DE1772322B1 - Corneal contact lens - Google Patents

Description

1 2

The invention relates to a corneal contact lens, the necessary spherical shape of the lens from a gel-like, cross-linked, hydrophilic synthetic and thus an excellent optical

Fabric material. Achieved performance similar to that of the cornea itself.

Contact lenses that are placed on the cornea For a better understanding of the present earth, are known. The development of contact-finding are described below, preferred embodiment lenses made of soft, gel-like, cross-linked, hydro-examples with reference to the figures,

philic polymers such as those described in U.S. Patents F i g. 1 is an enlarged cross-section through FIG

2 979 576 and 3 220 960, led center of a corneal contact lens according to an embodiment

to manufacture a lens having the shape of the guide mold of the present invention;

Cornea. The wearer of the lens can his io F i g. FIG. 2 shows a view similar to FIG. 1 and

Another embodiment of the present invention shows eyes in any direction without difficulty

because. Corneal Damage Caused by Glass Lenses and Invention; '

hard acrylic lenses were frequently encountered are shown by FIG. 3 shows a view similar to FIG. 1

soft lenses avoided. The soft lenses have and 2 and shows a further embodiment of the

but also their difficulties. It is difficult of the present invention.

rig to achieve a clear view with soft lenses, with reference to the drawings it is shown in FIG. 1 without the advantage of the fit of the lenses, which are shown a corneal contact lens 10, which are adapted from a corneal curvature, impaired suitable material, such as. B. a soft, was valid. The first soft, molded lens-like, crosslinked, hydrophilic polymer, for the most part, allowed a view that was little 20 The lens 10 has two optically effective surfaces greater than 20/50. With soft lenses that are polished 12 and 14 which are both spherical. The surface and were sanded, better visual acuity 12 is concave and rests on the cornea and could be achieved, but they did not adhere exactly to the shape of the cornea. The upper cornea and had the tendency to slip, surface 14 is convex and suddenly changes its eg the opening and closing of the eyelid leads to the 25 radius at the point 14a. As a result, the slipping of the lenses and thus the loss of point 14a limits a circular area with maximum visual acuity. In order to improve the adhesion of the sanded paint thickness at 14 b, the lenses deflect in an edge 14 c , the curvature was running. Thus, the point 14 a is the thickest point of the lens reinforced, but this has poor visual acuity lens 10 and thereby gives the lens the greatest result, since the lens no longer has the horn-30 adhesion at this point. Furthermore, the skin must be adapted. If a lens does not have a reinforced lens 10 that is not sharply curved in order to obtain the adhesive curve for better adhesion, then it is able to secure it on the cornea. Therefore, it is possible that the upper lid of the lens with each creates the lens 10 good visual acuity and keeps eye blinking down. Different combinations at the same time good adhesion. The diameter of the nations of curvature and size were selected. Lens 10 should be the same size as the tried to make a soft lens having a knife of the cornea to which the lens 10 has good adhesiveness and good visual acuity is replaced . The average diameter of the testifies. However, none of these combinations worked - lens 10 is 12.0 mm, 11.5 mm is satisfactory for smaller eyes. and 12.5 mm for large eyes. With one very

The invention is therefore based on the object, 40 large eye, the diameter of the lens 10 of a corneal contact lens made of a gel-like, 13.0 mm. The thickness of the surface 14 to create a wetted, hydrophilic plastic material is preferably 0.28 mm and is located which has good adhesiveness and at the same time preferably approximately 1.5 mm towards the center, which enables high visual acuity. The invention triggers the edge 14 c measured. The thickness at the center accomplishes this by having an outer surface 45 of an average minus lens such as lens 10, which from a thin peripheral area in should be about 0.18 mm,
passes over an intermediate region of maximum thickness. The good optical effect of the lens 10 is based and, from there, slowly thinning, extends into the use of two spherical upper-central regions of the lens. In the case of a surface 12 and 14, the surface 12 expediently forms such a corneal 50 aspherical, if it adapts to the surface of the corneal contact lens, the edge area in the cross section is skin. The surface 14 adapts itself to this wedge-shaped, but the edge can also be shaped and thus corresponds to the corneal bulge-like shape, the maximum thickness mung. As a result, the lens 10 attains the same shape as the bead in the center thereof. With such an optical effect as the front surface of the lens, the intermediate region of maximum thickness 55 should be the cornea itself. The surface 14 is also only about 1.5 mm away from the edge of the lens. such a curvature to make the refraction of the eye

To be corrected in the manufacture of the horn according to the invention. Thus, the use of the

For skin contact lenses, the edge area of the lens 10 is selected to have excellent visual acuity.

Lens deliberately thicker than has been done so far, Two further versions of the present invention

however, at the same time the curvature or curvature are shown in FIG. 2 and 3 shown. Lens 20

tion of the lens in accordance with the curvature of F i g. 2 is a known plus lens. The upper

tion of the cornea of the human eye surfaces 22 and 24 are spherical and surface 24 a

is retained. This solution was thereby thickened in the same way as area 14 b

was found to have the adhesiveness of Fig. 1. Lens 20 has excellent optical properties

the lens to the cornea is larger at the point, 65 properties and good adhesiveness from the same

where the material of the lens is thicker, and for fewer reasons than the aforementioned lens 10 of FIG

good is where the material is thinner. In Fig. 1. Fig. 3 shows a lens 30 with spherical

position of a lens with a thicker circular area surfaces 32 and 34, which an annular thickened

Point 34 α has a spherical cross-section.

The above-described contact lenses can eliminate the previous problems and make them comfortable and be successfully worn by a large percentage of users.

Claims (5)

Patent claims: 1. Corneal contact lens made of a gel-like, cross-linked, hydrophilic plastic material with a concave spherical inner surface which corresponds to the curved surface of the cornea, characterized in that it has an outer surface (14, 24, 34) which is surrounded by a thin edge region (14 c ) merges into an intermediate area of maximum thickness (14 a, 2A a, 34 d) and from there slowly thins IO will extend into the central area (12, 24, 34) of the lens. 2. Contact lens according to claim 1, characterized in that that the edge area (14c to 14 £>) is wedge-shaped in cross section. 3. corneal contact lens according to claim 1, characterized in that the edge region (14) has an outwardly convex bead-shaped cross section (34 a), the maximum thickness of which in Central area of the bead is (Fig. 3). 4. corneal contact lens according to claim 1, characterized in that the edge of the lens has an area that is greater in thickness than the remainder of the lens. 5. corneal contact lens according to claim 1, characterized characterized in that the intermediate area of maximum thickness (14 a, 24 a, 34 a) in the edge area is about 1.5 mm from the edge of the lens and has a thickness of 0.28 mm. 1 sheet of COPY drawings