AbstractPurposeWhile rearing chicks in constant light (CL) inhibits anterior segment growth, these conditions also induce excessive enlargement of the vitreous chamber. The mechanisms underlying these effects are poorly understood although it has been speculated that the enlarged vitreous chambers are a product of emmetropization, a compensatory response to the altered anterior segments. We examined the ability of eyes to compensate to defocusing lenses in CL as a direct test of their ability to emmetropize. We also studied recovery responses, i.e. from lens-induced changes in CL as well as CL-induced changes alone or combined with lens-induced changes in eyes returned to normal diurnal lighting (NL).MethodsHatchling White-Leghorn chicks we...
(1) We studied the influence of photoperiod and unilateral lid suture on post-natal ocular growth in...
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...
AbstractPurposeWhile rearing chicks in constant light (CL) inhibits anterior segment growth, these c...
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...
AbstractContinuous exposure of chicks to light was shown to result in severe hyperopia, accompanied ...
AbstractOur previous studies have shown that an environment of constant light (CL) can lead to devel...
AbstractAn earlier report describing a lack of compensation to imposed myopic and hyperopic defocus ...
In this study we report on the effects of constant fight (CL) on the refractive development and ocul...
PURPOSE To evaluate the duration-dependent and synergetic impact of high-intensity light (HL) and op...
AbstractTo test the hypothesis that the same mechanisms mediate form deprivation and lens-induced my...
In contrast to previous investigations of myopia development in humans that have primarily examined ...
AbstractExposure to continuous illumination disrupts normal ocular development in young chicks, caus...
Background: Young chicks can adjust their eye growth to compensate for both imposed hyperopia and my...
(1) We studied the influence of photoperiod and unilateral lid suture on post-natal ocular growth in...
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...
AbstractPurposeWhile rearing chicks in constant light (CL) inhibits anterior segment growth, these c...
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...
AbstractContinuous exposure of chicks to light was shown to result in severe hyperopia, accompanied ...
AbstractOur previous studies have shown that an environment of constant light (CL) can lead to devel...
AbstractAn earlier report describing a lack of compensation to imposed myopic and hyperopic defocus ...
In this study we report on the effects of constant fight (CL) on the refractive development and ocul...
PURPOSE To evaluate the duration-dependent and synergetic impact of high-intensity light (HL) and op...
AbstractTo test the hypothesis that the same mechanisms mediate form deprivation and lens-induced my...
In contrast to previous investigations of myopia development in humans that have primarily examined ...
AbstractExposure to continuous illumination disrupts normal ocular development in young chicks, caus...
Background: Young chicks can adjust their eye growth to compensate for both imposed hyperopia and my...
(1) We studied the influence of photoperiod and unilateral lid suture on post-natal ocular growth in...
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...