Future Eye Related Disease due to Myopia
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Published
Feb 28, 2023
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Keywords
Myopia, Disease, glaucoma, cataracts, retinal tears, retinal detachment, myopic maculopathy
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How to Cite
AGUSTIAWAN, Referano.
Future Eye Related Disease due to Myopia.
International Journal of Retina, [S.l.], v. 6, n. 1, feb. 2023.
ISSN 2614-8536.
Available at: <https://ijretina.com/index.php/ijretina/article/view/231>. Date accessed: 29 oct. 2024.
doi: https://doi.org/10.35479/ijretina.2023.vol006.iss001.231.
Section
Editorial by Invitation
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
References
1. Holden, B., et al. "Myopia: a growing global problem with sight-threatening complications." community eye health journal. 2015;28: 35.
2. Holden BA, Fricke TR, Wilson DA, Jong M, Naidoo KS, Sankaridurg P, et al. Global Prevalence of Myopia and High Myopia and Temporal Trends from 2000 through 2050. Ophthalmology. 2016;123(5):1036–42.
3. Humaniora. "Fenomena Myopia Booming Kurang Disadari oleh Masyarakat Indonesia." 2023, from https://mediaindonesia.com/humaniora/531810/fenomena-myopia-booming-kurang-disadari-oleh-masyarakat-indonesia.
4. Wang J, Li Y, Musch DC, et al. Progression of Myopia in School-Aged Children After COVID-19 Home Confinement. JAMA Ophthalmol. 2021;139(3):293–300. doi:10.1001/jamaophthalmol.2020.6239
5. Farbrother JE et al. Linkage analysis of the genetic loci for high myopia on 18p, 12q, and 17q in 51 UK Families. Investigative ophthalmology & visual science 2014;45: 2879–2885.
6. Kiefer, A. K. et al. Genome-wide analysis points to roles for extracellular matrix remodeling, the visual cycle, and neuronal development in myopia. PLoS Genet 9, 2013.
7. Lim LT et al. Impact of parental history of myopia on the development of myopia in mainland China school-aged children. Ophthalmology and Eye Diseases 2014;6: 31–35.
8. Fledelius HC, Goldschmidt E, Haargaard B and Jensen H. Human parallels to experimental myopia? A literature review on visual deprivation. Acta Ophthalmol 2014.
9. Flitcroft DI. Emmetropisation and the aetiology of refractive errors. Eye 2014;28: 169–179.
10. Morgan IG, Ohno-Matsui K and Saw SM. Myopia. Lancet 2012;379: 1739–1748
11. French AN, Ashby, RS, Morgan IG and Rose KA. Time outdoors and the prevention of myopia. Exp Eye Res 2013;114: 58–68.
12. Yazar, S. et al. Myopia is associated with lower vitamin D status in young adults. Invest Ophthalmol Vis Sci 2014; doi:10.1167/iovs.14-14589.
13. Read SA, Collins MJ and Vincent SJ. Light exposure and physical activity in myopic and emmetropic children. Optom Vis Sci 2014;91: 330–341.
14. Lim LS et al. Dietary factors, myopia, and axial dimensions in children. Ophthalmol 2010;117: 993–997.
15. Haines, C. "Predicting Future Myopia from Axial Length.2022." from https://www.myopiaprofile.com/predict-future-myopia-axial-length/.
16. Rozema J, Dankert S, Iribarren R, Lanca C, Saw S-M. Axial Growth and Lens Power Loss at Myopia Onset in Singaporean Children. Investigative Ophthalmology & Visual Science. 2019;60(8):3091-3099.
17. Zadnik K, Sinnott LT, Cotter SA, et al. Prediction of Juvenile-Onset Myopia. JAMA Ophthalmology.2015;133(6):683-689.
18. Mutti DO, Hayes JR, Mitchell GL, et al. Refractive error, axial length, and relative peripheral refractive error before and after the onset of myopia. Invest Ophthalmol Vis Sci. 2007;48(6):2510-2519.
