WO1999020206A1 - Intraocular implant device - Google Patents

Abstract

The invention concerns an intraocular implant device comprising: a first front intraocular implant (22) comprising a substantially circular (26) optic part (24) made of a flexible material and a haptic part (34, 36); a second rear intraocular implant (10) comprising a substantially circular optic part (12) made of a flexible material and a haptic part (20, 21) and means (18, 30) for substantially coinciding the optical axes of the first and second intraocular implants after they have been successively set in a patient's eye.

Description

 Intraocular implant device

The present invention relates to an intraocular implant device.

Intraocular implants are now well known. Intraocular implants can be made of two main types of material, on the one hand, so-called rigid materials such as PMMA, and on the other hand flexible materials, the best known of which is marketed under the brand name Hydrogel.

This second type of material used to make intraocular implants has the advantage, when used to make the optical part of the implant, to allow folding of this optical part and consequently to give the possibility to implant the implant inside the eye through a reduced size incision. It is particularly advantageous to be able to place the intraocular implant through an incision whose effective dimension is at most equal to 4 mm because it turns out that in this case, this incision avoids any phenomenon of astigmatism resulting from the incision made in the cornea of the eye.

When the optical part of the implant is folded along a diameter, to allow its introduction into the eye by a reduced size incision, the thickness of the implant in its middle part plays a significant role in the external contour of the element to be introduced through the incision. From a practical point of view, in the case where the optical part has a diameter of the order of 6 mm, which is desirable to ensure good optical correction even in the case of a slight displacement of the implant in the eye, taking into account this thickness, it is practically very difficult to introduce the implant by an incision truly less than 4 mm in the case where the optical part has a certain thickness axially. This problem arises when the power of the implant reaches a certain value which can be set at approximately 20 diopters.

It should be recalled that currently, the axial thickness of a flexible implant with standard optical power is of the order of 1.1 mm.

It is understood that it would therefore be advantageous to have implants whose thickness is reduced even in the case where the power of the implant is relatively large. One solution to solve this problem would be to use flexible materials with a higher refractive index. than the materials currently used. However, this solution is currently very difficult to implement.

To solve this problem, an object of the present invention is to provide an intraocular implant device capable of having a non-negligible power, for example of a power greater than 20 diopters, allowing its implantation through an incision of effective size at more equal to 4 mm.

To achieve this object, according to the invention, the intraocular implant device comprises: a first anterior intraocular implant comprising a substantially circular optical part made of a flexible material and a haptic part, a second posterior intraocular implant comprising a substantially circular optical part made of a flexible material and a haptic part and means for substantially coinciding the optical axes of the first and second intraocular implants after these have been successively placed in the eye of a patient.

We understand that thanks to the fact that the intraocular implant device consists of two separate implants which can therefore be placed inside the eye successively, it is possible for a given optical power, to use two implants intraoculars each having reduced power and therefore also reduced thickness. Consequently, the folding of the optical part of each intraocular implant allows the introduction thereof into the eye by an incision having a dimension effectively at most equal to 4 mm.

It is also understood that thanks to the presence of the means for ensuring the alignment of the optical axes of the optical parts of the two intraocular implants, the equivalent of a single intraocular implant having the common optical axis is effectively obtained.

According to a preferred embodiment, the means for centering the optical axes of the two intraocular implants consist of reliefs formed respectively in the central part of the posterior face of the anterior implant and in the anterior face of the posterior implant .

According to one embodiment, the posterior faces of the anterior implant and the anterior of the posterior implant are combined. So when the two implants are placed in the eye, the whole becomes comprises as a single homogeneous implant, the optical part of which is defined by the anterior face of the anterior implant and the posterior face of the posterior implant.

According to another mode of implementation, the contact between the posterior face of the anterior implant and the anterior face of the posterior implant is made only in the central part serving for centering and on the periphery of the optical parts of the two implants of so as to provide a seal in this periphery.

