RU2234300C1 - Method for surgical treating cataract complicated with lenticular suluxation - Google Patents

Abstract

FIELD: medicine, ophthalmosurgery.

SUBSTANCE: one should perform capsulorhexis and nuclear hydrodissection. Before extracapsular removal of cataract one should introduce a curved metal implant into internal equatorial lenticular area, into defect sector of ciliary zonule's fibers. Radius of implant's curvature corresponds to that of lenticular equatorial curvature. Implant should be fixed and, correspondingly, lens, with a magnet located extrasclerally in area of defect projection of ciliary zonule's fibers. As a metal implant one should apply atraumatic curved needle with ligature and blunt distal end. The method enables to atraumatically and reliably remove cataract by providing minimal terms for rehabilitation and high functional results.

EFFECT: higher efficiency of therapy.

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Description

The invention relates to medicine, namely to ophthalmic surgery and can be used with an extracapsular method for removing cataracts complicated by a subluxation of the lens.

Known methods for extracapsular cataract removal with subluxation of the lens. In all modern technologies, before releasing the capsule bag from its contents using the phacoemulsification method, or mechanical fragmentation, or laser cataract extraction, the lens is stabilized (fixed) in order to exclude the possibility of complete breakage of the fibers of the zinc ligament and loss of the vitreous.

A known method of stabilizing the lens by suturing the equator of the lens into the ciliary sulcus in the area of the defect in the fibers of the zinc ligament (RF patent No. 2192825, author Romanenko B.V.). The method is traumatic and there is a danger of eruption of the capsule seams.

A known method of stabilizing a subluxated crystalline lens by cutting a flap of the anterior capsule with the base to the tear-off region of the ligamentous fibers, followed by its removal through the iris coloboma and fixation in the cornea (RF patent No. 20033313, author Takhchidi H.P.). Not in all cases, this method is applicable, because the strength characteristics of the cut out flap of the anterior capsule are different in different patients.

The closest analogue taken as a prototype is the modern technology proposed by T.Nagamoto (1994), when the lens is stabilized and the bag is straightened using a special open elastic ring, which, after hydrodissection of the nucleus, is inserted into the lens capsule bag and is located along the inner equator of the bag and remains there in the postoperative period (Pascal Pitrini, Robert J. Cionni et al. Suturing the Ring // Videojournal of Cataract and Refractive Surgery, 1998, v. XIV, No. 4).

The disadvantages of this technology:

- a ring of any degree of elasticity and size is not able to stretch the capsule bag to the diameter of the ciliary groove and, therefore, with a defect in the fibers of the zinc ligament, the possibility of displacement of the entire ring-capsule bag complex into the vitreous is not excluded;

- the capsule bag can move relative to the ring during the removal of the contents of the bag, therefore, partial or complete slipping of the capsule bag from the implanted ring is possible;

- the lack of the possibility of dosed stretching of the capsule bag due to a strictly defined diameter of the ring, and if the diameters do not match, both insufficient stretching of the bag and damage to it are possible;

- if you need to remove the ring, problems arise and most often you have to remove it with the bag.

The objective of the invention is to develop a reliable and atraumatic method of stabilizing the capsular bag to successfully perform extracapsular cataract removal.

The technical result obtained by solving this problem is to reduce surgical and postoperative complications, reduce the time of surgery.

The specified technical result can be obtained if, in the method of surgical treatment of cataracts complicated by a lens subluxation, with IOL implantation, including capsulorexis, hydrodissection of the nucleus and stabilization of the lens before extracapsular cataract removal, stabilization is provided during cataract removal by introducing into the internal equatorial zone to the sector of the defect of the fibers of the zinc bond of a bent metal implant, the radius of curvature of which corresponds to the radius of the curve as the equator of the lens and fixing it a magnet disposed in the region of the projection extrascleral defect Zinn ligament fibers. It is proposed to use an atraumatic curved needle with a thread and a blunt distal end as a metal implant.

Among the essential features characterizing the method, the distinguishing ones are:

- stabilization of the lens is ensured during extracapsular cataract removal;

- stabilization is carried out by introducing into the inner equatorial zone of the crystalline lens, into the sector of defect of the fibers of the zinc bundle of a curved metal implant;

- the radius of curvature of the implant corresponds to the radius of curvature of the equator of the lens;

- fixation of the implant is carried out by a magnet located extrasclerally in the zone of projection of the defect of the fibers of the zinc ligament.

Between the totality of essential features and the achieved technical result, there is a causal relationship.

