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Siesky B 18
Showing records 1 to 18 | Display all abstracts from Siesky B121919 Predicting the impact of retinal vessel density on retinal vessel and tissue oxygenation using a theoretical model
Fry BC
Mathematical biosciences 2024; 377: 109292
121358 The impact of different forms of exercise on intraocular pressure, blood flow, and the risk for primary open angle glaucoma
Sidoti M
European Journal of Ophthalmology 2024; 0: 11206721241296027
121919 Predicting the impact of retinal vessel density on retinal vessel and tissue oxygenation using a theoretical model
Gyurek C
Mathematical biosciences 2024; 377: 109292
121358 The impact of different forms of exercise on intraocular pressure, blood flow, and the risk for primary open angle glaucoma
Harris A
European Journal of Ophthalmology 2024; 0: 11206721241296027
121919 Predicting the impact of retinal vessel density on retinal vessel and tissue oxygenation using a theoretical model
Albright A
Mathematical biosciences 2024; 377: 109292
121358 The impact of different forms of exercise on intraocular pressure, blood flow, and the risk for primary open angle glaucoma
Coleman-Belin J
European Journal of Ophthalmology 2024; 0: 11206721241296027
121919 Predicting the impact of retinal vessel density on retinal vessel and tissue oxygenation using a theoretical model
Eckert G
Mathematical biosciences 2024; 377: 109292
121358 The impact of different forms of exercise on intraocular pressure, blood flow, and the risk for primary open angle glaucoma
Verticchio Vercellin A
European Journal of Ophthalmology 2024; 0: 11206721241296027
121919 Predicting the impact of retinal vessel density on retinal vessel and tissue oxygenation using a theoretical model
Coleman-Belin J
Mathematical biosciences 2024; 377: 109292
121358 The impact of different forms of exercise on intraocular pressure, blood flow, and the risk for primary open angle glaucoma
Antman G
European Journal of Ophthalmology 2024; 0: 11206721241296027
121919 Predicting the impact of retinal vessel density on retinal vessel and tissue oxygenation using a theoretical model
Verticchio A
Mathematical biosciences 2024; 377: 109292
121358 The impact of different forms of exercise on intraocular pressure, blood flow, and the risk for primary open angle glaucoma
Oddone F
European Journal of Ophthalmology 2024; 0: 11206721241296027
121919 Predicting the impact of retinal vessel density on retinal vessel and tissue oxygenation using a theoretical model
Verticchio A; Verticchio A
Mathematical biosciences 2024; 377: 109292
121358 The impact of different forms of exercise on intraocular pressure, blood flow, and the risk for primary open angle glaucoma
Carnevale C
European Journal of Ophthalmology 2024; 0: 11206721241296027
121919 Predicting the impact of retinal vessel density on retinal vessel and tissue oxygenation using a theoretical model
Siesky B
Mathematical biosciences 2024; 377: 109292
121358 The impact of different forms of exercise on intraocular pressure, blood flow, and the risk for primary open angle glaucoma
Carnevale C; Tessone I
European Journal of Ophthalmology 2024; 0: 11206721241296027
121919 Predicting the impact of retinal vessel density on retinal vessel and tissue oxygenation using a theoretical model
Harris A; Arciero J
Mathematical biosciences 2024; 377: 109292
121358 The impact of different forms of exercise on intraocular pressure, blood flow, and the risk for primary open angle glaucoma
Siesky B
European Journal of Ophthalmology 2024; 0: 11206721241296027
