KR102579838B1 - Artificial intraocular lens for correcting astigmatisms - Google Patents

Abstract

An optical unit consisting of a front part and a rear part each having a radius of curvature;
It includes a support part attached to the edge to support the optical unit,
An artificial lens characterized by correcting astigmatism by varying the radius of curvature of the optical unit to compensate for the difference in refractive power that occurs depending on the slope of the corneal topography.

Description

Artificial intraocular lens for correcting astigmatisms}

The present invention relates to an artificial lens for correcting astigmatism.

Light entering the eye passes through the cornea and the accessory organs within the eye and is transmitted to the retina. Since the refractive power of the eye is different for each person, there are cases where a clear image is not transmitted to the retina, which is called a refractive error.

A person whose light focuses well on the retina is said to be emmetropic. If the light is focused in front of the retina, the person is myopic, and if the light is focused behind the retina, the person is hyperopic.

Therefore, to correct myopia or hyperopia, you wear glasses or use contact lenses, LASIK, or intraocular lenses to correct it. And if you have astigmatism, you need an astigmatism lens to correct astigmatism.

However, each person has a different form of corneal astigmatism, and depending on the form, it can be divided into positive astigmatism and negative astigmatism.

True astigmatism refers to a case where the astigmatism is parallel and of a certain size and is vertical, horizontal, or oblique in a figure 8 shape on one axis.

When the degree of refraction of the cornea for ortho astigmatism is measured with a corneal topography measuring device, it appears in the form of a corneal topography map as shown in Figure 1.

Irregular astigmatism, as shown in Figure 2, is a condition in which irregular irregularities occur on the surface of the cornea without regularity and visual impairment occurs, and it is a condition that cannot be corrected with conventional lenses.

Republic of Korea Patent No. 10-1435777 (August 25, 2014) has been registered.

We look at artificial lenses to treat refractive errors such as astigmatism.

Figure 3 shows a type of general artificial lens.

The artificial lens transmits light incident from the cornea to the retina through the front optical part and the back optical part, and has supports on both sides for intraocular insertion.

The surface of the optical unit is manufactured as a spherical surface consisting of end lines with a constant radius of curvature, and this spherical shape can also be manufactured in an aspherical form by varying the radius of curvature from the center to the periphery.

In Figure 1, which shows an example of orthogonal astigmatism measured with a corneal topography measuring device, a circular cornea is displayed in green or blue around the X-axis and (-X) axis of the cornea, which has a relatively steep It shows that the curve is low, and the circular cornea near the Y and (-Y) axes is displayed in red or yellow, showing that the slope is relatively high.

The color showing the tilt of the cornea is set differently depending on the measuring device, and the color in FIG. 1 is only an example to show the technical idea of the present invention.

If the slope of the cornea is low, such as around the It appears in the form of myopia. This form is called orthotropic astigmatism.

The X-axis, (-X)-axis, Y-axis, and (-Y)-axis are examples showing four axes perpendicular to each other, and the present invention relates to , it should be said that it is not limited to the position of the (-Y) axis, but can be applied to all four axes perpendicular to each other.

In order to correct astigmatism caused by the combined effects of hyperopia on the By lowering the refractive power of light incident on the side with a high inclination, it corrects emmetropic eyes to ensure good focus.

Meanwhile, as shown in Figure 2, as an example of asymmetry, the slope is relatively high in only one direction (-Y axis) of the cornea and is displayed in red and yellow, and the slope around the X, Y, and (-X) axes is relatively high. Because the value is low, it is displayed in green or blue. In the case of irregular astigmatism that appears asymmetrically with respect to the four axes perpendicular to each other like this, the refractive power of light incident on the X-, Y-, and (-X) axes with relatively low slopes must be increased. The refractive power of light incident on the high (-Y axis) side must be lowered to correct the focus for emmetropic eyes.

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Generally, to treat cataracts, the lens, which is an accessory organ inside the eye, is removed and an artificial lens is inserted into the lens bag.