The invention also relates to an assembly for placing an intraocular implant device of the type defined above and which is characterized in that it comprises: means for folding the flexible optical part of the implant to keep it folded in order to introduce it into the eye through an incision and to release said implant after its insertion into the eye; and means for folding the flexible optical part of the second implant, for keeping it folded in order to introduce it into the eye through an incision and for releasing said implant after its incision in the eye.

Other characteristics and advantages of this invention will appear better on reading the following description of several embodiments of the invention given by way of nonlimiting examples. The description refers to the appended figures in which:

Figures la and lb are respectively front and side views of the posterior implant of the intraocular implant device; Figures 2a and 2b are respectively front and side views of the anterior implant of the intraocular implant device; and

Figure 3 is a side view showing the two intraocular implants placed inside the capsular bag of the eye.

As already indicated, the principle of the invention consists in making the intraocular implant device using two separate intraocular implants, each implant having its own optical part which is made of a flexible material of the type example hydrogel and its haptic part which, for example, consists of two handles. Preferably, the handles are made of a rigid material of the PMMA type. However, the haptic handles could also be made of flexible material. It is understood that thanks to this arrangement, each optical part can have a reduced power compared to the total power that the implant device must have, for example half of this power. As a result, in its central zone, each optical part will have a reduced thickness and more precisely enough reduced to allow easy folding and insertion into the eye through an incision whose thickness in length is effectively less than 4 mm.

In order to ensure the alignment of the optical axes of the two intraocular implants after their successive placement in the eye, provision is preferably made in the central region of the posterior surface of the anterior implant and in the anterior surface of the posterior implant, centering means which cooperate with each other.

Preferably also, these two faces of the anterior and posterior implants have raised means for ensuring relative positioning of the two implants when they are placed around their common optical axis.

Referring to the appended figures, a preferred embodiment of the intraocular implant device will now be described in more detail.

In Figure 1, there is shown the posterior implant 10 which has an optical portion 12 of circular shape and which is made of a flexible material. This optical part has an external diameter D which is for example 5.5 mm and it is limited by two convex surfaces 14 and 16. The front surface 14 is provided with a centering stud 18 whose diameter d is reduced. In known manner, the posterior implant 10 also includes a haptic part which is for example constituted by two handles referenced respectively 20 and 22, these handles being preferably made of PMMA, or possibly of flexible material.

In FIGS. 2a and 2b, an embodiment of an anterior implant 22 has been shown. It has an optical part 24 made of a flexible material whose contour is circular and has a diameter D equal to that of the part optic of the posterior implant. The anterior face of the anterior implant 22 is concave. Preferably in this embodiment, the posterior face 28 of this implant is convex and this surface corresponds to the shape of the anterior face 14 of the posterior implant. In its center, the posterior face 28 has a recess 30 to cooperate with the stud 18 of the anterior face of the implant 10. Preferably, the face posterior 28 of the anterior implant comprises a peripheral bead 32 capable of coming to bear on the periphery of the anterior face 14 of the posterior implant.

The anterior implant 22 is completed by a haptic part which can consist of two loops 34 and 36 for reasons which will be explained later, the loops 34 and 36 having a "forward" angle relative to an orthogonal plane. to the optical axis of the implant 22.

In Figure 3, there is shown the anterior implant 22 and the posterior implant 10 successively placed inside the capsular bag 40 of the eye of the patient to be treated.

As shown in this figure, the stud 18 of the posterior implant 10 enters the recess 30 of the posterior face of the anterior implant 22. This ensures that the two optical parts of the two implants have the same optical axis XX ' . It can also be seen that the peripheral bead 32 of the posterior face of the anterior implant bears on the periphery of the anterior face of the posterior implant. This ensures sealing of the free zone 42 existing between the posterior face of the anterior implant and the anterior face of the posterior implant. This avoids the risk of colonization between the two intraocular implants.

