JP2840298B2 - Intraocular lens - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to an intraocular lens attached to a capsular bag after removing the lens, and more particularly, to an intraocular lens provided for removing a nucleus in the capsular bag. The present invention relates to an intraocular lens fixed to an opening.

2. Description of the Related Art Conventionally, as one method of cataract surgery, a nucleus in the capsule is extracted from an opening provided in the anterior capsule, leaving the anterior capsule of the lens, and then replaced through the opening. A method of inserting the inner lens into the capsule is adopted.

According to this method, the intraocular lens inserted into the capsule,
The anterior capsule has the advantage that it is difficult to go anteriorly (in the direction of the cornea).
ar Capsulorhexis), since the incision shape is circular and an opening having a uniform cross section is formed continuously, even if stress concentration occurs, the opening is difficult to tear,
As a result, the projection of the lens and the displacement of the lens due to the breakage of the opening can be prevented well.

However, after a long period of time after the operation, the opening of the epithelium is promoted, and the proliferation of epithelial cells is promoted.
It will be gradually closed with cloudiness. As a result, the anterior surface of the intraocular lens inserted into the capsule will be covered by the clouded anterior capsule, thereby distorting the image formed through the lens or causing poor visibility. There is a possibility that problems such as becoming may be caused. In addition, since the position of the intraocular lens in the capsule is not fixed, there is a problem that the lens is displaced by contraction of the capsule.

Therefore, as disclosed in U.S. Pat.No. 4,342,123, a clip-shaped support portion is provided for the lens body, and the support portion sandwiches an opening provided in the anterior capsule,
Intraocular lenses have been proposed that hold a lens body within an opening. In short, in such a lens, the position of the lens can be fixed at the opening, and the front surface of the lens is positioned outside the capsule in order to prevent the front surface of the lens from being covered with the anterior capsule. It has become.

However, in such an intraocular lens, although the front part of the lens is located outside the capsule, the opening of the anterior capsule, which is a cell growth part, is left alone. It is inevitable that the peripheral portion of the lens extends along the lens surface, gradually covers the optical part of the lens, and the opening is closed on the front or rear surface of the lens with cloudiness. .

Furthermore, since such an intraocular lens holds the anterior capsule by the holding force of the supporting portion, the intraocular lens may be used when the pinching force decreases over time or when an impact is applied. There was also the danger of slipping and falling off.

(Problem to be Solved) Under such circumstances, the present invention has been made, and the problem to be solved is that without closing the opening of the anterior capsule and without causing the lens to be displaced. Another object of the present invention is to provide an intraocular lens that can be stably held at the center of the eye.

(Solution) In order to solve the above-mentioned problems, in the present invention, a direction substantially perpendicular to an optical axis with respect to an intraocular lens fixed to an opening provided in an anterior capsule portion of a crystalline lens. The groove portion is provided in an annular shape along the periphery of the lens optical portion, and the peripheral portion of the opening is accommodated and held in the groove portion.

Further, in the present invention, in the intraocular lens having such a structure, at least a part of the rear lens portion on the back of the groove is, in a projection view in the optical axis direction, smaller than the front lens portion on the front of the groove. The fact that it is located on the outside is also a feature thereof.

(Operation) In short, the intraocular lens according to the present invention accommodates and holds the entire periphery of the peripheral portion of the opening formed in the anterior capsule of the crystalline lens in the annular groove formed around the lens. Then, the end face (cell proliferating portion) of the opening is positioned in the groove, whereby the intraocular lens is
Fitted in a circular opening provided in the center of the anterior capsule,
It is effectively fixed in that position.

In such an attached state, the cell proliferation at the opening of the anterior capsule is performed only in the groove having a predetermined groove depth. Is effectively prevented from leaving
The extension of the anterior capsule will be retained in the groove. Therefore,
The anterior or posterior surface of the lens is effectively prevented from becoming overly obscured by the anterior capsule, and thus the closure of the opening can advantageously be prevented.

Further, when at least a part of the rear lens portion of the intraocular lens is located outside the front lens portion in the projection view in the optical axis direction, in that portion,
Since the length to the groove bottom on the rear lens side is set to be longer than the length to the groove bottom on the front lens side, the escape of the intraocular lens toward the front side is favorably suppressed.

