Means for controlling the progression of myopia

摘要

A contact lens for use in controlling or retarding the progression of myopia in an eye has a central optical zone approximating the normal diameter of the pupil of the eye that gives clear central vision at distance for the wearer. An annular peripheral optical zone that is substantially outside the diameter of the pupil is formed around the central optical zone with greater refractive power than that of the central zone so that oblique rays entering the eye through the peripheral optical zone will be brought to focus at a focal plane that is substantially on or anterior to the peripheral region of the retina. Preferably, the rear surface of the lens is shaped to conform to the cornea of the eye and the front surface of the lens is shaped to provide—in conjunction with the rear surface—the desired optical properties of the central and peripheral optical zones. The front surface is also preferably contoured to form a smooth transition between the junction of the central optical zone and the peripheral optical zone, with or without designed optical properties such as progressive power.

主权项

1. A contact lens for application to a myopic eye with a pupil size, the contact lens comprising:
a central optical zone dimensioned to cover an area from a central axis of the contact lens up to between plus or minus 1 mm of said pupil size; the central optical zone having a substantially uniform central zone refractive power for correcting myopia; and a peripheral optical zone disposed radially outward from said central optical zone; the peripheral optical zone occupying at least a portion of an annular zone defined by an inner diameter of 4.5 mm and an outer diameter of 8 mm; wherein the peripheral optical zone has a peripheral optical zone refractive power that is greater than the central optical zone refractive power by more than 1 Diopter; and the peripheral optical zone refractive power covers a diameter of at least 2 mm; and wherein the peripheral optical zone refractive power is substantially uniform across the peripheral optical zone.