RU32294U1 - Spherical prismatic contact lens with orientation ballast - Google Patents

Description

SFBROPRISIATIC CONTACT LENS WITH ORIENTATION BALLAST

The utility model relates to medicine, namely to ophthalmology and can be used to improve vision during macular degeneration of various origins.

A sphere-prismatic contact lens is known for improving vision in case of a yellow spot of various etiologies by shifting focus to the paracentral parts of the fundus (evidence of utility model 24574).

The disadvantage of this lens is that the initial installation of the lens with focus mixing on the paracentral, most functional part of the retina, can change during its use and the result of increased vision is nullified.

This is due to the fact that the prismatic element, by virtue of its mass, outweighs the remaining parts of the lens and the lens, being mobile, (floating) changes its position. The prismatic element is shifted downward and the achieved effect of the focus shift is reduced to zero.

The technical result is to improve visual function.

The technical result is achieved in that in a sphere-prismatic contact lens having a rear contact surface along the curvature of the cornea and a front surface on which an asymmetric sphere-prismatic element (ASE) is made, the optical axis of which is offset from the optical axis of the eye by an angle from O to 9 °, the ASE has the diameter is from 2 to b mm and is made with thickness gradually decreasing to the edges, while the difference in thickness of the thinnest and thickest parts of the ASE is in the range 0-100 μm, according to a utility model, nen ballast in the form of smoothly passing the front surface of the prismatic thickening, the ballast prevshaet COC by weight, and the whole lens is made of an optically transparent material such as a monolith.

The useful model of FIGS. 1-2, FIG. 1 is a plan view of a contact lens, and FIG. 2 is a profile view. The contact lens has a rear contact surface 1 along the curvature of the cornea of the eye and a front surface 2 on which ASE 3 is made. At the base of the contact lens is ballast 4 in the form of a prismatic thickening exceeding the ASE by weight.

Ballast 4 holds the lens in a predetermined position, which is achieved by the stability of the obtained vision.

There is a marker 5 on the lens.

The use of lenses with ballast is as follows; Previously, using a trial set of spherical prismatic lenses manufactured according to PM No. 24574 s

by the strength of the prismatic effect, from 1 to 8 prismodiopters, which provide displacement of the optical axis up to 9 degrees, making small rotational movements of the contact lens, find the optimal position of the lens that maximizes vision. The position of the marker is fixed and the corresponding sphere-prismatic lens with ballast is replaced by changing the test contact lens, while marker 5 on ballast 4 is aligned with the point indicated by the marker of the test contact lens.

Thus, thanks to the ballast, a stable position of the sphere-prismatic lens is achieved, which determines the maximum possible increase in visual acuity.

Claims (1)

A sphere-prismatic contact lens with orientation ballast, having a rear contact surface along the curvature of the cornea and a front surface on which an asymmetric sphere-prismatic element (ASE) is made, the optical axis of which is offset from the optical axis of the eye by an angle from 0 to 9 °, ASE has a diameter from 2 to 6 mm and is made with thickness gradually decreasing toward the edges, while the difference in thickness of the thinnest and thickest part of the ASE is in the range of 0-100 μm, characterized in that the ballast is made in the base of the lens in the form of smoothly passing to the front surface of the prismatic thickening, while the ballast exceeds the ASE in mass, and the entire lens is made of optically transparent material as a monolith.