(Specific Configuration) The intraocular lens according to the present invention is made of the same material as a normal intraocular lens. For example, a highly transparent synthetic material such as polymethyl methacrylate, polyhydroxyethyl methacrylate, or silicone rubber is used. It will be formed of resin or glass.

In the present invention, a groove that can sandwich the anterior capsule is provided around the optical part of the lens, and the groove is fixed to a circular opening provided in the anterior capsule. Are formed in a direction substantially perpendicular to the optical axis, and are formed in an annular shape so as to hold the entire circumference of the opening of the anterior capsule.

Here, the shape of the intraocular lens according to the present invention will be described in more detail with reference to the drawings. First, in FIG. 1 showing an example of the intraocular lens according to the present invention, the intraocular lens will be described. The annular groove 4 described above is formed in a peripheral portion of the groove 2, and the groove 4 forms an optical part 6 as a radially inner part of the groove 4, and a front lens that is a front part of the groove 4. 8 and the rear lens 10 which is the back of the groove 4 can be distinguished. Here, the front lens 8 has a circular shape having a diameter of L, and the rear lens 10 has a diameter larger than L: Μ.
It has a circular shape.

And in such an intraocular lens 2, generally,
The diameter of the optical part 6 is desirably about 3 to 8 mm, and the groove depth of the groove 4 is desirably set to about 0.1 mm to 2 mm. If the groove depth is less than 0.1mm,
When the opening of the anterior capsule is inserted into the groove 4, it may come off. When it is deeper than 2 mm, the effect remains unchanged, and it is difficult to insert the opening of the anterior capsule into the groove 4 of the lens. In addition, since the size of the intraocular lens 2 becomes large, it may be difficult to insert the intraocular lens 2 from the incision in the cornea. As is clear from the figure, the groove depth in such an intraocular lens 2 is
One of a length (D ₁ ) from the outer periphery of the front lens 8 to the bottom of the groove 4 and a length (D ₂ ) from the outer periphery of the rear lens 10 to the bottom of the groove 4 It is defined as the shorter one.

Further, in the intraocular lens 2 shown in FIG. 1, since the diameter L of the front lens 8 is smaller than the diameter Μ of the rear lens 10 as described above, In the projection, the rear lens 10 is located outside the front lens 8 over the entire circumference. With this configuration, the length (D ₂ ) of the rear lens 10 is longer over the entire circumference (D ₁ <D ₂ ) than the length (D ₁ ) of the front lens 8. ), The intraocular lens 2 is effectively prevented from dropping forward (corneal side) from the capsule due to impact, vitreous pressure, etc., and safety can be advantageously secured. .

Note that such a configuration (D ₁ <D ₂ ) does not need to be formed over the entire circumference of the lens, and a good effect can be obtained even if it is provided partially. Also, the front lens 8 and the rear lens 10 are preferably circular in shape for ease of manufacture and the like, but are not particularly limited as long as the groove 4 is annular. The effects of the present invention can be obtained even with an intraocular lens having a configuration as shown in FIGS. In these drawings, the same parts as those of the intraocular lens 2 are denoted by the same reference numerals, and the description will be simplified.

First, in the intraocular lens 12 shown in FIG. 2, the front lens 8 has a circular shape, while the rear lens 10 has a rectangular short side having a semicircular shape. The groove depth is set to be constant. Therefore, similarly to the case of the intraocular lens 2, it is possible to prevent the forward (corneal side) escape. Incidentally, such a In the intraocular lens 12, the rear lens 10 side length: D ₂ is not a full circumference a constant, in such a case, the front lens 8 side length: D ₁ 2
What is necessary is just to set it smaller than mm.

In addition, in the intraocular lens 14 shown in FIG. 3, the front lens 8 is formed in a circular shape and the rear lens 10 is formed in a substantially rectangular shape. The width of the rear lens 10 is smaller than the diameter of the front lens 8, while The length of the lens 10 is set longer than the diameter of the front lens 8. Therefore, such an intraocular lens
14 (in the figure, the left-right direction) the length direction of the rear lens 10 in the central portion of the edge extending in the front lens 8 side length: D ₁ is the rear lens 10 side length: longer than D ₂ And
And the other portions, the rear lens 10 side length: D ₂ is the front lens 8 side length: are longer than D _1, whereby, coming off of the intraocular lens 14 are both favorable in the longitudinal direction Can be prevented.