19. Tideman JWL, Polling JR, Vingerling JR, et al. Axial length growth and the risk of developing myopia in European children. Acta Ophthalmol. 2018;96(3):301-309.
20. Sanz Diez P, Yang L-H, Lu M-X, Wahl S, Ohlendorf A. Growth curves of myopia-related parameters to clinically monitor the refractive development in Chinese schoolchildren. Graefes Arch Clin Exp Ophthalmol. 2019;257(5):1045-1053.
21. He X, Zou H, Lu L, Zhao R, Zhao H, Li Q, Zhu J. Axial length/corneal radius ratio: association with refractive state and role on myopia detection combined with visual acuity in Chinese schoolchildren. PLoS One. 2015 Feb 18;10(2):e0111766.
22. Tideman JWL, Polling JR, Jaddoe VWV, Vingerling JR, Klaver CCW. Environmental Risk Factors Can Reduce Axial Length Elongation and Myopia Incidence in 6- to 9-Year-Old Children. Ophthalmology. 2019 Jan;126(1):127-136
23. Saw SM, Gazzard G, Shih-Yen EC, Chua WH. Myopia and associated pathological complications.Ophthalmic Physiology and Optics. 2005;25(5):381–91.
24. Mitchell P, Hourihan F, Sandbach J, Wang JJ. The relationship between glaucoma and myopia: the Blue Mountains Eye Study. Ophthalmology 1999;106(10):2010–5.
25. Marcus MW, de Vries MM, Junoy Montolio FG, Jansonius NM. Myopia as a risk factor for open-angle glaucoma: a systematic review and meta-analysis. Ophthalmology 2011;118(10):1989–94 e2.
26. Younan C, Mitchell P, Cumming RG, Rochtchina E, Wang JJ. Myopia and incident cataract and cataract surgery: the Blue Mountains Eye Study. Invest Ophthalmol Vis Sci 2002;43(12):3625–32.
27. Flitcroft DI. The complex interactions of retinal, optical and environmental factors in myopia aetiology. Prog Retin Eye Res 2012;31(6):622–60.
28. Ohno-Matsui K, Kawasaki R, Jonas JB, Cheung CM, Saw SM, Verhoeven VJ, et al. International photographic classification and grading system for myopic maculopathy. Am J Ophthalmol2015;159(5):877–83 e7.
2. Holden BA, Fricke TR, Wilson DA, Jong M, Naidoo KS, Sankaridurg P, et al. Global Prevalence of Myopia and High Myopia and Temporal Trends from 2000 through 2050. Ophthalmology. 2016;123(5):1036–42.
3. Humaniora. "Fenomena Myopia Booming Kurang Disadari oleh Masyarakat Indonesia." 2023, from https://mediaindonesia.com/humaniora/531810/fenomena-myopia-booming-kurang-disadari-oleh-masyarakat-indonesia.
4. Wang J, Li Y, Musch DC, et al. Progression of Myopia in School-Aged Children After COVID-19 Home Confinement. JAMA Ophthalmol. 2021;139(3):293–300. doi:10.1001/jamaophthalmol.2020.6239
5. Farbrother JE et al. Linkage analysis of the genetic loci for high myopia on 18p, 12q, and 17q in 51 UK Families. Investigative ophthalmology & visual science 2014;45: 2879–2885.
6. Kiefer, A. K. et al. Genome-wide analysis points to roles for extracellular matrix remodeling, the visual cycle, and neuronal development in myopia. PLoS Genet 9, 2013.
7. Lim LT et al. Impact of parental history of myopia on the development of myopia in mainland China school-aged children. Ophthalmology and Eye Diseases 2014;6: 31–35.
8. Fledelius HC, Goldschmidt E, Haargaard B and Jensen H. Human parallels to experimental myopia? A literature review on visual deprivation. Acta Ophthalmol 2014.
