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Difference between revisions of Frequently Asked Questions/Myopia/Quotes
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Frequently Asked Questions/Myopia/Quotes (view source)
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Frequency distribution of refractive errors in four populations of Israeli students. Boys in religious schools, who do much sustained near-work, have a much higher prevalence of myopia than do girls in religious schools or than either girls or boys in secular schools (replotted from Zylbermann et al., 1993.)}} | Frequency distribution of refractive errors in four populations of Israeli students. Boys in religious schools, who do much sustained near-work, have a much higher prevalence of myopia than do girls in religious schools or than either girls or boys in secular schools (replotted from Zylbermann et al., 1993.)}} | ||
https://www.sciencedirect.com/science/article/pii/S0896627304004933#BIB235 | |||
{{clear}} | {{clear}} | ||
==Infant myopia== | ==Infant myopia== | ||
{{quote|“1. The manifest refractions of 72 children were tracked at regular intervals starting soon after birth and continuing for 9-16 y. Near-retinoscopy, a non-cycloplegic refraction technique, was used for children aged 0-3 y, and non-cycloplegic distance retinoscopy after 3 y. Almost 1400 refractions have been obtained from this group. 2. During the first 6 months the mean spherical equivalent of the group is negative by a small amount. By one year of age the children have an average of 0.5 D of hyperopia which they maintain until 8 y. After 11 y the mean spherical equivalent once again becomes negative, largely because some of the children are becoming myopic. 3. The dispersion of refractions is largest shortly after birth and smallest at 6 y, reflecting the process of emmetropization during the preschool years. 4. The spherical equivalent at 1 y is most predictive of later spherical equivalents. Correlations of spherical equivalent at 1 y with other ages range from 0.43 during the period of emmetropization to 0.76 at some later ages. 5. Children with a negative spherical equivalent in infancy in conjunction with either against-the-rule astigmatism or no astigmatism are more likely to be myopic at school age than children with infantile with-the-rule astigmatism. 6. There is an increased incidence of myopia in children with two (compared to zero or one) myopic parents.”}} | {{quote|“1. The manifest refractions of 72 children were tracked at regular intervals starting soon after birth and continuing for 9-16 y. Near-retinoscopy, a non-cycloplegic refraction technique, was used for children aged 0-3 y, and non-cycloplegic distance retinoscopy after 3 y. Almost 1400 refractions have been obtained from this group. 2. During the first 6 months the mean spherical equivalent of the group is negative by a small amount. By one year of age the children have an average of 0.5 D of hyperopia which they maintain until 8 y. After 11 y the mean spherical equivalent once again becomes negative, largely because some of the children are becoming myopic. 3. The dispersion of refractions is largest shortly after birth and smallest at 6 y, reflecting the process of emmetropization during the preschool years. 4. The spherical equivalent at 1 y is most predictive of later spherical equivalents. Correlations of spherical equivalent at 1 y with other ages range from 0.43 during the period of emmetropization to 0.76 at some later ages. 5. Children with a negative spherical equivalent in infancy in conjunction with either against-the-rule astigmatism or no astigmatism are more likely to be myopic at school age than children with infantile with-the-rule astigmatism. 6. There is an increased incidence of myopia in children with two (compared to zero or one) myopic parents.”}} | ||