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. 2000 Feb;84(2):138–143. doi: 10.1136/bjo.84.2.138

Long term refractive outcome in eyes of preterm infants with and without retinopathy of prematurity: comparison of keratometric value, axial length, anterior chamber depth, and lens thickness

M Y Choi 1, I K Park 1, Y S Yu 1
PMCID: PMC1723385  PMID: 10655187

Abstract

BACKGROUND/AIMS—A longitudinal study of premature infants was conducted to examine changes in refractive status and their relation with age and factors influencing the occurrence and degree of myopia. Identification of which of the various refractive factors play important parts in relation to myopia in premature infants was attempted.
METHODS—Under observation were 125 eyes in 65 patients who were found to demonstrate no signs of retinopathy of prematurity (ROP) or who had grade I or II ROP without or after cryotherapy. Cycloplegic refractions were conducted at 6 months, 3 years, and 6 years of age; at 6 years of age keratometric values, lens thicknesses, and axial lengths were recorded, and anterior chamber depths also were measured.
RESULTS—Myopia begins to appear at 6 months of age and its severity increases between the ages of 6 months and 3 years. The condition showed no further progress in subjects older than 3 years. Of the 104 eyes with ROP, those eyes with cicatricial retinopathy tended towards myopia and high myopia while there was no difference in the degree of myopia related to whether or not cryotherapy was conducted. At 6 years of age, the premature infants exhibited shallower anterior chambers, thicker lenses, and higher axial lengths when the degree of the myopia was higher. The keratometric values, however, appeared to bear no relation to the degree of the myopia.
CONCLUSION—These results suggest that the occurrence of myopia is related more strongly to whether or not there is cicatricial retinopathy than whether or not there is cryotherapy. Also, the degree of the myopia was found to be related to the depth of the anterior chamber, the thickness of the lens, and the change in axial length but not to keratometric value.



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Figure 1  .

Figure 1  

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Prevalence of myopia at 6 months, 3 years, and 6 years of age as related to the presence of retinopathy of prematurity (ROP). Group R-0: no ROP; group R-1: no cicatricial ROP with a history of ROP, regardless of treatment; group R-2: cicatricial ROP, grade II.

Figure 2  .

Figure 2  

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Prevalence of high myopia at 6 months, 3 years, and 6 years as related to the presence of retinopathy of prematurity (ROP). Group R-0: no ROP; group R-1: no cicatricial ROP with a history of ROP, regardless of treatment; group R-2: cicatricial ROP, grade II.

Figure 3  .

Figure 3  

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Changes of spherical equivalents in cycloplegic refraction as related to refractive status at 6 years of age. Group M-0: emmetropia or hyperopia; group M-1: myopia(<−6.0 D); group M-2: high myopia (⩾−6.0 D).

Selected References

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