DE102004029384A1 - Intraocular lens, has flexible ductile carrier that includes outer and inner surfaces, where carrier extends traversely towards rear surface of lens relative to incidence direction, and backup ligaments connected to lens body - Google Patents

Abstract

The lens has a flexible ductile carrier that includes outer and inner surfaces. The carrier extends traversely towards a rear surface of the lens relative to an incidence direction. Backup ligaments are connected to a body of the lens, where an outside diameter of the carrier corresponds to an inside diameter of ciliary body (4). The ligaments extend outward from center of the lens in a radial direction.

Description

The The invention relates to an accommodatable intraocular lens which one from an outer as well an inner surface limited lens body with carrier having.

such Intraocular lenses are especially used after surgery Removed one by the as "Gray Star "designated eye disease cloudy to replace anatomical lenses.

The anatomical human eye achieves a sharp vision on different Distances by providing an accommodative power mainly through a refractive power change of Lens and to a lesser extent by a forward displacement of the Lens. Dependent on from the extent of the Forward displacement of the lens and mainly extent of swelling the anatomical lens is a suitable focal length specification relative to the point of the harshest See the retina for a clear vision.

To a replacement of the clouded anatomical lens through an intraocular lens can currently be the accommodative power of the eye restored insufficiently become. this leads to to that in usually after insertion of an intraocular lens either to Reading or for the foresight additionally Glasses are required because the achievable accommodation performance at the most a diopter lies.

task The present invention is an accommodative intraocular lens the type mentioned in the introduction to construct such that multifocal Properties are provided.

These Task is inventively characterized solved, that the lens body with at least one elastically deformable e.g. coupled spring-like carrier is.

These Invention is based on the forward displacement of the lens by the above Haptics of the lens, the residual functions of the ciliary body in the The accommodation.

By the coupling of the lens body with the elastically deformable carrier as a haptic, it is possible a Transformation of forces acting on the lens wearer ciliary body to perform in a forward displacement of the lens body. A Specification of the relation between the acting forces and The forward displacement may be due to the spring phenomenon as well as the elasticity of the deformable carrier as well as the provided spring constant. Especially Is it possible, the corresponding elastic properties or the spring constant to the individually available Remaining function of the ciliary body adapt.

Of the elastic deformable straps provides a haptic for the lens body ready, the one acting on the lateral, compressive and tensile forces Forward displacement of the lens body ensures and with a decreasing force of the ciliary body a return of the lens body guaranteed in the basic positioning.

to warranty a forward displacement of the lens body with acting forces it is suggested that the carrier at least partially obliquely to the rear relative to an optical incident direction extends. The rearward extension portion is preferably minimal.

A compact design with low required adjustment forces is provided by the carrier is formed spiral spring-like.

A structurally simpler realization is provided by that the carrier at least partially formed as a support web.

to support a force application of the ciliary body in the carrier is suggested that the supporting web in the area of his the lens body facing away Expansion connected with a cross-leg is.

A another embodiment is that the carrier is formed socket-like.

A further embodiment is defined by the fact that carrier is formed shell-like.

A reliable Anchoring the carrier in the ciliary body can be done by the carrier is dimensioned such that about one third of the carrier from the ciliary body is receivable. This third of the wearer will become after an implantation between the mountains and valleys of the ciliary body arranged. The rest of the wearer remains free to move in the area of the back eye chamber.

A Advantageous dimensioning is that an outer diameter of the carrier about one Inner diameter of the ciliary body equivalent. The diameter of the lens optic is slightly less than the diameter the anatomical lens, for example in the range of about 4 to 6 mm.

to support a uniform application of force it proves to be advantageous that the lens body facing away End portions of the carrier span a substantially circular base.

A again improved anchoring in the area of the ciliary body can be achieved in that in Area of the ciliary body end of the carrier at least one stage is arranged.

In addition to an admission of the carrier through the power of the ciliary body it is also possible additionally a support of the carrier on the zonular fibers. The tensile forces acting in the zonular fibers can thereby additionally for a forward displacement the intraocular lens can be used.

In The drawings are exemplary embodiments of the invention shown schematically. Show it:

1 a perspective schematic representation of an eye with vitreous body and anatomical lens,

2 a representation accordingly 1 with additionally marked intraocular lens,

3 a schematic plan view of a akkomodationsfähigen intraocular lens with helical spring-like trained elastically deformable support as a haptic,

4 a schematic representation of a Akkomodationslinse with laterally projecting support webs as a haptic,

5 a side view of the accommodation lens according to 4 .

