The most rapid phase of post-natal ocular growth occurs during the first years of life. Although much is known about the development of refractive error in infancy, there is little biometric data available on the ocular components during either infancy or early childhood. The course of infant refractive and component development can shed light on both basic mechanisms of eye growth as well as possible links with juvenile refractive error. Animal studies in chicken and primate models suggests that the eye is sensitive to the sign and magnitude of refractive error, with the eye adjusting its rate of growth to reduce these errors. Recent longitudinal studies of infant refraction have found associations between non- cycloplegic retinoscopy in infancy and in later childhood. Longitudinal refractive and biometric data from infancy will make it possible to examine the responsiveness of the eye to initial refractive error, the components responsible for emmetropization, and how component and refractive error, the components responsible for emmetropizatin, and how component and refractive development in the first years of life are related to ocular growth in childhood. The Berkely Infant Biometry Study (BIBS) is a five-year longitudinal study of the ocular components in infants and toddlers aged three months to three years. Its goal is to determine what changes occur in the eyes of young children during this time period and how these changes fit into a model of emmetropization that is either active or passive. Examination for component development in infants as a function of initial refractive error and as a function of the degree of emmetropization will indicate which components underlie ametropia and emmetropization. We measure refractive error, including astigmatism, corneal curvature in two meridians, anterior chamber depth, crystalline lens thickness and surface curvatures in two meridians, vitreous chamber depth, and axial length. We will determine how changes in the axial length, corneal curvature, and crystalline lens curvatures are coordinated during this rapid growth phase. We will investigate which ocular components-cornea or lens-are responsible for the previously reported astigmatism in infancy and its disappearance in early childhood.

Agency
National Institute of Health (NIH)
Institute
National Eye Institute (NEI)
Type
Research Project (R01)
Project #
3R01EY011801-06S1
Application #
6554809
Study Section
Special Emphasis Panel (ZEY1 (01))
Program Officer
Everett, Donald F
Project Start
1997-04-01
Project End
2002-03-31
Budget Start
2001-04-01
Budget End
2002-03-31
Support Year
6
Fiscal Year
2002
Total Cost
$16,000
Indirect Cost
Name
Ohio State University
Department
Type
Schools of Optometry/Ophthalmol
DUNS #
098987217
City
Columbus
State
OH
Country
United States
Zip Code
43210
Mutti, Donald O; Sinnott, Loraine T; Lynn Mitchell, G et al. (2018) Ocular Component Development during Infancy and Early Childhood. Optom Vis Sci 95:976-985
Gabriel, Gina Marangoni; Mutti, Donald O (2009) Evaluation of infant accommodation using retinoscopy and photoretinoscopy. Optom Vis Sci 86:208-15
Mutti, Donald O; Mitchell, G Lynn; Jones, Lisa A et al. (2009) Accommodation, acuity, and their relationship to emmetropization in infants. Optom Vis Sci 86:666-76
Mutti, Donald O; Mitchell, G Lynn; Jones, Lisa A et al. (2005) Axial growth and changes in lenticular and corneal power during emmetropization in infants. Invest Ophthalmol Vis Sci 46:3074-80
Mutti, Donald O; Mitchell, G Lynn; Jones, Lisa A et al. (2004) Refractive astigmatism and the toricity of ocular components in human infants. Optom Vis Sci 81:753-61
Frane, S L; Sholtz, R I; Lin, W K et al. (2000) Ocular components before and after acquired, nonaccommodative esotropia. Optom Vis Sci 77:633-6
Twelker, J D; Kirschbaum, S; Zadnik, K et al. (1997) Comparison of corneal versus through-the-lid A-scan ultrasound biometry. Optom Vis Sci 74:852-8