The use of magnets in ophthalmology is known. Thus, by the influence of a magnetic field, metal foreign inclusions are removed from the eye cavity. In the surgical treatment of glaucoma with a magnet, they act on drains with magnetic properties, setting them in motion, etc. The use of a magnetic field to stabilize the subluxated lens in the literature was not found by us. In order to ensure stabilization of the lens during lens subluxation, it is necessary to place the magnet extrasclerally (outside the eye above the sclera) in the area where the defect of the zinc ligamentous fibers is observed (tearing or stretching), and the lens should have a curved metal implant whose radius of curvature corresponds to the radius the curvature of the equator of the crystalline lens, which is wound and placed along the internal equator of the crystalline lens in the area corresponding to the defect of the ligamentous fibers. This form of the implant allows you to enter it quickly and atraumatically. A metal implant is inserted into the equatorial zone of the lens after hydrodissection, because in this case, during the establishment, the load on the ligamentous apparatus will be minimal. It is proposed to use an atraumatic curved needle with a thread and a blunt distal end as an implant. Using an atraumatic curved needle with a thread allows you to quickly and atraumatically insert the implant into the desired equatorial zone of the lens (where a defect in the fibers of the zinc ligament is detected), position it along the equator (and its curvature will allow this), apply a magnet to the conjunctiva, in the area of the defect of the ligament fibers (this ensures reliable stabilization of the lens), and after releasing the capsular bag from the nucleus and lens masses, remove the magnet and, by reverse thread, quickly and atraumatically bring the implant out.

This technology, despite the violation of the ligamentous apparatus of the lens, allows you to save the capsular bag during cataract surgery. Moreover, the lens stabilization method used is atraumatic, because the implant does not damage the capsule bag, and the magnetic field does not have a damaging effect on the eye tissue, while the use of a magnetic field makes the method absolutely reliable. With this technology, all conditions are created for the implantation of a posterior chamber IOL with intracapsular fixation. The technology, being atraumatic, provides minimal rehabilitation periods and high functional results.

Thus, between the set of essential features and the achieved technical result, there is a causal relationship.

The method is as follows.

The beginning of the operation of extracapsular cataract removal by phacoemulsification (mechanical fragmentation of the nucleus or laser destruction of the nucleus is possible) is traditional. Having performed a continuous circular capsulorexis, hydrodissection of the nucleus is carried out. After clarifying the localization and extent of the defect of the zinc ligamentous fibers inside the lens capsule bag, a metal implant is introduced through capsulorexis in the form of an atraumatic curved needle with a 8: 0 thread with a blunt distal end and an appropriate length (1/4 or 1/2 of the circumference of the capsular bag). It is promoted as peripherally as possible to the area of the lens equator precisely in the area where a defect in the ligaments is detected, while the thread must be of such a length that it remains outside. With a permanent magnet (samarium-cobalt system, weighing 30 g), applied to the conjunctiva in the area of the projection of the defect of the fibers of the zinc ligament, the capsular bag together with the needle is pulled into the area of the ciliary groove. After the capsule bag is completely released, the magnet is first taken away from the eye, then the needle is removed from the eye by the thread. According to indications, a lens is implanted. The operation is completed traditionally.

Example. Patient X. born in 1926, outpatient card No. 182776, was admitted to the Yekaterinburg Center of MNTK on April 13, 2003 due to immature cataract of the left eye.

Vision of the left eye = 0.01 does not correct.

Intraocular pressure (Po) = 17.0 mm Hg.

The field of view is within normal limits.

Biomicroscopy of the left eye: turbidity in the posterior regions and in the nucleus of the lens.

04/14/03, during the operation for cataracts when performing anterior circular capsulorexis, lysis of the fibers of the zinc ligament was detected with a primary violation in the lower outer square with significant mobility of the lens. In this regard, after the hydrodissection of the nucleus, a curved atraumatic needle with a thread of 8:00, with a blunt distal ring and fixed with an extrasclerally located magnet was inserted into the equatorial part of the lens. Ultrasonic phacoemulsification was performed with a Legacy 2000 apparatus (Alcon, USA). After the capsule bag was released from the nucleus and lens masses, the magnet was removed and the needle was removed by the thread, and the T-26 model IOL was implanted into the capsule bag.

Vision on the 1st day after surgery = 0.45 Cyl + 1.0 Ax 34 = 0.7.

Intraocular pressure = 21.0 mm Hg.

Biomicroscopy: the cornea is transparent, the pupil and the IOL are centered.

The fundus is normal.

The inventive method is reliable, atraumatic, easy to use and can reduce the time of the operation.

Claims (2)

1. A method of surgical treatment of cataracts complicated by a subluxation of the lens with IOL implantation, including capsulorexis, hydrodissection of the nucleus and stabilization of the lens before extracapsular cataract removal, characterized in that stabilization is provided during cataract removal by introducing the lens into the internal equatorial zone of the lens into the sector fibers of a zinc bond, a curved metal implant, the radius of curvature of which corresponds to the radius of curvature of the equator of the lens and fixation of e a magnet located in the area of the projection extrascleral defect Zinn ligament fibers. 2. The method according to claim 1, characterized in that an atraumatic curved needle with a thread and a blunt distal end is used as a metal implant.