Electrophysiological consequences of retinal hypoxia

Keyphrases

• Hypoxia 100%
• Photoreceptor 100%
• Retinal Hypoxia 100%
• Retina 60%
• Metabolism 40%
• PaO2 40%
• Retinal Function 40%
• Human Disease 20%
• Human Studies 20%
• Electrical Signal 20%
• High-flow Oxygen 20%
• Electrical Activity 20%
• Retinal Response 20%
• Oxygen Consumption 20%
• Retinal Circulation 20%
• Retinal Tissue 20%
• Inner Retina 20%
• Elevated Intraocular Pressure 20%
• Outer Retina 20%
• Oxygen Distribution 20%
• Retinal pigment Epithelium 20%
• Human Retina 20%
• Electrical Response 20%
• Systemic Hypoxia 20%
• Tissue PO2 20%
• Effective Regulation 20%
• Light Adaptation 20%
• Retinal Electrophysiology 20%
• Arterial Oxygen Tension 20%
• Choroidal Circulation 20%

Medicine and Dentistry

• Hypoxia 100%
• Photoreceptor 71%
• Oxygen Consumption 14%
• Retina Blood Flow 14%
• Retinal Pigment Epithelium 14%
• Human Study 14%
• Light Adaptation 14%
• Cat Study 14%
• Intraocular Pressure 14%
• Electrophysiology 14%
• Diseases 14%

Neuroscience

• Photoreceptor 100%
• Metabolic Pathway 40%
• Retinal Pigment Epithelium 20%
• Intraocular Pressure 20%
• Electrophysiology 20%