Further, in the intraocular lens 16 shown in FIG. 4, the front lens 8 is substantially square, and the rear lens 10 is circular. At the corner of the front lens 8, the length: D ₁ on the front lens 8 side is longer than the length: D ₂ on the rear lens 10 side, and in other portions, the length: D ₂ on the rear lens 10 side there front lens 8 side length: from where is set longer than D _1, even in such intraocular lens 16 is the breaks out of the lens forward and backward in both directions can be effectively prevented.

As is clear from the above description, the intraocular lens according to the present invention has an annular groove, so that the intraocular lens is fixedly positioned at the opening of the anterior capsule and prevents the opening from being closed due to cell proliferation. You can do it. When the groove portion is set deeply on the rear lens side as described above, it is possible to effectively prevent the intraocular lens according to the present invention from slipping forward.

In addition, with respect to the intraocular lens having the above configuration, for the purpose of better preventing the lens from falling off from the anterior capsule,
Furthermore, it is also possible to provide a predetermined support. This support portion is formed of a synthetic resin such as polyamide, polyimide, polypropylene, polyvinylidene fluoride, polymethyl methacrylate, polyhydroxyethyl methacrylate, and silicone rubber, as well as a commonly used one. A commonly used U-loop shape, C-loop shape, J-loop shape, and the like are appropriately selected, and the mounting position is not particularly limited.

For example, in FIGS. 5A and 5B, the center of the front lens 8 of the intraocular lens 2 as shown in FIG. 1 is a symmetrical point. A J-loop-shaped support portion 18 and a U-loop-shaped support portion 20 are provided at two places having a phase difference of 180 °, respectively.
This shows an example in which the intraocular lens 2 can be properly prevented from dropping into the capsule by the presence of the support portions 18 and 20. 6 (a) and 6 (b)
Are J-loop-shaped support portions 1 at two positions having a phase difference of 180 ° with the center of the rear lens 10 as a symmetrical point.
8, which shows an example in which a U-loop-shaped support portion 20 is provided, and the presence of the support members 18 and 20 prevents the intraocular lens 2 from falling out of the capsule. .

Needless to say, the intraocular lens according to the present invention can be provided with holes, tabs (projections provided on the periphery of the lens), etc., as provided in a normal intraocular lens. By providing the holes and tabs, it becomes possible to easily perform operations such as insertion of the intraocular lens using tweezers and correction of the fixed state.

Then, the thus formed intraocular lens according to the present invention is inserted into the eye in a state as shown in FIGS. 7 (a) and 7 (b). That is, FIG.
7 shows a cross section of the anterior part of the eyeball, in which the intraocular lens 2 shown in FIG. 1 is attached to the anterior capsule 24 of the lens capsule 22 after the nucleus has been extracted. As shown in an enlarged manner in FIG. 2B, the peripheral portion of the circular opening 28 provided in the anterior capsule 24 is accommodated and held in the annular groove 4 of the intraocular lens 2. . In FIG. 7A, reference numeral 26 denotes a cornea.

Incidentally, the procedure of actually inserting the intraocular lens 2 into the eye is performed as follows. First, a part of the rear lens 10 (including the supporting part when the rear lens has a supporting part) is inserted into the opening 28 provided in the anterior capsule 24, and is inserted into the groove 4 of the intraocular lens 2. So as to sandwich 24.
The opening 28 is formed in advance to remove the nucleus of the lens.
It is formed in a circular shape by the CCC method, and its size substantially matches the size of the groove 4 of the intraocular lens 2. Next, using tweezers or the like, the peripheral portion of the opening 28 is sequentially inserted into the annular groove 4 of the intraocular lens 2. At this time, since the anterior capsule 24 has a certain degree of elasticity, the anterior capsule 24 can expand the depth of the groove 4. When the entire circumference is finally clamped, the intraocular lens 2 is fixed to the opening 28 of the anterior capsule 24 as shown in FIGS. 7 (a) and 7 (b).

