Purpose: Applying hydraulic principles to compare the postoperative situation in non-penetrating deep sclerectomy (NPDS) and trabeculectomy (TE) as well as to attempt to explain unanswered aspects of the postoperative...Purpose: Applying hydraulic principles to compare the postoperative situation in non-penetrating deep sclerectomy (NPDS) and trabeculectomy (TE) as well as to attempt to explain unanswered aspects of the postoperative outflow. Methods: A primary linear mathematical model based on fluid mechanics and clinical data was used to evaluate possible postoperative outflow pathways.展开更多
Purpose: Glaucoma patients might display a different vessel reaction compared to normal subjects to stimuli such as short term increase of IOP. The Retinal Vessel Analyzer (RVA) allows to dynamically examine vessel re...Purpose: Glaucoma patients might display a different vessel reaction compared to normal subjects to stimuli such as short term increase of IOP. The Retinal Vessel Analyzer (RVA) allows to dynamically examine vessel reactions along a vessel segment. Different behavior in each location can thus be assessed. Methods: 9 untreated open angle glaucoma patients (mean age of 55.7展开更多
文摘Purpose: Applying hydraulic principles to compare the postoperative situation in non-penetrating deep sclerectomy (NPDS) and trabeculectomy (TE) as well as to attempt to explain unanswered aspects of the postoperative outflow. Methods: A primary linear mathematical model based on fluid mechanics and clinical data was used to evaluate possible postoperative outflow pathways.
文摘Purpose: Glaucoma patients might display a different vessel reaction compared to normal subjects to stimuli such as short term increase of IOP. The Retinal Vessel Analyzer (RVA) allows to dynamically examine vessel reactions along a vessel segment. Different behavior in each location can thus be assessed. Methods: 9 untreated open angle glaucoma patients (mean age of 55.7