The present invention defines the radius of curvature of the artificial lens inserted into the lens bag in this cataract treatment method so that it has a refractive power that can correct astigmatism.

The present invention proposes an artificial lens with a radius of curvature that increases the refractive power of light incident on a side with a relatively low slope of the corneal topography and lowers the refractive power of light incident on a side with a relatively high slope of the corneal topography.

The present invention provides a means to treat astigmatism, which prevents a clear image from being transmitted to the retina because the refractive power of light varies depending on the position of the cornea, by adjusting the refractive power according to the type of astigmatism.

Figure 1 is an example of a corneal topography in correct astigmatism.
Figure 2 is an example of a corneal topography of irregular astigmatism.
Figure 3 is an example of a general artificial lens.
4 to 7 are examples of an artificial lens for correcting astigmatism according to the present invention.

Figure 4 is an example of an artificial lens for astigmatism according to the present invention.
The present invention relates to an artificial lens,
An optical unit consisting of a front optical unit and a rear optical unit each having a radius of curvature;
It includes a support part attached to the edge to support the optical unit,

It is characterized in that astigmatism is corrected by varying the radius of curvature of the optical unit to compensate for the difference in refractive power that occurs depending on the slope of the corneal topography.

The corneal topography shows that the slopes of two opposing directions (e.g., X-axis, -X-axis) and the other two directions perpendicular to the two opposing directions (e.g., Y-axis, -Y-axis) are different. At this time, the back of the lens optical part is manufactured in the form of a spherical surface and an aspherical surface that are continuously inflected with radii of r1 and r2, as shown in FIG. 4, so that the artificial lens inserted into the lens bag can correct astigmatism.

According to the topography of the cornea, the refractive power is increased for light entering in two directions (X-axis, -X-axis) where the cornea's slope is relatively low, and light entering in two directions (Y-axis, -Y-axis) where the cornea's slope is high is refracted. Lower the refractive power and correct it so that emmetropic eyes are in better focus.

One embodiment of the present invention increases the refractive power of light incident in two directions (X-axis, -X-axis) in which the cornea has a relatively low inclination, and increases the refractive power of light incident in two directions (Y-axis, -Y-axis) in which the cornea has a relatively high inclination. ) is an artificial lens that has a different radius of curvature depending on the position to lower the refractive power.

Figure 5 is a side view of the artificial lens of Figure 4. The rear optical part is defined by two radii of curvature, r1 and r2, and the value of r1 is greater than the value of r2. (Size of the radius of curvature: r2 < r1 ≤ maximum radius)

In two opposing directions (X-axis, -X-axis) where the cornea's slope is relatively low according to the corneal topography, the spherical surface is manufactured to have a radius of curvature r2 that is relatively smaller than the maximum radius of the rear optical part to increase refractive power.
In addition, in the two opposing directions (Y-axis, -Y-axis), which are perpendicular to the two opposing directions (X-axis, -X-axis) and where the cornea has a relatively high inclination, the radius of curvature r1 of the rear optical part is larger than r2. The refractive power is lowered by manufacturing a spherical surface that is large and relatively smaller or equal to the maximum radius of the rear optical part.

The above-mentioned corneal inclination is a relatively high or low contrast between the two axial directions facing each other with respect to the four axes perpendicular to each other, and the high or low inclination is not limited to a fixed numerical range.

The following is an example of an artificial lens that can correct irregular astigmatism that appears asymmetrically in three axes with respect to one axis, as shown in FIG. 2.

Among irregular astigmatisms, Figure 2 shows a case where the corneal inclination is relatively high in only one of the four directions, and the inclination of the cornea is relatively low in the remaining three directions.

In this case, the refractive power should be corrected by lowering the refractive power of light incident in one direction where the cornea has a relatively high slope, and increasing the refractive power of light incident on the three directions where the cornea has a relatively low slope.

