RU2823465C1 - Method for three-vector fixation of intraocular lens - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to ophthalmology, and can be used for three-vector intraocular lens (IOL) fixation. That is ensured by intrascleral three-vector collinear or noncollinear fixation of the IOL. One suture with two needles at the ends is used to pierce the optical part of the IOL at distance of 1.5–2.5 mm from each other and at distance of 0.9–1.4 mm from the edge of optics at 10–11 and 13–14 o'clock and second suture – at 18 o'clock. Free end part of the sutures is melted before the flange is formed. Suture is stretched until the flange touches the optical part of the lens. IOL is centred by pulling the sutures. Opposite end of the sutures is delivered trans-scleral at distance of 2–2.5 mm from limb at 10–11, 13–14 and 18 o'clock. End parts of the sutures are fused to form a flange and are immersed intrasclera.

EFFECT: invention provides an increase in the positional stability of the intraocular lens with complete absence of contact of the intraocular lens with the iris, which in turn provides reduced risk of secondary hypertension and inflammatory reaction, reduced risk of surgically induced astigmatism, which promotes improvement of visual functions.

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Description

The invention relates to medicine, namely to ophthalmology, and can be used for three-vector fixation of an intraocular lens.

In ophthalmological practice, there are situations when the intraocular lens needs to be fixed, for example, with the development of weakness or complete absence of the ligamentous apparatus of the capsular bag, with trauma to the eyeball, with dislocation of the intraocular lens into the vitreal cavity, with aphakia and avitria.

Existing methods of IOL fixation are based on one principle - fixing the lens with threads by its haptic elements with various options for further actions with threads (RU 230698, 09.27.2007; RU 2393826, 07.10.10; RU 2691925, 06.18.18; RU 2737916, 04.12. 2020; RU 2773103, 05/30/22). The disadvantages of such methods include positional instability of the intraocular lens and lack of correct centration, which leads to poor clinical and functional results. Excessive contact of the intraocular lens with its unstable position in the anterior chamber of the eye may be accompanied by a risk of mechanical injury to surrounding tissues in the postoperative period.

The closest analogue of the proposed method is a method for fixing a posterior chamber intraocular lens, which consists in fixing the posterior chamber intraocular lens by the haptic elements using a knot technique with a thread and passing the thread transscleratally at two opposition points and sequential intrascleral fixation (RU 27751292, 12/29/22).

The disadvantage of this method is the use of two points of fixation for the haptic elements, which contributes to increased positional instability of the intraocular lens, resulting in excessive contact of the intraocular lens with the iris, followed by possible intraocular inflammation. In addition, when the position of the intraocular lens changes, aberrations will be induced, causing a decrease in visual function.

The objective of the proposed method is to develop a method based on a new fundamental approach to fixing IOLs during reposition in conditions of weakness or complete absence of the ligamentous apparatus of the capsular bag, with trauma to the eyeball, with dislocation of the intraocular lens into the vitreal cavity, with aphakia and avitria.

The technical result of the method is to increase the positional stability of the intraocular lens with a complete absence of contact of the intraocular lens with the iris.

The technical result is achieved due to intrascleral three-vector collinear or non-collinear fixation of the IOL by its optical part using threads.

The complete absence of contact of the intraocular lens with the iris and the positional stability of the intraocular lens reduce the risk of secondary hypertension and inflammatory reaction, in addition, the risk of surgically induced astigmatism is reduced, which helps improve visual function.

Three-vector (in three directions) collinear or non-collinear suture intrascleral fixation of the intraocular lens by its optical part ensures the formation of three points of fixation, which allows for immediate, atraumatic fixation of the intraocular lens with minimal surgical trauma and maximum adequate stabilization. The combination of three-vector fixation with the formation of flanges makes it possible to make the fixation procedure knotless, which technically leads to a reduction in surgical time and reduces eye trauma due to the reduced risk of excessive contact of eye tissue with thread nodes, the absence of the risk of protrusion of the end parts through the conjunctiva and the absence of the risk of injury to the iris by the knot threads

In the proposed method, three-vector suturing of the intraocular lens is performed by the optical part of the lens, suturing by the optical part of the lens makes it possible to carry out three-vector fixation, these three vectors of fixation of the intraocular lens create a strong support and contribute to reliable stabilization of the intraocular lens, reducing trauma to the structure of the anterior segment of the eye. The proposed method of fixing the optical part of an intraocular lens increases the stability of the position of the intraocular lens and provides more precise control during the centration of the intraocular lens, while in the postoperative period, surgically induced astigmatism is reduced, and the postoperative anatomical and functional state of the eye is improved. Due to the use of a thread with fixation in the upper part of the eye to two positions in the projection of 10-11 and 13-14 hours, 18 hours of the conventional dial, the gravitational load on the threads is reduced, which helps reduce the risk of thread rupture and repeated decentration of the intraocular lens.

The method is illustrated in Fig. 1 and fig. 2 In FIG. Figure 1 shows intrascleral three-vector collinear fixation of an intraocular lens; Fig. 2 - intrascleral three-vector non-collinear fixation of the intraocular lens.

A total of 10 patients were operated on using the proposed method (7 with a diagnosis of IOL decentration, 3 with aphakia). A dynamic analysis of the treatment results showed that the proposed method of fixing the intraocular lens ensured in all cases high accuracy of centration and stable positioning of the intraocular lens, and in all cases high clinical and functional results were achieved in the early and late postoperative period.

The method is carried out as follows.

