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Yazdani S. Editorial — Glaucomatous Optic Neuropathy: The Dark Side of the Moon. JOVR [Internet]. 2021Apr.29 [cited 2024Apr.25];16(2):148–150. Available from: https://knepublishing.com/index.php/JOVR/article/view/9076
https://doi.org/10.18502/jovr.v16i2.9076
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Shahin Yazdani
Shahin Yazdani
Ocular Tissue Engineering Research Center, Shahid Beheshti University of Medical Sciences, Tehran, Iran
Published Date
- Apr 29, 2021
Editorial — Glaucomatous Optic Neuropathy: The Dark Side of the Moon
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References
1. Flammer J, Orgül S, Costa VP, Orzalesi N, Krieglstein GK, Serra LM, Renard JP, Stefánsson E. The impact of ocular blood flow in glaucoma. Prog Retin Eye Res 2002;21:359– 393.
2. Buchanan RA, Williams TD. Intraocular pressure, ocular pulse pressure and body position. Am J Optom Physiol Opt 1985;62:59–62.
3. Linder BJ, Trick GL, Wolf ML. Altering body position affects intraocular pressure and visual function. Invest Ophthalmol Vis Sci 1988;29:1492–1497.
4. Mojon DS, Hess CW, Goldblum D, Fleischhauer J, Koerner F, Bassetti C, et al. High prevalence of glaucoma in patients with sleep apnea syndrome. Ophthalmology 1999;106:1009–1012.
5. Marcus DM, Costarides AP, Gokhale P, Papastergiou G, Miller JJ, Johnson MH, Chaudhary BA. Sleep disorders: a risk factor for normal-tension glaucoma? J Glaucoma 2001;10:177–183.
6. Gupta N, Yücel YH. Brain changes in glaucoma. Eur J Ophthalmol 2003;13:S32–S35.
7. Gupta N, Ang LC, Noël de Tilly L, Bidaisee L, Yücel YH. Human glaucoma and neural degeneration in intracranial optic nerve, lateral geniculate nucleus, and visual cortex. Br J Ophthalmol 2006;90:674–678.
8. Killer HE. Compartment syndromes of the optic nerve and open-angle glaucoma. J Glaucoma 2013;22:S19–S20.
9. Jonas JB. Role of cerebrospinal fluid pressure in the pathogenesis of glaucoma. Acta Ophthalmol 2011;89:505–514.
10. Killer HE, Jaggi GP, Flammer J, Miller NR. Is openangle glaucoma caused by impaired cerebrospinal fluid circulation around the optic nerve? Clin Exp Ophthalmol 2008;36:308–311.
11. Jonas JB, Königsreuther KA, Naumann GOH. Optic disc histomorphometry in normal eyes and eyes with secondary angle-closure glaucoma. II. Parapapillary region. Graefe’s Arch Clin Exp Ophthalmol 1992;230:134–139.
12. Downs JC, Girkin CA. Lamina cribrosa in glaucoma. Curr Opin Ophthalmol 2017;28:113–119. 13. Park HY, Jeon SH, Park CK. Enhanced depth imaging detects lamina cribrosa thickness differences in normal tension glaucoma and primary open-angle glaucoma. Ophthalmology 2012;119:10–20.
14. Kim M, Bojikian KD, Slabaugh MA, Ding L, Chen PP. Lamina depth and thickness correlate with glaucoma severity. Indian J Ophthalmol 2016;64:358–363.
15. Kim YW, Jeoung JW, Kim YK, Park KH. Clinical implications of in vivo lamina cribrosa imaging in glaucoma. J Glaucoma 2017;26:753–761.
16. Jonas JB, Holbach L. Central corneal thickness and thickness of the lamina cribrosa in human eyes. Invest Ophthalmol Vis Sci 2005;46:1275–1279.
