The other information provided by the present study is dynamic. To the best of our knowledge, we are the first to investigate the change in the morning and evening macular CC vascular perfusion area in POAG; we report that there were no statistically significant differences among eyes in any of the examined groups. The diurnal stability of superficial and deep-macular VD, and of the retinal thickness, has already been described.
28,29 The retinal vasculature, although reduced in eyes with POAG and ocular hypertension, may be unaffected by diurnal circadian changes, at least to the extent that can be assessed using OCTA. In fact, abnormal autoregulation of ocular blood flow in glaucoma was evidenced using different technologies, such as color/laser Doppler flowmetry,
30,31 whereas OCTA can only assess quantitatively the vessel caliber volume, not the volume of blood flow. It must be acknowledged, however, that choroidal thickness varies during the day in healthy eyes, being increased in the morning, probably because of diurnal blood pressure variations.
32 The morning to evening stability in CC perfusion assessed in the present study does not contradict the generally accepted choroidal metrics. In fact, the CC represents only the inner part of the choroid, whereas the deeper Sattler's and Haller's layers probably account for variations in diurnal thickness, as reported recently by Gabriel and Siegfrid.
19,33 These authors were the ones to make the effort to distinguish morphologically from the choroid, reporting that Sattler's layer alone was thicker in the morning. Furthermore, the evidence of choroidal-vessel enlargement (“pachyvessels”) in the pachychoroid spectrum of diseases suggests that the outer part of the choroid, more than the CC, is likely sensible to vascular dynamic changes or altered local circulation.
34 Consistently, Kinoshita et al. highlighted diurnal variation of luminal rather than stromal tissue metrics in the choroid reporting a significant positive correlation between mean arterial pressure and luminal tissue.
35 It is also known that the parasympathetic, the sympathetic and the trigeminal fibers innervate the choroid in mammals, but they are localized to the walls of the arteries and veins of the choroid, but not the choriocapillaris.
36 Therefore, it is possible that the CC remains a stable and independent vascular district within the choroid, whereas the outer portions of the choroid are mostly sensible to systemic pressure changes, diurnal fluctuations, and pathological alterations. To date, only Sarwar and collaborators
18 were able to disclose a minimal though statistically significant difference between morning and evening CC vascular density, using the same OCTA device, but with built-in software that has now been discontinued by the manufacturer because of low reproducibility.