RU210593U1 - Intraocular lens - Google Patents

Abstract

The utility model relates to medicine, namely to ophthalmology, and can be used for cataract phacoemulsification (PEK), as well as for extra/intracapsular cataract extraction (EEK, IEK) for intraocular correction of aphakia. Intraocular lens made of S-type hydrophobic acrylic with additional fenestration holes at the distal ends of the haptic elements and at the junction of the optical and haptic parts for the convenience of suture fixation in complicated cases of cataract surgery. The location of the fenestration holes allows fixing the thread at the base of the haptic element and distally, as well as combining the fixation points of the suture material, which increases the reliability of fastening. Fenestration holes simplify the work of the surgeon if it is necessary to reposition the intraocular lens in the late postoperative period. The location and size of the holes allow classical endocapsular implantation and do not affect visual functions.

Description

The utility model relates to medicine, namely to ophthalmology, and can be used in cataract phacoemulsification (PEK), as well as in extra/intracapsular cataract extraction (EEK, IEK) for intraocular correction of aphakia.

The current stage of development of ophthalmosurgery provides for a considerable number of different soft IOL models, which differ from each other by the convenience of implantation for the surgeon in various clinical situations. Some of them (S-type) are convenient for classical endocapsular implantation in uncomplicated cases, but at the same time they are inconvenient for extracapsular fixation in complicated cases, which will deprive them of universality.

Most known models of S-type IOLs are not adapted for extracapsular fixation. Only a few of them have fenestration holes at the junction of the haptic and optical parts (Baush & Lomb EnVista MX60), which can be used to insert a thread into them, followed by the formation of a loop, knot or flange, which perform the functions of fixing the suture material to the IOL. This model is not budgetary and is not universally available, especially for budgetary health care institutions of the Russian Federation. Without such IOL models in their arsenal, in the event of the need for extracapsular fixation, ophthalmic surgeons are forced to improvise on their own responsibility, depending on personal preferences, tying knots at the distal ends of the haptic elements or at the junction of the optic and haptic parts, which is not always a reliable solution: the knots are untied or slip off, which can eventually give an asymmetric fixation with a deterioration in the functional result and a decrease in the quality of life, which will ultimately require repeated surgical interventions.

Another solution to the absence of holes is the puncture of the IOL with thin needles, which also raises questions about the long-term results, because the violation of the integrity of the IOL cannot be predicted by changing the properties of its material and does not guarantee the preservation of its transparency.

The technical result of the utility model is the optimization of the S-type IOL design with adaptation to the convenience of subsequent extracapsular fixation both in the long-term period and in cases of preventive fixation.

This technical result is achieved by the fact that the optical product, commonly referred to as an intraocular lens (IOL), consisting of a round optical part of 6 mm and two haptic elements adjacent to the optical part, intended for permanent implantation in the posterior chamber of the eye: an annular space filled with intraocular fluid , between the iris, the lens and the ciliary body, to replace the natural lens, usually clouded due to cataracts, while the product is made of hydrophobic acrylic, the total diameter of the IOL is 13 mm, according to the utility model at the distal ends of the haptic elements and at the junction of the optical and The haptic parts are made with four holes of 0.5 mm.

The utility model is illustrated by drawings, where:

Figure 1 - presents the S-shaped intraocular lens (IOL).

Figure 2 - shows the possible options for fixing the thread.

Figure 1 shows a hydrophobic, elastic intraocular lens S - type (1), which contains an optical part (2) with a diameter of 6 mm and 2 haptic elements. The overall diameter of the IOL (1) is 13 mm. There are holes (3) 0.5 mm at the distal ends of the haptic elements and at the junction of the optical and haptic parts, which makes it convenient to insert a thread into it with the subsequent formation of a knot, loop or counterstop. This solution is universal and can satisfy the needs of those who are used to fixing the thread at the base of the haptic element, as well as those who prefer distal localization of holes. If necessary, it is possible to combine the fixation points of the suture material, which ultimately will have a positive effect on the reliability of fastening, as shown in Fig. 2.

In the S-shaped IOL formed 4 holes, as shown in Fig.1.

The presence of holes is an additional convenience in complicated cases, without limiting the convenience of classical endocapsular implantation, inherent in all S-type models.

IOL application is carried out in the classical way by delivery by the implantation system intraocularly through a corneal tunnel incision of 2.2 - 2.4 mm. In the long term, if dislocation of the entire IOL or the entire complex (IOL + bag) occurs, the presence of fenestrations that do not affect visual functions will not only greatly simplify the work of the surgeon in repositioning the complex, due to the convenience of threading a loop of thread into them with subsequent tying, and also protect against the desire to perform a puncture in those places that are not intended for this by the instruction manual. Convenience in performing manipulations for the surgeon will ultimately significantly reduce the intervention time itself, which will reduce the overall surgical trauma and accelerate the processes of early rehabilitation in the postoperative period. Reducing hydrotrauma of the corneal endothelium, by reducing the total time of the operation, will reduce the risk of such complications as postoperative endothelial-epithelial corneal dystrophy, which is a natural consequence of long-term surgery, which will expand the indications for extracapsular IOL fixation in cases where the initial density of endothelial cells was not high .

Thus, it can be concluded that the creation of this IOL model will not only become a more convenient and universal solution for all ophthalmic surgeons, but will also reduce the total number of surgical complications during subsequent IOL reposition, reducing the rehabilitation period to a minimum.

Claims (1)

Intraocular lens (IOL), consisting of a round optical part with a diameter of 6 mm and two haptic elements adjacent to the optical part, while the total diameter of the IOL is 13 mm, characterized in that the IOL is made of hydrophobic acrylic, while at the distal ends of the haptic elements and at the junction of the optical and haptic parts, four holes of 0.5 mm are made.

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