JP6120338B2 - Ring-shaped cornea correction contact lens - Google Patents

Description

The present invention relates to a ring-shaped contact lens in which a portion corresponding to the central portion of the corneal dome or the pupil is a through-hole, and in particular, a state in which hyperopia is corrected by changing the shape of a patient's cornea after wearing for a certain period of time. about the ring-shaped cornea corrective contact lenses to.

  For example, the present inventor proposes a contact lens for correcting myopia and / or astigmatism in a detached state by changing the shape of a patient's cornea in Patent Document 1 by wearing it during sleep or the like. . The inventor has subsequently developed similar contact lenses for correcting hyperopia or presbyopia.

As shown in FIG. 3 , a contact lens (hereinafter referred to as a conventional lens) 1A for correcting myopia as described above has a relief region 3 formed of a concave portion and a press region 4 formed of a convex portion on the side in contact with the cornea 2 of the patient. The relief area 3 and the pressing area 4 are pressed against the cornea 2 so that a part of the cornea 2 is pushed into the pressing area 4 and, as a reaction, a part of the cornea 2 protrudes into the relief area 3. By doing so, the shape of the cornea 2 is corrected to a shape capable of obtaining a desired naked eye visual acuity or a shape for smoothly pressing the keratoconus.

As shown in FIG. 4 , the relief region 5 and the pressing region 6 of the contact lens for hyperopia or presbyopia correction (hereinafter referred to as conventional lens) 1 </ b> B are opposite to those in the case of myopia correction.

  In the conventional lens 1B, when the relief region 5 is mounted on the cornea 2, the relief region 5 is formed to protrude forward in a convex curved surface at a position corresponding to the central portion of the corneal dome. On the other hand, the pressing region 6 is formed of an annular convex portion having a convex arc shape on the cornea side so as to surround the outer periphery of the relief region 5, and as a reaction of the cornea 2 pushed in by the pressing region 6, The portion enters into the inner concave portion of the relief region 5. Further, at a position surrounding the outer periphery of the pressing region 6, there is an anchor region 7 shaped so as to follow the contour of the cornea 2 when attached to the cornea 2. Further, it may have a peripheral edge portion 8 that surrounds the outer periphery of the anchor region 7.

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Vision correction contact lenses of the traditional, for example, in the case of diseases such as dry eye, or can not be used, the center of the lens had to be shifted or the pupil position during mounting. In addition, since the central portion of the corneal dome or the portion corresponding to the pupil must be transparent, there is a problem that it cannot be modeled by a 3D printer that is in an opaque state.

Japanese Patent No. 3881221

The present invention is a surface in the supply of oxygen and tear of the central portion of the corneal dome is usable even in the case of dry eye, also can also be shaped by an opaque material, further, the center of the pupil it is an object of the present invention to provide a-ring-shaped cornea corrective contact lens that was so as not to deviate from the position to be.

The present inventors, as a result of intense research, hyperopia, when the orthokeratology contact lens for presbyopia, the relief area always found that it is not necessary to contact the cornea-ring shape in which a center portion is a through hole It has developed a cornea corrective contact lenses.

  That is, the above-described problems are solved by the following embodiments.

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(1) A relief area consisting of a concave part and a pressing area consisting of a convex part are formed on the side in contact with the patient's cornea, and at least the pressing area is pressed against the cornea to change the shape of the cornea. A contact lens for correcting a cornea for correcting at least one of the above, wherein the relief region is a through-hole having a diameter of more than 5 mm and not more than 8 mm at a position corresponding to the central portion of the corneal dome when mounted on the cornea The cornea protrudes into the through-hole to form a convex curved surface, and the pressing area is formed at a position surrounding the outer periphery of the relief area, and the cross-section is an annular convex having a convex arc shape. An anchor region that is provided at a position that surrounds the outer periphery of the pressing region, and that is shaped to follow the contour of the cornea when attached to the cornea, and outside the anchor region Have at least the anchor region of the peripheral portion surrounding the, in cross-section, the press area, the continuous from the anchor regions, are a convex arc shape in the cornea side, the inner peripheral surface of the through hole, the press area A ring-shaped corneal correction contact lens characterized in that it is formed in a circular arc shape that is smoothly continuous from the convex arc of the lens and continues to the side that does not contact the patient's cornea and that is convex toward the center of the through hole .

