Pierre Zéboulon1, Pierre-Maxime Lévêque, Emmanuelle Brasnu, Vittoria Aragno, Pascale Hamard, Christophe Baudouin, Antoine Labbé. 1. *Department of Ophthalmology III, Quinze-Vingts Hospital †Quinze-Vingts Hospital, DHU Sight Restore, INSERM-DHOS CIC §INSERM, U968 ∥Sorbonne Universités, UPMC Univ Paris 06, INSERM, CNRS, Institut de la Vision ¶CNRS, UMR_7210 #Department of Ophthalmology, Ambroise Paré Hospital, APHP, University of Paris Saclay, Saclay, France ‡Department of Clinical Sciences, Ophthalmology Institute, University of Turin, Turin, Italy.
Abstract
PURPOSE: To measure the influence of surgically induced intraocular pressure lowering on peripapillary and macular vessel density in glaucoma patients using optical coherence tomography angiography. METHODS: Twenty-one eyes of 21 patients with open-angle glaucoma scheduled for filtering surgery were enrolled prospectively. Using optical coherence tomography angiography, vessel density was quantified within the peripapillary and macular regions, before and 1 month after filtering surgery. Change in vessel density was calculated for all analyzed areas. RESULTS: One month after surgery, the mean intraocular pressure reduction was 44.2%±4.8% (range, 15.2% to 77.1%). The mean change in vessel density for the whole peripapillary area was 0.065±0.88% (P=0.788). In the macular region, the mean change in vessel density was -0.022%±0.691% (P=0.405) with significant changes only within the inferotemporal area of patients with predominantly superior visual field defects (-1.86%±1.43%, P=0.024). CONCLUSIONS: Optical coherence tomography angiography allowed very limited measurement of intraocular pressure lowering-induced changes on the vessel density of the peripapillary and macular regions in glaucoma patients.
PURPOSE: To measure the influence of surgically induced intraocular pressure lowering on peripapillary and macular vessel density in glaucomapatients using optical coherence tomography angiography. METHODS: Twenty-one eyes of 21 patients with open-angle glaucoma scheduled for filtering surgery were enrolled prospectively. Using optical coherence tomography angiography, vessel density was quantified within the peripapillary and macular regions, before and 1 month after filtering surgery. Change in vessel density was calculated for all analyzed areas. RESULTS: One month after surgery, the mean intraocular pressure reduction was 44.2%±4.8% (range, 15.2% to 77.1%). The mean change in vessel density for the whole peripapillary area was 0.065±0.88% (P=0.788). In the macular region, the mean change in vessel density was -0.022%±0.691% (P=0.405) with significant changes only within the inferotemporal area of patients with predominantly superior visual field defects (-1.86%±1.43%, P=0.024). CONCLUSIONS: Optical coherence tomography angiography allowed very limited measurement of intraocular pressure lowering-induced changes on the vessel density of the peripapillary and macular regions in glaucomapatients.
Authors: Tun Wang Ch'ng; Kevin Gillmann; Kirsten Hoskens; Harsha L Rao; André Mermoud; Kaweh Mansouri Journal: Eye (Lond) Date: 2019-08-13 Impact factor: 3.775
Authors: Harsha L Rao; Zia S Pradhan; Min Hee Suh; Sasan Moghimi; Kaweh Mansouri; Robert N Weinreb Journal: J Glaucoma Date: 2020-04 Impact factor: 2.290