The following article is presented to you by Pablo Sanz and Miguel García
Disclaimer: For all general public, some elements may require deeper knowledge.
As noted earlier, Myopia is one of the world leading causes for visual impairment, but what is the aetiology ? What is the background facts involving its development?
Since the earliest studies on myopia, several theories about its etiology have been enunciated, but nowadays we can mainly forge them into two flowlines: genes (1,2) and environment (3).
Scientific data and experience indicate that there is a very complex mixture of factors and both lines seems to be important.
However, there is no clear answer to why myopia is developed. Only in the last decades, there is an increased understanding about development and onset of myopia, that is, more detailed knowledge of what, how, when, where and why myopia develops.
Simplifying, the answers to these questions may be found in the following factors:
There is a genetic predisposition to myopia in some individuals but it often requires of environmental help to being developed. Higher concordances in myopia prevalence have been found between monozygotic twins than in dizygotic ones, and even more linked than child-parent relationships.(4) Furthermore, it appears that Han ethnicity is more prone to develop Myopia. (5)
However, as genetic factors can take a large shot, we would explain them in deep in another article.
Genetic Myopia (Not available yet)
- Educational level
The educational level have been correlated with myopia quite soon. Already in 1892, Hermann Cohn stated that the prevalence of myopia is related to the educational level (6).
Following this trend, we can find this study from Morgan et al, in Inuits, that reveals the same correlation.(7)
This educational level by itself, is not the original cause of myopia, and we should discern between the conglomerate factors that define it. Which seems to be related with more myopia development, as proposed, more indoor activity, near work activities…(8)
- Near work and eye accommodation
It has been described that myopic children show higher degrees of accommodative lag (you are focusing on one object, but your eyes actually focus on a point behind it). This accommodative mismatch produces hyperopic retinal blur, which could provide a stimulus for myopic eye growth. (9)
There are still many unanswered questions and details to resolve about myopia-accommodation link. For this reason it is necessary to carry out more longitudinal and randomized research trials to confirm that near work is a real risk factor for myopia development. (10)
Accommodation and Myopia (Not available yet)
- Peripheral refraction
Animal studies have shown that the peripheral retina plays an important role in determining eye growth, moreover there appears to be different theories (11) about how it works in humans, for more information, refer to the following article.
- Outdoor exposures
Several studies have reported the association between outdoor time and lower likelihood of myopic refraction. The main idea behind this factor is the amelioration of myopia development due to the high levels of light (pupil construction, increased depth of focus, increased dopamine release).(12)
Following this trend of time spend outdoors, several authors claimed a relationship between Urban vs Rural and population density, where rural lifestyle with more time outdoors can be related to less myopic prevalence. Similar effect has been described to physical activity, the most the better to avoid myopia, but before claiming them to be truly related factors, a deeper understanding is required of outdoors as can be not risk “per se” if not only incentives for more outdoor time.(13)
The premature children are more predispose to develop refractive errors, such as Myopia.(14), and seems to have shallower anterior chambers.
As you have seen, myopia is a complex trait: several variables, factors and small details are involved on its development.
A small proportion of myopia are clearly inherited. These appear at an early age, and reach high values. However, the most common myopia occurs at school age, and does not reach these high values. In this type of nearsightedness, it seems that there may be a small genetic contribution, but environmental factors seem to be the most important, and this is what is contributing to the increase in myopia worldwide.
Based on the scientific findings, currently, myopia control is focused taking all these factors into account: genetics, outdoor exposure, new optical designs, pharmaceutical agents, etc.
Stay up-to-date, Keep on reading and…
(1) Goldschmidt E, Jacobsen N. Genetic and environmental effects on myopia development and progression. Eye. 2014;28(2):126-133. doi:10.1038/eye.2013.254. (2) Mohamed Dirani, Matthew Chamberlain, Sri N. Shekar, Amirul F. M. Islam, Pam Garoufalis, Christine Y. Chen, Robyn H. Guymer, Paul N. Baird; Heritability of Refractive Error and Ocular Biometrics: The Genes in Myopia (GEM) Twin Study. Invest. Ophthalmol. Vis. Sci. 2006;47(11):4756-4761. doi: 10.1167/iovs.06-0270. (3) Ramessur R, Williams KM, Hammond CJ. Risk factors for myopia in a discordant monozygotic twin study. Ophthalmic & Physiological Optics. 2015;35(6):643-651. doi:10.1111/opo.12246. (4) Rong SS, Chen LJ, Pang CP. Myopia Genetics—The Asia-Pacific Perspective. Asia-Pacific J Ophthalmol. 2016;5(4):236-244. doi:10.1097/APO.0000000000000224. (5) Prevalence of visual impairment and refractive errors among different ethnic groups in schoolchildren in Turpan, China. Ophthalmic Physiol Opt 2015; 35: 263–270. doi: 10.1111/opo.12193 (6) Schaeffel F. Myopia V What is Old and What is New ? 2016;93(9):1022-1030. (7) Morgan RW, Speakman JS, Grimshaw SE. Inuit myopia: an environmentally induced “epidemic”? Canadian Medical Association Journal. 1975;112(5):575-577. (8) , . Myopia and international educational performance. Ophthalmic Physiol Opt 2013; 33: 329–338. doi: 10.1111/opo.12040 (9) Gwiazda J, Thorn F, Bauer J, Held R. Myopic children show insufficient accommodative response to blur. Invest Ophthalmol Vis Sci. Mar 1993;34(3):690-694. (10) Huang HM, Chang DST, Wu PC (2015) The Association between Near Work Activities and Myopia in Children—A Systematic Review and Meta-Analysis. PLOS ONE 10(10): e0140419. doi: 10.1371/journal.pone.0140419 (11) Atchison DA, Rose R. The Possible Role of Peripheral Refraction in Development of Myopia. 2016;93(9):1042-1044. doi:10.1097/OPX.0000000000000979. (12) Ngo C, Saw SM, Dharani R, Flitcroft I. Does sunlight (bright lights) explain the protective effects of outdoor activity against myopia? Ophthalmic Physiol Opt. 2013;33(3):368-372. doi:10.1111/opo.12051. (13) Guggenheim JA, Northstone K, McMahon G, et al. Time Outdoors and Physical Activity as Predictors of Incident Myopia in Childhood: A Prospective Cohort Study. Investigative Ophthalmology & Visual Science. 2012;53(6):2856-2865. doi:10.1167/iovs.11-9091. (14) Quinn GE Dobson V Kivlin J . Prevalence of myopia between 3 months and 5 1/2 years in preterm infants with and without retinopathy of prematurity: Cryotherapy for Retinopathy of Prematurity Cooperative Group. Ophthalmology. 1998;105(7):1292–1300, , , , & .