RU2295941C1 - Method and device for extracting cataract with intraocular lens being implanted under narrow pupil condition - Google Patents

Abstract

FIELD: medicine; medical engineering.

SUBSTANCE: method involves carrying out corneal paracenteses at 2 and 9 o'clock position. Device for widening pupil is shaped as open ring and introduced through one of the paracenteses. First, its one end is introduced into the anterior chamber. Then, eyelet is caught with micro-hook at the open ring end through the second paracentesis, and the device is located in the anterior chamber on the iris. Papillary iris edge is fixed in turn with micro-hook in hinges of the first order and pupil is widened. Continuous circular anterior capsulorhexis (CCAC)is carried out, CCAC edge is fixed in these hinges of the first order, and arches between hinges of the first order are brought under capsulorhexis edge from inside. Hydrosection, fragmentation and crystalline lens kernel removal, and lenticular mass suction is carried out. Intraocular lens is implanted through one paracentesis, and the hinges of the first order are caught through the second paracentesis with micro-hook for widening pupil. Papillary iris edge and capsulorhexis edge are released from them. The device is introduced into the anterior chamber and the device is removed through same paracentesis from the eye, catching eyelet with micro-hook at one of the open ends. Device for widening pupil is manufactured as open ring with eyelets on both ends. It contains at least three hinges of the first order, spaced equidistantly from each other. One hinge of the first order is available 1 mm far from each eyelet.

EFFECT: effective and atraumatic pupil widening; at carrying out cataract extraction with intraocular lens implantation due to small manipulations number in an eye, reduced risk of traumatic complications; improved visual function condition in early postoperative period.

2 cl, 2 dwg

Description

The invention relates to medicine, namely to ophthalmology, and can be used for cataract extraction, complicated by a narrow pupil and weakness of the zinc cords, with implantation of an intraocular lens (IOL).

The issue of minimizing intra- and postoperative complications in the surgical treatment of cataracts complicated by a narrow pupil with concomitant weakness of the zinc ligaments is relevant. Often, degenerative changes in the tissue of the iris are combined with dystrophy of the zinc ligaments. Therefore, with insufficient diaphragmatic function of the iris, a subluxation of the lens is often found. Ultrasonic phacoemulsification, as well as laser extraction of cataracts with a narrow pupil and weakness of the zinc cords, is fraught with the occurrence of such complications as trauma to the iris, rupture of the posterior capsule, luxation of the lens in the vitreous body, etc., which requires the development of an effective and safe method of treating this pathology.

The closest to the technical solution of the problem, in terms of the method, is a method of surgical treatment of cataract, combined with reduced diaphragmatic function of the iris, with IOL implantation and a device for pupil expansion (MV Semikova. "Experimental and clinical justification of the optimized phacoemulsification technology with implantation IOL in the eyes with insufficient diaphragmatic function of the iris ”, abstract of dissertation, candidate of medical sciences, M., 2003, p. 8, 9, 15, 16 and 17).

The known method includes opening the eyeball by performing surgical incisions, implanting a device to expand the pupil with loop elements in the form of hinges of the first kind and fixing them to the pupil edge of the iris, performing anterior continuous circular capsulorexis, hydrodissection, ultrasonic fragmentation of the lens nucleus, aspiration of the lens masses and implantation intraocular lens, ending with the removal of the device.

However, in complicated cases, when, along with a decrease in the diaphragmatic function of the iris, there is a weakness of the zinc ligaments (subluxation of the lens), the known method cannot be performed without additional manipulations: insertion of the intracapsular ring, fixing the capsule for capsulorexis with microhooks, which requires additional incisions, thereby increasing the invasiveness of the operation , the duration of surgery, and an increase in the duration of postoperative eye rehabilitation.

The technical task according to the invention is the creation of an effective method of cataract extraction, combined with reduced diaphragmatic function of the iris and weakness of the zinc ligaments, with the implantation of an IOL and the design of a device for expanding the pupil in order to reduce the number of intraoperative and postoperative complications in cataract surgery, in order to achieve high visual functions in early postoperative period.

