AbstractAn earlier report describing a lack of compensation to imposed myopic and hyperopic defocus in chicks reared in UV lighting has led to the belief that the spatial resolving power of the UV cone photoreceptor network in chicks is not capable of decoding optical defocus. However this study used dim light rearing conditions, of less than 10lx. The purpose of the current study was to determine if emmetropization is possible in young chicks reared under higher luminance, UV lighting conditions. Young, 4day-old chicks were reared under diurnal near UV (390nm) illumination set to either 20 or 200lx while wearing a monocular defocusing lens (+20, +10, −10 or −20D), for 7days. Similarly treated control groups were reared under diurnal white ...
Purpose: That young chicks recover quickly from form deprivation myopia (FDM) has been interpreted a...
AbstractLongitudinal chromatic aberration (LCA) causes short wavelengths to be focused in front of l...
AbstractAxial eye growth rates in the chicken are controlled by local retinal image-processing circu...
AbstractAn earlier report describing a lack of compensation to imposed myopic and hyperopic defocus ...
AbstractPurposeWhile rearing chicks in constant light (CL) inhibits anterior segment growth, these c...
Background: Young chicks can adjust their eye growth to compensate for both imposed hyperopia and my...
What cues are used in active emmetropization to analyse retinal image defocus remain unresolved. We...
The refractive state of hatchling chicks rapidly compensates to applied optical defocus through alte...
The chick is commonly used as an animal model for human myopia and emmetropization. However one crit...
PURPOSE. The bidirectional nature of emmetropization, as observed in young chicks, implies that eyes...
In contrast to previous investigations of myopia development in humans that have primarily examined ...
PURPOSE To evaluate the duration-dependent and synergetic impact of high-intensity light (HL) and op...
AbstractPurposeThis study re-examined an earlier claim that monocular patching during subjective nig...
AbstractBoth refractive properties of the eyes and ambient light conditions affect emmetropization d...
PURPOSE. Myopia can be induced in chickens by having them wear either negative lenses (lens-compensa...
Purpose: That young chicks recover quickly from form deprivation myopia (FDM) has been interpreted a...
AbstractLongitudinal chromatic aberration (LCA) causes short wavelengths to be focused in front of l...
AbstractAxial eye growth rates in the chicken are controlled by local retinal image-processing circu...
AbstractAn earlier report describing a lack of compensation to imposed myopic and hyperopic defocus ...
AbstractPurposeWhile rearing chicks in constant light (CL) inhibits anterior segment growth, these c...
Background: Young chicks can adjust their eye growth to compensate for both imposed hyperopia and my...
What cues are used in active emmetropization to analyse retinal image defocus remain unresolved. We...
The refractive state of hatchling chicks rapidly compensates to applied optical defocus through alte...
The chick is commonly used as an animal model for human myopia and emmetropization. However one crit...
PURPOSE. The bidirectional nature of emmetropization, as observed in young chicks, implies that eyes...
In contrast to previous investigations of myopia development in humans that have primarily examined ...
PURPOSE To evaluate the duration-dependent and synergetic impact of high-intensity light (HL) and op...
AbstractPurposeThis study re-examined an earlier claim that monocular patching during subjective nig...
AbstractBoth refractive properties of the eyes and ambient light conditions affect emmetropization d...
PURPOSE. Myopia can be induced in chickens by having them wear either negative lenses (lens-compensa...
Purpose: That young chicks recover quickly from form deprivation myopia (FDM) has been interpreted a...
AbstractLongitudinal chromatic aberration (LCA) causes short wavelengths to be focused in front of l...
AbstractAxial eye growth rates in the chicken are controlled by local retinal image-processing circu...