In a particular embodiment corresponding to a diameter of the optical parts equal to 5.5 mm, and to produce an intraocular implant device having an overall power of 22 diopters, the posterior implant 10 and the anterior implant 22 have in their central zone of the thicknesses e and e 'which are equal and of the order of 0.7 mm to 0.8 mm.

We understand that thanks to the reduced thickness of the central area of the optical parts of the two implants which is as was indicated in the particular example of the order of 0.7 mm, it is easy for the practitioner to maintain in folded form according to a diameter each optical part of the intraocular implants in order to place them inside the capsular bag through an incision which effectively has a length of the order of 4 mm. It is likewise possible to successively introduce each implant by a corneal incision of 3.2 mm.

In addition, it should be emphasized that the fact that the optical system is produced by stacking two lenses makes it possible to reduce chromatic and geometric aberrations compared to an optical system constituted by a single lens. This improves the depth of field and the sharpness.

The method of placing the intraocular implant device by a surgeon in the eye of a patient is as follows:

After having made a corneal incision of between 3.2 and 4 mm in length, the surgeon proceeds to remove the lens, preferably by phaco emulsification.

The surgeon defines the two appropriate anterior and posterior intraocular implants to obtain the desired total power.

Using forceps or an injector, the practitioner keeps the optical part of the posterior implant folded along a diameter. Using this instrument, he introduces the implant into the capsular bag through the incision already made and releases the implant so that it takes its place in the bag. Then, using a similar instrument, he introduces the anterior implant. Thanks to the centering means, the anterior implant is positioned correctly in the capsular bag so that the two i; plants have a common optical axis which of course passes through the pupil.

In other embodiments, it would be possible to provide that the optical parts of the intraocular implants have a convex face and a substantially planar face, the planar faces of course facing each other after the placement of the two intraocular implants.

It is also possible to provide for centering of the two optical parts after the implants have been placed at their periphery. However, it seems that the centering solution described in conjunction with Figures 1 and 2 is more effective because it allows self-positioning of the second implant.

Claims

1. An intraocular implant device, characterized in that it comprises: a first anterior intraocular implant comprising a substantially circular optical part made of a flexible material and a haptic part, a second posterior intraocular implant comprising a substantially circular optical part made of a flexible material and a haptic part and means for substantially coinciding the optical axes of the first and second intraocular implants after these have been successively placed in the eye of a patient.

2. An intraocular implant device according to claim 1, characterized in that the diameter of the optical parts of the first and second intraocular implants is at least equal to 5.5 mm.

3. intraocular implant device according to any one of claims let 2, characterized in that the optical power of the intraocular implant device is at least equal to 20 diopters and in that the thickness of each intraocular implant, according to its optical axis is at most equal to 0.8 mm.

4. Intraocular implant device according to any one of claims 1 to 3, characterized in that the centering means comprise a relief on the posterior face of the anterior implant and a conjugate relief on the anterior face of the implant posterior.

5. An intraocular implant device according to any one of claims 1 to 4, characterized in that the posterior face of the anterior implant is conjugated with the anterior face of the posterior implant.

6. Intraocular implant device according to any one of claims 1 to 4, characterized in that the periphery and the central zone of the posterior surface of the anterior implant are conjugated with the periphery and the central zone of the face anterior of the posterior implant, the intermediate zone of the posterior surface of the anterior implant not being in contact with the intermediate zone of the anterior surface of the posterior implant.

7. Intraocular implant device according to any one of claims 1 to 6, characterized in that said implants include means able to cooperate with each other to define at least one position predetermined relative of their optical part around their common optical axis.

8. An assembly for placing in the eye an intraocular implant device according to any one of claims 1 to 6, characterized in that it comprises: means for folding the flexible optical part of the implant to keep it folded in order to introduce it into the eye through an incision and to release said implant after its insertion into the eye; and means for folding the flexible optical part of the second implant, for keeping it folded in order to introduce it into the eye through an incision and for releasing said implant after its incision in the eye.