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( 2 ) The ring-shaped corneal correction contact lens according to (1 ), wherein at least the pressing region of the pressing region and the anchor region is made of an opaque material.

( 3 ) The ring-shaped corneal correction contact according to (1) or (2) , wherein at least the pressing region of the pressing region and the anchor region is formed of a UV shielding material that blocks ultraviolet rays. lens.

(4) has a peripheral portion surrounding the outer periphery of the anchoring region, the outer diameter D ₁ of the the peripheral portion, larger 3.0 or 5.0mm less than the average Tekisoto径D ₀ of the outer peripheral edge of the human cornea And a UV shielding film for shielding ultraviolet rays on the side in contact with the cornea in the annular region from the position where the diameter at the peripheral edge is D ₀ −3.0 mm or less D ₀ −5.0 mm or more to the outermost periphery. The contact lens for correcting a ring-like cornea according to any one of (1) to ( 3 ), which is provided.

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The ring-shaped corneal correction contact lens according to the present invention has a central part corresponding to the central part of the corneal dome or the pupil as a through-hole at the time of wearing, so oxygen and tears are present on the surface of the central part of the corneal dome. It is supplied and can be used even in the case of dry eye, and can also be formed by an opaque material, and further has an effect that it can be prevented from being displaced from a position centered on the pupil.

Sectional drawing which shows typically the contact lens for ring-shaped cornea correction which concerns on Example 1 of this invention. Rear view of contact lens along line II-II in Fig. 1 Sectional drawing which shows the conventional contact lens for myopia correction typically with a cornea and a part of eyeball Sectional view similar to FIG. 3 schematically showing a conventional contact lens for hyperopia or presbyopia correction

The ring-shaped corneal correction contact lens according to the present embodiment is formed with a relief area consisting of a concave part and a pressing area consisting of a convex part on the side that comes into contact with the cornea of a patient with hyperopia or presbyopia. The pressing area is pressed against the cornea so that a part of the cornea is pressed into the cornea and, as a reaction, a part of the cornea protrudes into the relief area, so that the shape of the cornea can be obtained with a desired naked eye vision The relief region has a central portion corresponding to the central portion of the corneal dome as a through hole having a diameter of more than 5 mm and not more than 8 mm, and a part of the cornea pressed by the pressing region is here Is projected.

  As shown in FIG. 1, a ring-shaped corneal correction contact lens (hereinafter, ring-shaped lens) 10 according to Example 1 of the present invention is for hyperopia or presbyopia correction, and is used by being attached to a cornea 12. In FIG. 1, reference numeral 14 denotes a crystalline lens.

The ring-shaped lens 10 includes a relief region 18 formed as a through-hole having a diameter of more than 5 mm and not more than 8 mm at the center of the corneal dome (where the front end surface of the cornea is most raised) or at a position corresponding to the pupil. The cross section formed at a position surrounding the outer periphery of the relief region 18 is provided at a position surrounding the outer periphery of the pressing region 20 and the pressing region 20 formed of an annular convex portion having a convex arc shape on the cornea side. An anchor region 24 having a shape along the contour 22 (see FIG. 2) of the cornea 12 when mounted, and a peripheral edge 26 surrounding the outer periphery of the anchor region 24 are configured.

  In the cross-section of the ring-shaped lens 10, the pressing area 20 has an arc shape convex toward the cornea 12, and the inner peripheral surface 20 </ b> A of the through hole, which is the relief area 18, penetrates smoothly from the convex arc 18 </ b> A of the pressing area 20. A circular arc shape convex toward the hole center side.