6 one opposite the presentation 3 modified embodiment with widened transverse feet of the support webs and a reduced number of support webs,

7 a side view of the accommodation lens according to 5 .

8th a schematic representation of a Akkomodationslinse with frustoconical elastically deformable support and

9 a schematic representation of an intraocular lens with a carrier which surrounds the ciliary body by a support profile.

1 shows an eye ( 1 ) with a vitreous body ( 2 ) and an anatomical lens ( 3 ). The Lens ( 3 ) is in the area of the eye ( 1 ) of a ciliary body ( 4 ).

2 shows one opposite 1 modified representation, in the direction of view in front of the anatomical lens ( 3 ) an accommodative intraocular lens, in the following short accommodation lens ( 5 ) is used. The accommodation lens ( 5 ) is thereby located between the anatomical lens ( 3 ) and the iris ( 19 ). Also marked are the cornea ( 20 ) and the zonular fibers ( 21 ). After inserting the accommodation lens ( 5 ), the anatomical lens ( 2 ) are removed in such a way that at least temporarily the rear capsule ( 22 ) remains. The accommodation lens ( 5 ) is via carrier ( 6 ) in the area of the ciliary body ( 4 ) supported.

3 shows an accommodatable intraocular lens ( 5 ) fitted with an elastically deformable support ( 6 ) is coupled. The carrier ( 6 ) provides a haptic for the accommodation lens ( 5 ) ready. In the illustrated embodiment, the carrier ( 6 ) made of two spiral spring-like curved spring elements ( 7 . 8th ) educated. The spring elements each have steps ( 9 . 10 ) end segments coupled to the remainder of the element region ( 11 . 12 ) on.

The carrier ( 6 ) of the accommodation lens ( 5 ) is advantageously provided with a diameter substantially equal to a diameter of approximately the ciliary body ( 4 ) corresponds. The end segments ( 11 . 12 ) of the spring elements ( 7 . 8th ), for example, have a distance relative to one another that is approximately equal to twice the diameter of the accommodation lens (FIG. 5 ). By using the spring elements ( 7 . 8th ) can via the forward displacement of the accommodation lens ( 5 ) An accommodation performance of about 3 dioptres can be achieved.

4 shows a further embodiment of the carrier used as a haptic ( 6 ). The carrier ( 6 ) consists of eight supporting bars ( 13 ) starting from a center of the accommodation lens ( 5 ) extend in the radial direction outward substantially. In the area of their accommodation lens ( 5 ) facing away from the support webs ( 13 ) Cross feet ( 14 ), which are used for transmitting power from the ciliary body to the support bars ( 13 ) serve. In the illustrated embodiment, the transverse feet are substantially T-shaped on the support bar ( 13 ) arranged and have a circular segment-like curved course. Advantageously, all cross-feet ( 14 ) along a concentric to the center of the accommodation lens ( 5 ) arranged circular arc positioned.

The cross feet ( 14 ) are advantageously Wei formed with rounded contours, avoiding edges or sharp boundaries, to prevent injury or other impairment to the ciliary body ( 4 ) as well as the zonular fibers ( 21 ) to avoid. To support a uniform application of force to the ciliary body in the wearer ( 5 ) is particularly intended, the outer contour of the carrier ( 6 ) to the contour of the ciliary body ( 4 ).

From the side view in 5 It can be seen that the support webs ( 13 ) relative to an optical incident direction ( 15 ) extend obliquely backwards. The inclination is preferably such that an angle of about 175 ° is clamped. The concrete value of the angle can vary to achieve optimal results.

The supporting webs ( 13 ) are preferably made of an elastically deformable material, eg plastic. Due to the cross-sectional dimensioning of the support webs ( 13 ), the spring constant and thus the transformation ratio between the acting force of the ciliary body and the resulting advancement of the accommodation lens ( 5 ). The advancement path of the accommodation lens ( 5 ) can be determined by the width dimension of the cross feet ( 14 ). When a collision of the cross feet ( 14 ), even with an increased force of the ciliary body no further forward displacement of the accommodation lens ( 5 ).

