Clinical Trials Directory

Trials / Unknown

UnknownNCT00950924

Optical Defocus to Stimulate Eye Elongation in Hyperopia

Use of Multifocal Contact Lenses to Stimulate Axial Elongation in Axial Hyperopia

Status
Unknown
Phase
N/A
Study type
Interventional
Enrollment
30 (estimated)
Sponsor
Aller, Thomas A., OD · Academic / Other
Sex
All
Age
5 Years – 12 Years
Healthy volunteers
Accepted

Summary

Axial hyperopia results when the length of the eye is too short for the eye to properly focus distance objects on the retina while the focusing system is relaxed. Emmetropization is the process by which the eye actively adjusts various components of the eye to gradually improve the focus of the eye. Emmetropization frequently involves either an increase or a decrease in the growth of the eye, particularly during infancy and childhood. Numerous animal studies suggest that if an animal is exposed to retinal images located behind the retina either centrally or peripherally, the eye will grow in the direction of the focused image. If an abnormally short eye has resulted in hyperopia, exposing such an eye to retinal images partially located behind the retina might encourage axial elongation, thus reducing the hyperopia.

Detailed description

Hyperopia or farsightedness may cause distance vision and near vision to be blurred. Depending on the severity of the condition and the age of the patient and the status of the binocular vision system, hyperopia can also cause fatigue, asthenopia, headaches, double vision, and amblyopia. Low to moderate amounts of hyperopia rarely cause much difficulty in the young person, but will eventually cause significant near vision problems as the patient ages. Hyperopia can be caused by the eye being too short (axial hyperopia) or by the cornea being too flat or the crystalline lens being to weak (refractive hyperopia). It has been established by the PI that axial growth can be dramatically lessened in children and adolescents with myopia through the use of bifocal contact lenses prescribed in a particular way (The CONTROL Study). Studies by Earl Smith, O.D., Ph.D. have suggested that multi-zonal contact lenses that provide proper axial focus while manipulating peripheral defocus can either discourage or encourage axial growth to treat myopia or hyperopia respectively. In the present study, simultaneous vision bifocal soft contact lenses will be used to encourage axial growth in hyperopic children and adolescents with axial hyperopia in an effort to reduce hyperopia. Subjects will be randomly assigned to wear either bifocal soft contact lenses or single vision soft lenses. The bifocal contact lenses will be prescribed to provide for clear central vision at both distance and near with the near zone of the contact, thus exposing the retina to hyperopic defocus from the distance zone.

Conditions

Interventions

TypeNameDescription
DEVICESimultaneous Vision Bifocal Soft Contact LensesSimultaneous Vision Bifocal Soft Contact Lenses will be prescribed such that the distance vision as measured by manifest subjective refraction will be properly corrected by the near vision add power and undercorrected by the distance power.
DEVICESingle Vision Soft Contact LensesSingle vision soft contact lenses will be prescribed to properly correct the distance vision as measured by manifest subjective refraction.

Timeline

Start date
2015-01-01
Primary completion
2021-10-01
Completion
2022-01-01
First posted
2009-08-03
Last updated
2021-01-12

Locations

1 site across 1 country: United States

Source: ClinicalTrials.gov record NCT00950924. Inclusion in this directory is not an endorsement.