To fix the posterior chamber intraocular lens (IOL), intrascleral three-vector collinear or non-collinear IOL fixation is performed. In this case, one thread with two needles at the ends is used to stitch the optical part of the IOL at a distance of 1.5-2.5 mm from each other and at a distance of 0.9-1.4 mm from the edge of the optics at 10-11 and 13-14 o'clock conventional dial and the second thread - at 18 o'clock. The free end part of the threads is melted until the flange is formed. The thread is pulled until the flange comes into contact with the optical part of the lens. The IOL is centered by tensioning the threads. The opposite end of the threads is passed transscleral at a distance of 2-2.5 mm from the limbus at 10-11, 13-14 and 18 o'clock. The end parts of the threads are melted to form a flange and immersed intrascleral.

The invention is illustrated by the following examples:

Example 1. Patient A., diagnosis: OD - pseudophakia, decentration of a hydrophilic intraocular lens, pseudoexfoliation syndrome. Correctable visual acuity 0.4, intraocular pressure 20 mmHg. Art., corneal thickness 535 µm, keratometry 44.45/44.25 diopters, eye length 23.2 mm. The surgical intervention was performed under potentiated anesthesia. First, two corneal incisions 1.2 mm wide were made, a viscoprotector was introduced into the anterior chamber, after which a 9-0 polypropylene thread with a needle at both ends of the thread was used to stitch the peripheral part of the optics of the intraocular lens at a distance of 1.5 mm from each other and at a distance 0.9 mm from the edge of the optics, at 10 and 13 o'clock on the conventional dial and with the second thread - at 18 o'clock, the free end of the threads was melted until a flange was formed, the thread was pulled until the flange came into contact with the optical part of the lens, the IOL was centered by tensioning the threads, the opposite end The threads were passed transscleralally at a distance of 2 mm from the limbus at 10, 13 and 18 o'clock, the end parts of the threads were melted to form a flange and immersed intrascleralally (Fig. 1. Collinear fixation).

A week after the operation, corrected visual acuity at distance was 1.0, near with spectacle correction 0.9, intraocular pressure 19 mm Hg. Art. Dynamic observation showed that surgical intervention using the proposed method of fixing the intraocular lens ensured high accuracy of centration and stable positioning of the intraocular lens. In the postoperative period, stable indicators of eye refraction were noted for 1 year after surgery. High clinical and functional results were achieved in the early and late postoperative period, dynamic observation showed the absence of clinically significant iridodonesis, and there were no signs of secondary hypertension or inflammatory reaction. One year after the operation, upon examination: the eye is calm, the cornea is transparent, the IOL is centered, the intraocular fluid is clear. Distance visual acuity 1.0, near with spectacle correction 0.9, intraocular pressure 18 mm Hg. Art.

Example 2. Patient V., diagnosis: OS - High myopia. On examination: the anterior chamber is deep, aphakia.

Correctable visual acuity 0.5, intraocular pressure 16 mm Hg. Art., corneal thickness 453 µm, keratometry 44.25/44.85 diopters, eye length 29.4 mm. The surgical intervention was performed under potentiated anesthesia. First, two corneal incisions with a width of 1.2 mm were made, a viscoprotector was introduced into the anterior chamber, after which the main corneal incision of 2.2 mm was made and the intraocular lens was implanted using an injector through the main corneal incision into the anterior chamber of the eye, then with a 9-0 polypropylene thread with a needle at both ends of the thread, we stitched the peripheral part of the optics of the intraocular lens at a distance of 2.5 mm from each other and at a distance of 1.4 mm from the edge of the optics, at 11 and 14 o'clock on the conventional dial and with a second thread - at 18 o'clock, intraocular the lens was placed in the posterior chamber and the free end of the threads was melted until a flange was formed, the thread was pulled until the flange came into contact with the optical part of the lens, the IOL was centered by tension of the threads, the opposite end of the threads was passed transscleral at a distance of 2.5 mm from the limbus at 11, 14 and 18 hours, the end parts of the threads were melted to form a flange and immersed intrascleralally (Fig. 2. Non-collinear fixation).

A week after the operation, corrected distance visual acuity was 1.0, near uncorrected visual acuity was 1.0, intraocular pressure was 18 mm Hg. Art. Dynamic observation showed that surgical intervention using the proposed method of fixing the intraocular lens ensured high accuracy of centration and stable positioning of the intraocular lens. In the postoperative period, stable indicators of eye refraction were noted for 1 year after surgery. High clinical and functional results were achieved in the early and late postoperative period, dynamic observation showed the absence of clinically significant iridodonesis, and there were no signs of secondary hypertension or inflammatory reaction. One year after the operation, upon examination: the eye is calm, the cornea is transparent, the IOL is centered, the intraocular fluid is transparent, the macular zone is without features, the optic disc is pale pink. Distance visual acuity 1.0, near with spectacle correction 1.0, intraocular pressure 16 mm Hg. Art.

Thus, the proposed method makes it possible to achieve reliable stabilization of the intraocular lens and reduce the risk of trauma to the structures of the anterior segment of the eye.

Claims (1)

A method of three-vector fixation of an intraocular lens, including intrascleral fixation, characterized in that intrascleral three-vector collinear or non-collinear fixation of an intraocular lens (IOL) is carried out, with one thread with two needles at the ends stitching the optical part of the IOL at a distance of 1.5-2.5 mm from each other and at a distance of 0.9-1.4 mm from the edge of the optics at 10-11 and 13-14 o'clock on the conventional dial and with the second thread - at 18 o'clock, the free end part of the threads is melted until a flange is formed, the thread is pulled until they touch flange with the optical part of the lens, the IOL is centered by tensioning the threads, the opposite end of the threads is passed transscleral at a distance of 2-2.5 mm from the limbus at 10-11, 13-14 and 18 o'clock, the end parts of the threads are melted until a flange is formed and immersed intrascleral.