Globally, millions of people are blind or have low vision due to lack of access to spectacles, resulting in reduced quality of life.
Refractive errors result in an unfocussed image falling on the retina, causing blurred vision of different types. Here are the common forms of refractive error. Select the right and left arrows to learn more.
Myopia is a distance refractive error that is increasing quickly in prevalence around the world.
As a result of lifestyle changes, including reduced time spent outdoors and increased near-work activities, the number of people with myopia has been estimated to rise from 1.4 billion in 2000 to 2.6 billion in 2020 and 3.4 billion in 2030.
In some Asian countries, 70% of those 17 or above are myopic, as are 97% of 19-year-old male army conscripts in South Korea.
Additionally, there is a more sinister side to myopia. High levels of myopia (-5.00 D or worse) increase the risk of sight-threatening conditions including retinal detachment, cataract and glaucoma. In addition, highly myopic eyes are at risk of myopic macular degeneration, a condition fast emerging as a leading cause of blindness in Asia and other parts of the world. There were an estimated 10 million people with vision impairment from MMD in 2015 of whom over 3 million were blind.
Approximately half of the world’s population, including children, live in towns and cities; by 2050, nearly 70% will live in urban areas (United Nations).
In 2010, just over 28% of the world’s population were affected by myopia (short-sightedness). This was predicted to rise to 34% by 2020 and nearly 50% by 2050 (Holden el al. 2016). This means the half the world’s population is predicted to have myopia by 2050.
There are significant health and economic implications from the rising prevalence of myopia. Managing the myopia burden requires a co-ordinated effort in prescribing and developing solutions to control onset and progression, and services to manage associated healthcare implications.
Refractive error may result in lost education and employment opportunities, lower productivity and impaired quality of life.
Uncorrected refractive errors, which affect persons of all ages and ethnic groups, are the main cause of vision loss worldwide.
In 2020, it was estimated that 157 million people had significant vision impairment (< 6/18 in the better eye) due to uncorrected refractive errors affecting distance vision, including at least three million people with blindness (< 3/60 in the better eye). In addition, 510 million people were without adequate correction for functional presbyopia in 2020.
The large majority of vision impairment in school aged children is due to uncorrected refractive error (Resnikoff et al., 2008).
The global economic cost in lost productivity due to avoidable distance vision impairment alone was estimated to be I$269 billion (approximately US$202 billion) each year in 2009
Presbyopia is the most common cause of vision impairment globally.
More than half of those requiring near-vision spectacles globally cannot access them. This is due to factors such as poverty, isolation, poor availability, poor access to eye health facilities and lack of awareness.
The 2020 Vision Loss Expert Group data estimates that in 2020 510 million people had presenting functional presbyopia, or blurred near vision.
As discussed in the Lancet Global Health Commission on Global Eye Health, data on effective coverage of refractive error will become increasingly available. Effective Refractive Error Coverage (eREC) was proposed and a methodology described (WHO World Report on Vision, 2019, McCormick et al., 2020).
The eREC assesses the proportion of people with refractive error who have received and use refractive error correction that achieves a specified VA threshold (e.g. 6/12); it takes into consideration the met, under-met and unmet refractive error need in a population.
This represents a major shift in the way refractive error is reported. Surveys previously focused only on counting unmet need (uncorrected refractive error) and excluded those who already had access to refractive error correction.