Figure 6 is another embodiment of the artificial lens for astigmatism according to the present invention, in which the back of the lens optical part is a continuous elliptical spherical surface and an aspherical surface that are continuously inflected with a radius of curvature of r1 in one axis and r2 in the remaining three axes. It is produced in the form (Size of curvature radius: r2 < r1 ≤ maximum radius)
Among the four axes that are perpendicular to each other, the three axes (e.g., raises the
In addition, in another axis with a relatively high inclination (e.g., -Y axis), the radius of curvature r1 of the rear optical part is larger than r2 and the spherical surface is manufactured to be relatively smaller or equal to the maximum radius of the rear optical part to lower the refractive power.

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FIG. 7 is a side view of the artificial lens according to the present invention of FIG. 6. The rear optical part is defined by two radii of curvature r1 and r2, and the r1 value is relatively larger than the r2 value.

According to the corneal topography of FIG. 2, direction 1 (-Y axis) has a radius of curvature of r1, which gently lowers the refraction by lowering the rear slope of the lens as shown in FIG.

And in the three directions (X-axis, Y-axis, -X-axis), the radius of curvature is set to r2 and the posterior slope of the lens is steepened to increase refraction.
In addition, as another example of an artificial lens capable of correcting irregular astigmatism in which three axes are asymmetrical with respect to one axis, when the slope of axis 1 is relatively low and the slope of axis 3 is high among the four axes perpendicular to each other. There is.
At this time, in one axis, where the cornea has a relatively low inclination, a spherical surface is manufactured to have a radius of curvature r2 that is relatively smaller than the maximum radius of the rear optical part, thereby increasing the refractive power.

In the other three axes with relatively high inclinations, the refractive power can be lowered by manufacturing a spherical surface such that the radius of curvature r1 of the rear optical part is larger than r2 and relatively smaller or equal to the maximum radius of the rear optical part (not shown).

In the detailed description of the present invention, embodiments of the artificial lens according to the corneal topography have been described in the four directions of the Of course it is possible. Therefore, the scope of the present invention should not be limited to the four-way embodiment described above, but should be determined by the claims and equivalents thereof as well as the claims described later.

Claims (4)

An optical unit consisting of a front optical unit and a rear optical unit each having a radius of curvature;
It includes a support part attached to the edge to support the optical unit,
The rear optical unit is manufactured in the form of a spherical surface and an aspherical surface that are continuously inflected with a plurality of different radii of curvature according to the topography of the cornea,
When the corneal topography shows that the slopes of the two opposing directions and the other two directions perpendicular to the two opposing directions are different,
In the two opposing directions where the cornea has a relatively low inclination, a spherical surface is manufactured to have a radius of curvature r2 smaller than the maximum radius of the rear optical part,
By manufacturing a spherical surface such that the radius of curvature r1 of the rear optical part in two opposing directions where the cornea has a relatively high slope is larger than r2 and smaller than or equal to the maximum radius of the rear optical part, the difference in refractive power that occurs depending on the slope of the corneal topography is calculated as above. An artificial lens characterized by correcting astigmatism by varying the radius of curvature of the optical part
An optical unit consisting of a front optical unit and a rear optical unit each having a radius of curvature;
It includes a support part attached to the edge to support the optical unit,
The rear optical unit is manufactured in the form of a spherical surface and an aspherical surface that are continuously inflected with a plurality of different radii of curvature according to the topography of the cornea,
When the above corneal topography shows that the slopes in directions 1 and 3 are different in the four mutually perpendicular axes,
In one or three directions where the cornea has a relatively low inclination, a spherical surface is manufactured to have a radius of curvature r2 that is relatively smaller than the maximum radius of the rear optical part,
In one or three directions where the cornea has a relatively high inclination, a spherical surface is manufactured so that the radius of curvature r1 of the rear optical part is larger than r2 and relatively smaller or equal to the maximum radius of the rear optical part,
An artificial lens characterized by correcting astigmatism by varying the radius of curvature of the optical unit to compensate for the difference in refractive power that occurs depending on the slope of the corneal topography. delete delete