PURPOSE: To examine whether the diameters of retinal branch vessels of the human eye change during dark and light adaptation. METHODS: Images (S-VHS recordings) were obtained of the peripapillary region in 11 eyes of 11 healthy young adults (seven women, four men; mean age, 26.4 years). The images were made under a sequence of different illumination conditions (light, 30 minutes of darkness, light) with a scanning laser ophthalmoscope (SLO), using near-infrared illumination (785 nm). The recordings were then analyzed with a retinal vessel analyzer (RVA), and the caliber changes of one branch artery and one vein were measured in each eye. RESULTS: For arteries, the changes of diameter under different illumination conditions showed no clear trend, and comparisons between the different time sections revealed no statistically significant changes (P = 0.933; repeated measures ANOVA). There was a slight dilation (average, 0.9%; range, -3.9% to +5.1%) in darkness, and a return to baseline (range, -2.9% to + 2.9%) on restoring normal illumination. Veins during darkness showed a small but fairly consistent constriction (average, 1.5%; range -5.4% to +3.9%; significant P = 0.05), again returning to baseline (range, -2.1% to +2.6%) in normal light. CONCLUSIONS: The small changes of retinal branch vessel diameters under different light conditions probably have little influence on the possible changes of retinal blood flow in healthy subjects.
PURPOSE: To examine whether the diameters of retinal branch vessels of the human eye change during dark and light adaptation. METHODS: Images (S-VHS recordings) were obtained of the peripapillary region in 11 eyes of 11 healthy young adults (seven women, four men; mean age, 26.4 years). The images were made under a sequence of different illumination conditions (light, 30 minutes of darkness, light) with a scanning laser ophthalmoscope (SLO), using near-infrared illumination (785 nm). The recordings were then analyzed with a retinal vessel analyzer (RVA), and the caliber changes of one branch artery and one vein were measured in each eye. RESULTS: For arteries, the changes of diameter under different illumination conditions showed no clear trend, and comparisons between the different time sections revealed no statistically significant changes (P = 0.933; repeated measures ANOVA). There was a slight dilation (average, 0.9%; range, -3.9% to +5.1%) in darkness, and a return to baseline (range, -2.9% to + 2.9%) on restoring normal illumination. Veins during darkness showed a small but fairly consistent constriction (average, 1.5%; range -5.4% to +3.9%; significant P = 0.05), again returning to baseline (range, -2.1% to +2.6%) in normal light. CONCLUSIONS: The small changes of retinal branch vessel diameters under different light conditions probably have little influence on the possible changes of retinal blood flow in healthy subjects.
Authors: Peter L Nesper; Hee Eun Lee; Alaa E Fayed; Gregory W Schwartz; Fei Yu; Amani A Fawzi Journal: Invest Ophthalmol Vis Sci Date: 2019-02-01 Impact factor: 4.799