Retinal-image degradation produces ocular enlargement in chicks.

Two groups of 3-day-old broiler chicks were fitted over the right eye with plastic goggles that degraded the retinal image by producing spherical aberration, reduction of contrast, and blurring of edges. In one group of chicks, the goggles were hemispheric and affected the entire visual field. In the second group, the goggles only affected the frontal visual field. In both groups, the left eye was used as a control. A third group of chicks served as an untreated control group. After 3 weeks, the chicks were killed, the eyes removed, hemisected, and measured in the axial and equatorial planes. Because the avian eye is flattened in the equatorial plane, both sets of measurements are necessary in order to represent changes in its size and shape. The axial length of a laterally located avian eye is related to distance vision. The equatorial length is related to vision in the frontal field, which is used for near vision. For each group of chicks, the difference between the right eye and the left eye was compared. The treated eyes of the full- goggle group were significantly larger than their untreated eyes in both the axial and equatorial dimensions. The treated eyes of the frontal- goggle group differed only in the equatorial dimension. These results suggest that the increased equatorial length found after retinal-image degradation may serve as an animal model of myopia.

[1]  E. Smith,et al.  Axial lengths and refractive errors in kittens reared with an optically induced anisometropia. , 1980, Investigative ophthalmology & visual science.

[2]  U. Yinon,et al.  Myopia in the eye of developing chicks following monocular and binocular lid closure , 1980, Vision Research.

[3]  J. Wallman,et al.  Relation of single unit properties to the oculomotor function of the nucleus of the basal optic root (accessory optic system) in chickens , 2004, Experimental Brain Research.

[4]  Young Fa The nature and control of myopia. , 1977 .

[5]  J. Dowling,et al.  Experimental amblyopia in monkeys. I. Behavioral studies of stimulus deprivation amblyopia. , 1970, Archives of ophthalmology.

[6]  F. A. Young,et al.  Visual-optical characteristics of caged and semifree-ranging monkeys. , 1973, American journal of physical anthropology.

[7]  R. Gundlach,et al.  The mechanism of accommodation in pigeons. , 1945 .

[8]  G. K. Noorden,et al.  Lid closure and refractive error in macaque monkeys , 1978, Nature.

[9]  Earl L. Smith,et al.  Behavioral studies of stimulus deprivation amblyopia in monkeys , 1981, Vision Research.

[10]  T N Wiesel,et al.  Effect of dark-rearing on experimental myopia in monkeys. , 1978, Investigative ophthalmology & visual science.

[11]  M. Millodot,et al.  Retinoscopy and Eye Size , 1970, Science.

[12]  A. Hendrickson,et al.  Visual acuity and behavior of monocularly deprived monkeys after retinal lesions. , 1977, Investigative ophthalmology & visual science.

[13]  D. Ehrlich Regional specialization of the chick retina as revealed by the size and density of neurons in the ganglion cell layer , 1981, The Journal of comparative neurology.

[14]  S. Sherman,et al.  Myopia in the lid-sutured tree shrew (Tupaia glis) , 1977, Brain Research.

[15]  L. Kiorpes,et al.  Anisometropic amblyopia in Macaca nemestrina monkeys produced by atropinization of one eye during development. , 1982, Investigative ophthalmology & visual science.

[16]  R. Binggeli,et al.  The pigeon retina: Quantitative aspects of the optic nerve and ganglion cell layer , 1969, The Journal of comparative neurology.

[17]  T. Wiesel,et al.  Myopia and eye enlargement after neonatal lid fusion in monkeys , 1977, Nature.

[18]  M Millodot,et al.  The refractive state of the pigeon eye. , 1971, Vision research.

[19]  S. Sherman,et al.  Differential effects of early monocular deprivation on binocular and monocular segments of cat striate cortex. , 1977, Journal of neurophysiology.

[20]  T. Wiesel,et al.  Increase in axial length of the macaque monkey eye after corneal opacification. , 1979, Investigative ophthalmology & visual science.

[21]  Avian mechanisms for vision in air and water , 1980, Trends in Neurosciences.

[22]  V. Dada,et al.  Experimental myopia in the rabbit. , 1977, Experimental eye research.

[23]  F. A. Young The effect of restricted visual space on the primate eye. , 1961, American journal of ophthalmology.

[24]  J Turkel,et al.  Extreme myopia produced by modest change in early visual experience. , 1978, Science.

[25]  U Yinon,et al.  Myopia induced in cats deprived of distance vision during development. , 1974, Vision research.