 220: 109105
99942 A Workflow for Three-Dimensional Reconstruction and Quantification of the Monkey Optic Nerve Head Vascular Network
Yang B
Journal of Biomechanical Engineering 2022; 144:
100594 Eye-specific 3D modeling of factors influencing oxygen concentration in the lamina cribrosa
Tian Q
Experimental Eye Research 2022; 220: 109105
99942 A Workflow for Three-Dimensional Reconstruction and Quantification of the Monkey Optic Nerve Head Vascular Network
Wang L
Journal of Biomechanical Engineering 2022; 144:
100594 Eye-specific 3D modeling of factors influencing oxygen concentration in the lamina cribrosa
McDonald H
Experimental Eye Research 2022; 220: 109105
99942 A Workflow for Three-Dimensional Reconstruction and Quantification of the Monkey Optic Nerve Head Vascular Network
Sigal IA
Journal of Biomechanical Engineering 2022; 144:
100594 Eye-specific 3D modeling of factors influencing oxygen concentration in the lamina cribrosa
Pallares P; Ji F; Brazile BL; Brazile BL; Yang B; Voorhees AP; Sigal IA
Experimental Eye Research 2022; 220: 109105