Here, the diameter of the through-hole is set to more than 5 mm and not more than 8 mm because (1) the average diameter of the human pupil changes, for example, in the range of 4 mm when it is very bright, and 8 mm when it is dark. this all SANYO made to correspond to the change of the pupil, and (2) diameter becomes less amount of light incident on the normal times of the pupil is less than 4 mm, also the strength of the contact lens when it exceeds 8mm There want smaller, further, although sufficient oxygen and tear through the relief area 18 when the diameter is to exceed 5mm is supplied to the center of the cornea dome, if the diameter is less 5mm, 5mm greater than There is a reason that the supply amount of oxygen and tears is reduced as compared to the case, and the area of the corneal dome that can supply them is reduced .

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In FIG. 1, the conventional lens 1B shown in FIG. 4 is indicated by a two-dot chain line.

As shown in FIGS. 1 and 2, the outer diameter D ₁ of the peripheral edge portion 26 of the ring-shaped lens 10 is 3.0 or more and 5.0 mm or less than the average outer diameter D ₀ of the outer peripheral edge of the human cornea 12. UV that blocks the ultraviolet rays on the side that comes into contact with the cornea 12 in the annular region from the position where the diameter of the peripheral edge portion 26 is D ₀ −3.0 mm or less and D ₀ −5.0 mm or more to the outermost periphery is increased. A shielding film 28 is provided. The UV shielding film 28 is preferably a material that is harmless even when it comes into contact with the cornea 12, for example, a thin film such as gold, titanium, or silver.

  The correction of hyperopia or presbyopia using the ring-shaped lens 10 of the first embodiment is performed by wearing it at bedtime as usual. When the ring-shaped lens 10 is pushed by a scissors while sleeping and the pressing area 20 pushes the cornea 12, a part thereof is pushed into the relief area 18 which is a through hole, and the cornea 12 is deformed into a convex lens shape. . This corrects hyperopia or presbyopia.

  During the above correction, since the relief region 18 is a through-hole, air and tears can easily enter in this portion, and oxygen can be supplied to the cornea and moistened. Further, in the through hole, since the eyelids do not directly contact the ring-shaped lens 10, it is easy to slip with respect to the ring-shaped lens 10 and less strange, but as described above, a part of the cornea 12 pressed by the pressing region 20. Projecting into the through-hole, which is the relief region 18, makes it difficult for the ring-shaped lens 10 to move relative to the cornea 12, and prevents the ring-shaped lens 10 from shifting during sleep.

  In addition, since the relief region 18 at a position corresponding to the pupil is a through-hole, the ring-shaped lens 10 can be normally viewed through the through-hole, and can be worn not only at bedtime but also in a normal living state. Can do.

  Next, the process of fixing the cornea 12 corrected using the ring lens 10 by cross linking will be described. Here, the cross linking means that if the normal corneal correction contact lens is not worn for a long time, the corneal restoring force returns to the original myopia or hyperopia state, but the cornea is fixed to the correction state. . This fixation is performed by irradiating ultraviolet rays with riboflavin (vitamin B2) infiltrated into the corneal tissue to crosslink (crosslink) the collagen constituting the cornea.

  First, a riboflavin (vitamin B2) solution is infiltrated into the cornea 12 by eye drops.

  Next, after penetration of riboflavin, the ring-shaped lens 10 of Example 1 is attached to the cornea 12, the cornea 12 is pressed by the pressing region 20, and one of the corneas 12 pressed by the deformation of the pressed cornea 12 is pressed. The part enters the relief region 18 which is a through hole.

  In this state, the cornea 12 is irradiated with ultraviolet rays through the relief region 18 which is a through hole, and the collagen fibers constituting the cornea 12 are cross-linked.

  The ultraviolet ray does not reach the cornea 12 because the UV shielding film 28 is formed so as to cover the peripheral edge 26 on the side of the ring lens 10 that contacts the cornea 12. The universal cells in the inner cornea 12 are not damaged.