By the way, the lens becomes flat after the nucleus is removed, but if the intraocular lens according to the present invention is inserted as it is, no problem occurs. However,
By injecting a predetermined injectate into the capsule, it is also possible to make it elastic like a natural lens, thereby adjusting the visual acuity.

Specific examples of such injections include natural substances such as pullulan, sodium alginate, agar, hyaluronic acid, chitosan, collagen, elastin, methylcellulose,
Examples include synthetic substances such as polyvinyl alcohol, polyacrylamide, polyacrylic acid, silicone gel, and polyvinylpyrrolidone. Thus, in order to actually inject, since the leakage from the opening occurs, the above-described injectate is disclosed in JP-A-63-200755 and JP-A-64
After injecting into the balloon body described in -32859 No.
The balloon body can be inserted into the capsule. Especially,
In the case where the biosafety of the injected substance is low, the safety can be improved by using a balloon body. Furthermore, with the intraocular lens 2 fixed to the opening 28 of the anterior capsule 24, an injection needle or the like is inserted into the gap between the opening 28 and the groove 4 to inject the injected substance. Since the lens 2 closes the opening 28, the injection can be performed while preventing the leakage of the injection.

(Effects of the Invention) As is clear from the above description, in the intraocular lens according to the present invention, since it is fixed to the opening provided in the anterior capsule, the position of the opening, that is, It can be fixed to the center of the anterior capsule, and it is firmly fixed because the entire circumference of the opening is sandwiched and held by the entire circumference of the groove of the lens, eliminating lens displacement due to shrinkage of the capsule. In addition to the above, the cells are more firmly fixed by the cell proliferation in the openings, and can be stably held even in a long term.

And by being fixed as described above, cell proliferation in the post-operative opening is performed in the groove of the lens, so that the opening is prevented from being closed, and the optical part of the intraocular lens is prevented from being closed. Therefore, adhesion of the produced collagen fibers and the anterior capsule is avoided, and problems such as cloudiness do not occur. Therefore, the optical performance of the intraocular lens is stably and favorably maintained.

Further, in the intraocular lens according to the present invention, when at least a part of the rear lens is located outside the front lens part in the projection view in the optical axis direction,
When an impact is applied, the intraocular lens moves forward (corneal side)
Can be prevented better, and the safety is further improved.

[Brief description of the drawings]

FIG. 1 shows an example of an intraocular lens according to the present invention. FIG. 1 (a) is a plan view thereof, and FIG. It is B sectional drawing.
2, 3 and 4 are plan views showing different examples of the intraocular lens according to the present invention. In addition, the fifth
FIGS. 6 and 7 are plan views each showing a state where a support is attached to the intraocular lens as shown in FIG. 1. FIGS. 5 (a) and (b) are front views, respectively. FIG. 6 (a) shows a lens provided with a support portion on the lens side,
(B) shows the lens which provided the support part in the back lens side, respectively. Further, FIG. 7 is an explanatory view showing a state in which the intraocular lens shown in FIG. 1 is inserted into the eye, and FIG. 7 (a) shows the state of the intraocular lens in the whole eyeball. FIG. 7 (b) is an explanatory view showing an enlarged capsule portion before lens attachment in FIG. 7 (a). 2, 12, 14, 16: Intraocular lens 4: Groove 6: Optical part, 8: Front lens 10: Rear lens, 24: Anterior capsule 28: Opening

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-53-84388 (JP, A) JP-A-51-151149 (JP, A) (58) Fields investigated (Int. Cl. ⁶ , DB name) A61F 2/16

Claims (2)

(57) [Claims] 1. An intraocular lens fixed to an opening provided in an anterior capsule portion of a crystalline lens, and having an annular groove substantially perpendicular to an optical axis along a peripheral portion of a lens optical unit. An intraocular lens wherein the peripheral portion of the opening is accommodated and held in the groove. 2. A projection device according to claim 1, wherein at least a part of a rear lens portion of a back portion of said groove portion is located outside a front lens portion of a front portion of said groove portion in a projection view in an optical axis direction. Intraocular lens.