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255 A N A L E S R A N M R E V I S T A F U N D A D A E N 1 8 7 9 Laura Morales An RANM. 2021;138(03): 246 - 255 ASSOCIATION BETWEEN VASCULAR AND STRUCTURAL PARAMETERS 2. Fernández-Vigo JI, Kudsieh B, Shi H, et al. Nor- mative Database of Peripapillary Vessel Density Measured by Optical Coherence Tomography Angiography and Correlation Study. Curr Eye Res. 2020; 45(11):1430-1437. 3. Manalastas PI, Zangwill L, Daga F, et al. The As- sociation Between Macula and ONH Optical Co- herence Tomography Angiography (OCTA) Vessel Densities in Glaucoma, Glaucoma Suspect and Healthy Eyes. J Glaucoma. 2018; 27(3): 227–232. 4. Kwon JM, Park K, Kim S, Shin J. Relationship between peripapillary vessel density and visual function based on Garway-Heath sectorization in open-angle glaucoma. Indian J Ophthalmol. 2021; 69(7):1825-1832. 5. Sakaguchi K, Higashide T, Udagawa S, Ohkubo S, Sugiyama K. Comparison of sectoral structure- function relationships in glaucoma: Vessel den- sity versus thickness in the peripapillary retinal nerve fiber layer. Investig Ophthalmol Vis Sci. 2017; 58:5251–62. 6. Pérez-García P, Morales-Fernández L, Fernán- dez-Vigo JI, et al. Repeatability of Macular and Optic Nerve Head Measurements by Optical Co- herence Tomography Angiography in Healthy Children. Curr Eye Res. 2021; 46(10):1574-1580. 7. Morales-Fernandez L, Jimenez-Santos M, Marti- nez-de-la-casa JM, et al. Diagnostic capacity of SD-OCT segmented ganglion cell complex versus retinal nerve fiber layer analysis for congenital glaucoma. Eye. 2018; 32(8):1338-1344. 8. Abdelrahman AM, Eltanamly RM, Elsanabary Z, Hassan LM. Optical coherence tomography angiography in juvenile open angle glaucoma: correlation between structure and perfusion. Int Ophthalmol. 2021; 41(3):883-889. 9. Beck A, Chang TC, Freedman S, et al. Section 1: Definition, classification, differential diag- nosis. World Glaucoma Association Consensus Series-9: Childhood Glaucoma. Amsterdam, The Netherlands: Kugler Publications; 2013. 3–10. 10. Holló G. Progressive Decrease of Peripapillary Angioflow Vessel Density During Structural and Visual Field Progression in Early Primary Open- angle Glaucoma. J Glaucoma. 2017; 26(7):661- 664. 11. Holló G. Comparison of Peripapillary OCT An- giography Vessel Density and Retinal Nerve Fiber Layer Thickness Measurements for Their Ability to Detect Progression in Glaucoma. J Glaucoma. 2018; 27(3):302-305. 12. Mansoori T, Sivaswamy J, Gamalapati JS, Ba- lakrishna N. Radial peripapillary capillary den- sity measurement using optical coherence to- mography angiography in early glaucoma. J Glaucoma. 2017; 26:438–443. 13. Srinivasan S, Addepali UK, Rao HL, Garudadri CS, Mandal AK. Spectral domain optical cohe- rence tomography in children operated for pri- mary congenital glaucoma. Br J Ophthalmol. 2014; 98:162–5. 14. Rao HL, Kadambi SV, Weinreb RN, et al. Diag- nostic ability of peripapillary vessel density measurements of optical coherence tomogra- phy angiography in primary open-angle and angle-closure glaucoma. Br J Ophthalmol. 2017; 101:1066–1070. 15. Holló G. Peripapillary capillary vessel density progression in advanced glaucoma: a case report. BMC Ophthalmol. 2019; 19(1):2. 16. Yarmohammadi A, Zangwill LM, Diniz-Filho A, et al. Relationship between optical coherence to- mography angiography vessel density and severi- ty of visual field loss in glaucoma. Ophthalmolo- gy. 2016;123:2498–508. 17. Song MK, Shin JW, Jo Y, Won HJ, Kook MS. Rela- tionship between peripapillary vessel density and visual field in glaucoma: a broken-stick model. Br J Ophthalmol. 2021; 105(7):964-969. 18. Khayrallah O, Mahjoub A, Ben Abdesslam N, et al. Optical coherence tomography angiogra- phy vessel density parameters in primary open- angle glaucoma. Ann Med Surg (Lond). 2021; 69:102671. 19. Akil H, Huang AS, Francis BA, Sadda SR, Chopra V. Retinal vessel density from optical coherence tomography angiography to differentiate early glaucoma, pre-perimetric glaucoma and normal eyes. PLoS One. 2017;12:e0170476. 20. Kwon JM, Park K, Kim S, Shin J. Relationship between peripapillary vessel density and visual function based on Garway-Heath sectorization in open-angle glaucoma. Indian J Ophthalmol. 2021; 69(7):1825-1832. 21. Rao HL, Pradhan ZS, Weinreb RN, et al. Rela- tionship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma. J Glaucoma. 2017; 26(6):548-554. 22. Fernández-Vigo JI, Kudsieh B, Shi H, et al. Nor- mative database and determinants of macular vessel density measured by optical coherence tomography angiography. Clin Exp Ophthalmol. 2020;48(1):44-52. CONFLICT OF INTEREST STATEMENT The author of this article declare that he has no conflict of interest with respect to what is expressed in this work. If you want to quote our article: Morales L. Association between vascular and structural parame- ters by optical coherence tomography angiography in primary congenital glaucoma. An RANM. 2021;138(03): 246– 255. DOI: 10.32440/ar.2021.138.03. org03

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