  Further, even if the ring-shaped lens 10 is removed after the ultraviolet irradiation is completed, the cornea 12 is fixed in the shape added by the pressing area 20 and the relief area 18.

  In addition, the ring-shaped lens 10 of the first embodiment may be formed transparent with the same material as that of a normal contact lens, or may be formed with a colored or opaque material.

  Further, for example, it is conceivable to manufacture a contact lens by a 3D printer. In this case, in order to make the whole transparent, even if the ink material is transparent, the boundary line of the granular ink remains and the lens is left. In order to make it opaque, it is necessary to heat-process this.

  In the ring-shaped lens of the present invention, the portion corresponding to the pupil or the central portion of the corneal dome is a through-hole when worn, and the surrounding portion may be opaque. Therefore, it is not necessary to heat-treat after the ring-shaped lens of the present invention is produced by a 3D printer.

  Moreover, you may manufacture a material with UV shielding material (ultraviolet shielding material). In this case, at least the pressing region 20 or the whole of the ring lens 10 may be formed of a UV shielding material.

  Further, when used in the cross linking method of the correction cornea described above, at least a portion corresponding to the UV shielding film 28 may be formed of a UV shielding material, and when not used in the cross linking method, the peripheral portion 26, the UV shielding film. 28 may not be provided.

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The present invention, there is availability to the cornea corrective contact lenses.

DESCRIPTION OF SYMBOLS 1A, 1B ... Conventional lens 10 ... Contact lens for ring-shaped cornea correction (ring-shaped lens)
DESCRIPTION OF SYMBOLS 12 ... Cornea 14 ... Lens 18 ... Relief area 18A ... Convex arc 20 ... Press area 20A, 32A ... Inner peripheral surface 22 ... Contour 24 ... Anchor area 26 ... Peripheral part 28 ... UV shielding film

Claims (4)

At least one of hyperopia and presbyopia is formed by forming a relief area consisting of a concave part and a pressing area consisting of a convex part on the side in contact with the patient's cornea and changing the shape of the cornea by pressing at least the pressing area against the cornea A corneal correction contact lens for correcting
The relief region is formed as a through hole having a diameter of more than 5 mm and not more than 8 mm at a position corresponding to the central portion of the corneal dome when mounted on the cornea, and the cornea protrudes into the through hole and has a convex curved surface. Is to form a
The pressing area is formed of an annular convex portion having a convex arc shape in cross section formed at a position surrounding the outer periphery of the relief area,
It is provided at a position surrounding the outer periphery of the pressing region, and has at least an anchor region among an anchor region shaped so as to follow the contour of the cornea when attached to the cornea and a peripheral portion surrounding the outer periphery of the anchor region. And
In the cross section, the pressing area is formed in an arc shape that is continuous from the anchor area and convex toward the cornea, and the inner peripheral surface of the through hole is smoothly continuous from the convex arc of the pressing area, and the patient's A ring-shaped corneal correction contact lens, characterized in that it has a circular arc shape that is continuous with the side that does not contact the cornea and is convex toward the center of the through hole . Oite to claim 1,
A ring-shaped corneal correction contact lens, wherein at least the pressing region of the pressing region and the anchor region is made of an opaque material. In claim 1 or 2 ,
A ring-shaped corneal correction contact lens, wherein at least the pressing region of the pressing region and the anchor region is formed of a UV shielding material that blocks ultraviolet rays. In any one of Claims 1 thru | or 3 ,
Wherein a peripheral portion surrounding the outer periphery of the anchoring region, the outer diameter D ₁ of the the periphery, rather than the average Tekisoto径D ₀ of the outer peripheral edge of the human cornea are greatly 3.0 or 5.0mm or less, and In addition, a UV shielding film for shielding ultraviolet rays is provided on the side in contact with the cornea in the annular region from the position where the diameter at the peripheral edge is D ₀ −3.0 mm or less and D ₀ −5.0 mm or more to the outermost periphery. A contact lens for correcting a ring-like cornea.

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