(hyperopia), a deviation from normal refraction in the eye wherein parallel light rays, after refraction in the eye, are brought to a focus behind the retina and the retinal images as a result are diffuse and unclear.
Farsightedness is caused either by the fact that the refractive mediums of the eye (the cornea and the crystalline lens) refract light poorly (index hyperopia) or because the antero-posterior axis of the eye is too short (axial hyperopia); most often the two causes are found in combination. Farsightedness is found in the majority of newborns, but as the infant grows, the eyeball enlarges somewhat and the farsightedness usually disappears. The hyperopic eye, which is poorly suited for bringing parallel rays together at the retina, is even less capable of focusing divergent rays (that is, those from close objects). Thus, vision is poor both at distances and from up close, so that essentially the term “farsightedness” is not altogether accurate. With slight degrees of farsightedness, young people continually strain the so-called ciliary muscle, increasing the curvature of the crystalline lens; this increases the refractive capacity of the lens (accommodation), and clear vision may be attained. In the middle-aged and elderly this capacity for accommodation is weakened; so-called old-age farsightedness (presbyopia) develops, manifested in the efforts of the person to hold observed objects (for example, a book or newspaper) somewhat further from the eyes. Farsightedness may cause headaches; in children it may lead to the development of convergent strabismus. Correction of vision (compensation) for farsightedness is achieved by wearing eyeglasses with convex lenses; the strongest lens is chosen that will ensure the clearest vision. By increasing the refractive power of the eye, such a lens transfers the focus of the light rays to the retina.
S. I. TAL’KOVSKII