AbstractLongitudinal chromatic aberration (LCA) causes short wavelengths to be focused in front of long wavelengths. This chromatic signal is evidently used to guide ocular accommodation. We asked whether chick eyes exposed to static gratings simulating the chromatic effects of myopic or hyperopic defocus would “compensate” for the simulated defocus.We alternately exposed one eye of each chick to a sine-wave grating (5 or 2 cycle/deg) simulating myopic defocus (“MY defocus”: image focused in front of retina; hence, red contrast higher than blue) and the other eye to a grating of the same spatial frequency simulating hyperopic defocus (“HY defocus”: blue contrast higher than red). The chicks were placed in a drum with one eye covered with on...
What cues are used in active emmetropization to analyse retinal image defocus remain unresolved. We...
AbstractPurpose. Less accommodation was found when human subjects read in blue (peak at about 440 nm...
AbstractBoth refractive properties of the eyes and ambient light conditions affect emmetropization d...
AbstractLongitudinal chromatic aberration (LCA) causes short wavelengths to be focused in front of l...
PURPOSE. The bidirectional nature of emmetropization, as observed in young chicks, implies that eyes...
AbstractAxial eye growth rates in the chicken are controlled by local retinal image-processing circu...
AbstractPurposeWhile rearing chicks in constant light (CL) inhibits anterior segment growth, these c...
In contrast to previous investigations of myopia development in humans that have primarily examined ...
Background: Young chicks can adjust their eye growth to compensate for both imposed hyperopia and my...
AbstractAn earlier report describing a lack of compensation to imposed myopic and hyperopic defocus ...
PURPOSE. Myopia can be induced in chickens by having them wear either negative lenses (lens-compensa...
The chick is commonly used as an animal model for human myopia and emmetropization. However one crit...
It is known that when hyperopic or myopic defocus is imposed on chick eyes by spectacle lenses, they...
AbstractDuring development, the eye grows under visual feedback control, as shown by its compensatin...
PURPOSE. Myopia can be induced in chickens by having them wear either negative lenses (lens-compensa...
What cues are used in active emmetropization to analyse retinal image defocus remain unresolved. We...
AbstractPurpose. Less accommodation was found when human subjects read in blue (peak at about 440 nm...
AbstractBoth refractive properties of the eyes and ambient light conditions affect emmetropization d...
AbstractLongitudinal chromatic aberration (LCA) causes short wavelengths to be focused in front of l...
PURPOSE. The bidirectional nature of emmetropization, as observed in young chicks, implies that eyes...
AbstractAxial eye growth rates in the chicken are controlled by local retinal image-processing circu...
AbstractPurposeWhile rearing chicks in constant light (CL) inhibits anterior segment growth, these c...
In contrast to previous investigations of myopia development in humans that have primarily examined ...
Background: Young chicks can adjust their eye growth to compensate for both imposed hyperopia and my...
AbstractAn earlier report describing a lack of compensation to imposed myopic and hyperopic defocus ...
PURPOSE. Myopia can be induced in chickens by having them wear either negative lenses (lens-compensa...
The chick is commonly used as an animal model for human myopia and emmetropization. However one crit...
It is known that when hyperopic or myopic defocus is imposed on chick eyes by spectacle lenses, they...
AbstractDuring development, the eye grows under visual feedback control, as shown by its compensatin...
PURPOSE. Myopia can be induced in chickens by having them wear either negative lenses (lens-compensa...
What cues are used in active emmetropization to analyse retinal image defocus remain unresolved. We...
AbstractPurpose. Less accommodation was found when human subjects read in blue (peak at about 440 nm...
AbstractBoth refractive properties of the eyes and ambient light conditions affect emmetropization d...