9. Flitcroft DI. Emmetropisation and the aetiology of refractive errors. Eye 2014;28: 169–179.
10. Morgan IG, Ohno-Matsui K and Saw SM. Myopia. Lancet 2012;379: 1739–1748
11. French AN, Ashby, RS, Morgan IG and Rose KA. Time outdoors and the prevention of myopia. Exp Eye Res 2013;114: 58–68.
12. Yazar, S. et al. Myopia is associated with lower vitamin D status in young adults. Invest Ophthalmol Vis Sci 2014; doi:10.1167/iovs.14-14589.
13. Read SA, Collins MJ and Vincent SJ. Light exposure and physical activity in myopic and emmetropic children. Optom Vis Sci 2014;91: 330–341.
14. Lim LS et al. Dietary factors, myopia, and axial dimensions in children. Ophthalmol 2010;117: 993–997.
15. Haines, C. "Predicting Future Myopia from Axial Length.2022." from https://www.myopiaprofile.com/predict-future-myopia-axial-length/.
16. Rozema J, Dankert S, Iribarren R, Lanca C, Saw S-M. Axial Growth and Lens Power Loss at Myopia Onset in Singaporean Children. Investigative Ophthalmology & Visual Science. 2019;60(8):3091-3099.
17. Zadnik K, Sinnott LT, Cotter SA, et al. Prediction of Juvenile-Onset Myopia. JAMA Ophthalmology.2015;133(6):683-689.
18. Mutti DO, Hayes JR, Mitchell GL, et al. Refractive error, axial length, and relative peripheral refractive error before and after the onset of myopia. Invest Ophthalmol Vis Sci. 2007;48(6):2510-2519.
19. Tideman JWL, Polling JR, Vingerling JR, et al. Axial length growth and the risk of developing myopia in European children. Acta Ophthalmol. 2018;96(3):301-309.
20. Sanz Diez P, Yang L-H, Lu M-X, Wahl S, Ohlendorf A. Growth curves of myopia-related parameters to clinically monitor the refractive development in Chinese schoolchildren. Graefes Arch Clin Exp Ophthalmol. 2019;257(5):1045-1053.
21. He X, Zou H, Lu L, Zhao R, Zhao H, Li Q, Zhu J. Axial length/corneal radius ratio: association with refractive state and role on myopia detection combined with visual acuity in Chinese schoolchildren. PLoS One. 2015 Feb 18;10(2):e0111766.
22. Tideman JWL, Polling JR, Jaddoe VWV, Vingerling JR, Klaver CCW. Environmental Risk Factors Can Reduce Axial Length Elongation and Myopia Incidence in 6- to 9-Year-Old Children. Ophthalmology. 2019 Jan;126(1):127-136
23. Saw SM, Gazzard G, Shih-Yen EC, Chua WH. Myopia and associated pathological complications.Ophthalmic Physiology and Optics. 2005;25(5):381–91.
24. Mitchell P, Hourihan F, Sandbach J, Wang JJ. The relationship between glaucoma and myopia: the Blue Mountains Eye Study. Ophthalmology 1999;106(10):2010–5.
25. Marcus MW, de Vries MM, Junoy Montolio FG, Jansonius NM. Myopia as a risk factor for open-angle glaucoma: a systematic review and meta-analysis. Ophthalmology 2011;118(10):1989–94 e2.
26. Younan C, Mitchell P, Cumming RG, Rochtchina E, Wang JJ. Myopia and incident cataract and cataract surgery: the Blue Mountains Eye Study. Invest Ophthalmol Vis Sci 2002;43(12):3625–32.
27. Flitcroft DI. The complex interactions of retinal, optical and environmental factors in myopia aetiology. Prog Retin Eye Res 2012;31(6):622–60.
28. Ohno-Matsui K, Kawasaki R, Jonas JB, Cheung CM, Saw SM, Verhoeven VJ, et al. International photographic classification and grading system for myopic maculopathy. Am J Ophthalmol2015;159(5):877–83 e7.