Abstract
Purpose To evaluate the microvascular changes at the peripapillary area and optic disc in glaucomatous eyes after IOP lowering by trabeculectomy using OCT angiography. Methods 25 patients with primary open-angle glaucoma (POAG) who underwent trabeculectomy by a single surgeon were evaluated. Using optical coherence tomography angiography, vessel density was evaluated within the whole image, peripapillary, nasal region, and temporal region. Peripapillary vessel density was measured preoperative, 1 week, 1 month, and 3 months postoperatively in POAG patients. Reversal of vessel density was calculated for all analyzed areas. Results The intraocular pressure (IOP) decreased from 30.92 ± 6.32 mmHg (range, 18–44) to 12.64 ± 3.35 mmHg (range, 8–22) at 3-month postoperatively. Compared with the preoperative baseline value, whole vessel density, peripapillary vessel density (PvD), and PvD in nasal region and temporal region were significantly increased at 3-month postoperatively. The magnitude of the vessel density reversal was significantly associated with higher preoperative IOP and greater IOP reduction. Conclusions A significant increase in the peripapillary vessel density was demonstrated after trabeculectomy using OCT angiography. The reversal of peripapillary vessel density was associated with higher preoperative IOP and greater IOP reduction. Our postoperative results suggest that the ocular perfusion impairment by high intraocular pressure can be improved by IOP reduction, and the reversal of microvasculature may contribute to the rate of glaucoma progression.
Highlights
Our postoperative results suggest that the ocular perfusion impairment by high intraocular pressure can be improved by IOP reduction and the reversal of microvasculature may contribute to the rate of glaucoma progression
We demonstrated the reversal of peripapillary vessel density (PvD) after trabeculectomy in patients with glaucoma
It seems that reduced ocular perfusion induced by high IOP can be improved by IOP reduction, and the vessel density reversal may contribute to glaucoma progression
Summary
Intraocular pressure- (IOP-) related stress and strain play a central role in glaucoma [1, 2], the potential role of the ocular blood flow in the pathophysiology of glaucoma has been debated and extensively investigated [3, 4]. Optical coherence tomography angiography (OCTA) is a new imaging technique that enables visualization of the retinal and choroidal microvasculatures. It enables visualization of retinal and choroidal blood flow that are not detectable with conventional angiography. Recent studies using OCTA in which the majority of study population had primary open-angle glaucoma (POAG) demonstrated decreased optic disc and peripapillary perfusion in glaucoma eyes [14, 15]. The reversal of the microvasculature in glaucoma has so far not been investigated using OCT angiography. E present study evaluates the microvascular changes at the peripapillary area in glaucomatous eyes after IOP lowering by trabeculectomy using OCT angiography
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