17. Cruz NFS, Santos KS, Matuoka ML, Kasahara N. Translaminar pressure difference and ocular perfusion pressure in glaucoma patients with different optic disc sizes. J Ophthalmic Vis Res 2021;16:171–177.
18. Szczudlowski K. Glaucoma hypothesis: application of the law of Laplace. Med Hypotheses 1979;5:481–486.
19. Baneke AJ, Aubry J, Viswanathan AC, Plant GT. The role of intracranial pressure in glaucoma and therapeutic implications. Eye 2020;34:178–191.
2. Buchanan RA, Williams TD. Intraocular pressure, ocular pulse pressure and body position. Am J Optom Physiol Opt 1985;62:59–62.
3. Linder BJ, Trick GL, Wolf ML. Altering body position affects intraocular pressure and visual function. Invest Ophthalmol Vis Sci 1988;29:1492–1497.
4. Mojon DS, Hess CW, Goldblum D, Fleischhauer J, Koerner F, Bassetti C, et al. High prevalence of glaucoma in patients with sleep apnea syndrome. Ophthalmology 1999;106:1009–1012.
5. Marcus DM, Costarides AP, Gokhale P, Papastergiou G, Miller JJ, Johnson MH, Chaudhary BA. Sleep disorders: a risk factor for normal-tension glaucoma? J Glaucoma 2001;10:177–183.
6. Gupta N, Yücel YH. Brain changes in glaucoma. Eur J Ophthalmol 2003;13:S32–S35.
7. Gupta N, Ang LC, Noël de Tilly L, Bidaisee L, Yücel YH. Human glaucoma and neural degeneration in intracranial optic nerve, lateral geniculate nucleus, and visual cortex. Br J Ophthalmol 2006;90:674–678.
8. Killer HE. Compartment syndromes of the optic nerve and open-angle glaucoma. J Glaucoma 2013;22:S19–S20.
9. Jonas JB. Role of cerebrospinal fluid pressure in the pathogenesis of glaucoma. Acta Ophthalmol 2011;89:505–514.
10. Killer HE, Jaggi GP, Flammer J, Miller NR. Is openangle glaucoma caused by impaired cerebrospinal fluid circulation around the optic nerve? Clin Exp Ophthalmol 2008;36:308–311.
11. Jonas JB, Königsreuther KA, Naumann GOH. Optic disc histomorphometry in normal eyes and eyes with secondary angle-closure glaucoma. II. Parapapillary region. Graefe’s Arch Clin Exp Ophthalmol 1992;230:134–139.
12. Downs JC, Girkin CA. Lamina cribrosa in glaucoma. Curr Opin Ophthalmol 2017;28:113–119. 13. Park HY, Jeon SH, Park CK. Enhanced depth imaging detects lamina cribrosa thickness differences in normal tension glaucoma and primary open-angle glaucoma. Ophthalmology 2012;119:10–20.
14. Kim M, Bojikian KD, Slabaugh MA, Ding L, Chen PP. Lamina depth and thickness correlate with glaucoma severity. Indian J Ophthalmol 2016;64:358–363.
15. Kim YW, Jeoung JW, Kim YK, Park KH. Clinical implications of in vivo lamina cribrosa imaging in glaucoma. J Glaucoma 2017;26:753–761.
16. Jonas JB, Holbach L. Central corneal thickness and thickness of the lamina cribrosa in human eyes. Invest Ophthalmol Vis Sci 2005;46:1275–1279.
17. Cruz NFS, Santos KS, Matuoka ML, Kasahara N. Translaminar pressure difference and ocular perfusion pressure in glaucoma patients with different optic disc sizes. J Ophthalmic Vis Res 2021;16:171–177.
18. Szczudlowski K. Glaucoma hypothesis: application of the law of Laplace. Med Hypotheses 1979;5:481–486.
19. Baneke AJ, Aubry J, Viswanathan AC, Plant GT. The role of intracranial pressure in glaucoma and therapeutic implications. Eye 2020;34:178–191.