Titre : | Compensation for Vitreous Chamber Elongation in Infancy and Childhood |
Type de document : | article de périodique |
Auteurs : | Donald Mutti ; Loraine T. Sinnott ; Karla Zadnik |
Année de publication : | 2023 |
Langues : | Français (fre) |
Descripteurs (mots clés) : | [Thésaurus Mesh]Optométrie [Thésaurus Mesh]Réfraction oculaire [Thésaurus Mesh]Troubles de la réfraction oculaire
|
Résumé : | SIGNIFICANCE: The ratios of diopters of change in refractive error produced per millimeter of eye elongation
(D/mm) are rarely those predicted from geometric optics because of changes in other ocular components. Quantifying this optical compensation in millimeters instead of ratios reveals some important principles about eye
growth and refractive error.
PURPOSE: The study purpose was to sort total vitreous chamber elongation into millimeters that either contributed
(uncompensated) or did not contribute to change in refractive error (compensated).
METHODS: Participants were infants in the Berkeley Infant Biometry Study (n = 271, ages 3 months to 6 years) or
schoolchildren in the Collaborative Longitudinal Evaluation of Ethnicity and Refractive Error (n = 456 emmetropes
and 522 myopes, ages 6 to 14 years). Refractive error was measured using cycloplegic retinoscopy in infants
(cyclopentolate 1%) and cycloplegic autorefraction in schoolchildren (tropicamide 1% or combined with
cyclopentolate 1%). Axial dimensions were assessed using A-scan ultrasonography. Uncompensated millimeters
were estimated from ratios of change in refractive error per millimeter of elongation using Gullstrand eye models.
Compensated millimeters were the difference between measured elongation and uncompensated millimeters.
RESULTS: Compensated millimeters exceeded uncompensated millimeters in emmetropic children across ages,
but uncompensated millimeters exceeded compensated millimeters in myopic children. Compensated millimeters
were highest in infancy and decreased with age, reaching less than 0.10 mm per year by age 10 years in both myopic and emmetropic children. There were no statistically significant differences in compensated millimeters between myopic and emmetropic children between ages 8 and 14 years (P values from .17 to .73).
CONCLUSIONS: The ability of the ocular components, primarily crystalline lens, to compensate for vitreous elongation is independent of the higher demands of myopic eye growth. The limited compensation after age 10 years
suggests the target for elongation in myopia control needed to arrest myopia progression may be that seen in
emmetropes or less. |
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