6 shows a relation to the embodiment in 4 modified embodiment. There are fewer support rods here ( 13 ) and the transverse feet ( 14 ) are wider across the radial direction. Due to this larger dimensioning of the cross feet ( 14 ) provides a larger area of attack for the ciliary body. This larger surface causes even smaller acting forces of the ciliary body a required forward displacement of Akkomodationslinse ( 5 ). The size of the cross feet ( 14 ) thus provides in addition to the specification of the bending stiffness of the support webs ( 13 ) a way to define the respective transformation factor ready.

7 again shows a side view of the accommodation lens ( 5 ) with a carrier ( 6 ) according to the embodiment in 6 , for example, six supporting webs ( 13 ) having. To recognize the relative to 4 greater distance between the cross feet ( 14 ) and the reduced number of supporting webs ( 13 ) and associated transverse feet ( 14 ).

If it should turn out during the implementation of the illustrated implantations of the intraocular lens according to the invention that a complication occurs according to which the vitreous body penetrates into the posterior chamber and leads to adhesions, so to avoid these appear unlikely complications during implantation of the intraocular lens according to the invention in addition another capsular bag-fixed intraocular lens can be used. A glass body prolapse in the posterior chamber of the eye is effectively prevented by such an additional intraocular lens. However, such a complication is conceivable anyway only for a few design variants and does not apply 1 and 9 ,

According to a further alternative embodiment, in the region of the accommodation lens (FIG. 5 ) facing away from the carrier ( 6 ), a signal amplifier can be installed, which increases the accommodation behavior of the entire system or amplified or multiplied.

In the 4 and 6 shown supporting webs ( 13 ) may also have curved, curved or with respect to the cross-sectional profile modified designs deviating from the linear design shown in the figures. In particular, a design is chosen that optimally transforms the forces acting on the ciliary body ( 4 ) in a forward displacement of the accommodation lens ( 5 ) support.

8th shows an embodiment in which the carrier ( 6 ) is frustoconical. A sufficiently elastic compressibility is provided here either by a suitable material selection and / or by predetermined folds or overlapping regions.

Notwithstanding the in 2 illustrated installation situation for the accommodation lens ( 5 ) just behind the iris ( 19 ) is according to 9 illustrated a mounting situation, in particular at a removal of the glass body ( 2 ) is advantageous. In particular, the in 9 illustrated embodiment in a congenital cataract appropriate. The carrier ( 6 ) has in this embodiment in the region of its the accommodation lens ( 5 ) facing away from one or more holding elements ( 23 ) on the ciliary body ( 4 ) are U-shaped or V-shaped. As a result, a secure anchoring of the accommodation lens ( 5 ) and also in this embodiment, a contraction of the ciliary body ( 4 ) in a forward displacement of the accommodation lens ( 5 ) are transformed.

Claims (11)

Accommodatable intraocular lens having a lens body with carrier bounded by an outer and an inner surface, characterized in that the lens body ( 16 ) with at least one elastically deformable Carrier ( 6 ) is coupled. Accommodation lens according to claim 1, characterized in that the support ( 6 ) relative to an optical incident direction ( 5 ) extends at least partially obliquely to the rear. Accommodating lens according to Claim 1 or 2, characterized in that the support ( 6 ) is formed spiral spring-like. Accommodating lens according to Claim 1 or 2, characterized in that the support ( 6 ) at least regionally as a support bridge ( 13 ) is trained. Accommodating lens according to claim 4, characterized in that the supporting bridge ( 13 ) in the region of the lens body ( 16 ) facing away with a transverse foot ( 14 ) connected is. Accommodating lens according to Claim 1 or 2, characterized in that the support ( 6 ) is formed like a pedestal. Accommodating lens according to Claim 1 or 2, characterized in that the support ( 6 ) is formed like a shell. Accommodating lens according to one of Claims 1 to 7, characterized in that the support ( 6 ) is dimensioned such that about one third of the carrier ( 6 ) is receivable by the ciliary body. Accommodating lens according to one of claims 1 to 8, characterized in that an outer diameter of the carrier ( 6 ) about an inner diameter of the ciliary body ( 4 ) corresponds. Accommodating lens according to one of claims 1 to 9, characterized in that the lens body ( 16 ) end portions of the carrier ( 16 ) span a substantially circular base. Accommodating lens according to one of claims 1 to 10, characterized in that in the region of the end of the carrier ( 6 ) at least one stage ( 9 . 10 ) is arranged.