The technical result in terms of the method according to the invention is achieved by the fact that in the method of cataract extraction with IOL implantation with a narrow pupil and weakness of the zinc cords, including opening the eyeball, implanting a device for expanding the pupil with loop elements in the form of hinges of the first kind and fixing them to the pupil edge iris, performing NKPK, hydrodissection, fragmentation and removal of the lens nucleus, aspiration of the lens masses, implantation of an intraocular lens, removal of a device to expand the pupil, conducting two corneal paracentesis for 2 hours and 9, through one of the paracentesis implanted device according to claim 2 mydriasis. in the form of an open ring, at the same time, one end is introduced through paracentesis into the anterior chamber of the eye, then, through the second paracentesis, a loop is taken with a micro-hook at the end of the open ring and the device is placed in the front chamber of the eye, on the iris, and then the pupil edge of the iris is sequentially fixed with a micro-hook hinges of the first kind and dilate the pupil, after performing a continuous circular anterior capsulorexis in these hinges of the first kind, fix the edge of the NSCC, and the arcs between the hinges of the first kind start along capsulorhexis edge inside, through one of the paracentesis IOL is implanted, and after the second paracentesis Micro-hinges alternately capture the first kind according to claim 2 of the device. and the pupil edge of the iris is released from them along with the edge of the capsulorexis, then the device according to claim 2 is removed. in the front chamber, grab a micro-hook loop at one of the open ends and through the same paracentesis remove the device according to claim 2. out of the eye.

The closest to the technical solution of the problem, in terms of the device, is a device for the expansion of the pupil, made in the form of a closed curved figure with hinges of the first kind, located at equal distance from each other and interconnected by straight sections (M.V.Semikova. " Experimental and clinical justification of the optimized phacoemulsification technology with IOL implantation in the eyes with insufficient iris diaphragm function ”, abstract of thesis, MD, M., 2003, p. 9).

However, the edges of capsulorexis cannot be brought into its hinges of the first kind, and it is also impossible to locate its straight sections under the edge of a continuous circular anterior capsulorexis. In addition, when removing the device from the eye, it must be cut inside the eye, which also creates additional difficulties for the surgeon and increases the volume of manipulations in the anterior chamber and, accordingly, the risk of intraoperative and postoperative complications.

The technical result, in terms of the device according to the invention, is achieved by the fact that the device for the expansion of the pupil, made in the form of a curved figure with hinges of the first kind, located at an equal distance from each other, while the device is made in the form of an open ring with loops at both ends and contains at least three hinges of the first kind, while, departing at least 1 mm from each loop, there is one hinge of the first kind.

The implementation of the device for dilating the pupil, according to the invention, in the form of an open ring with at least three hinges of the first kind, located at an equal distance from each other, and loops located on the edges of the device, for manipulations inside the eye cavity allows you to:

1) simultaneously fix in each hinge of the first kind the pupillary edge of the iris and the corresponding edge of the continuous circular anterior capsulorexis (NCCA) and insert the arched elements of the device under the NCCA margin for a stable position of the capsular bag during cataract extraction by ultrasonic phacoemulsification combined with a reduced diaphragmatic iris function and cinnamon ligaments, with the implantation of an IOL and carrying out all stages of the operation through two paracentesis,

2) to implant and remove the device from the anterior chamber of the eye through paracentesis, without expanding the main incision and without performing additional incisions.

3) perform atraumatic fixation in the joints of the first kind of the pupil edge of the iris and the expansion of the pupil and fixation of the edge of the CPL due to the elastic properties of the device according to claim 2.

The invention is illustrated by drawings, in which figure 1 shows a specific device for dilating the pupil, made in the form of an open ring 1 with three hinges of the first kind 2, 3, 4, located at the same distance from each other, arcuate elements 5, 6 and loops 7, 8 at its end.

Figure 2 shows a specific implementation of the device for expanding the pupil, for example, in the form of an open ring 9 with four hinges of the first kind 10, 11, 12, 13 located at the same distance from each other, its arched elements 14, 15, 16 and rings 17, 18 at its ends.

The method is as follows. Under local anesthesia in the cornea, 2 paracentesis is performed, at 2 and 9 hours, a solution of mesatone and viscoelastic are injected into the anterior chamber of the eye, a device to dilate the pupil is implanted through one of the paracentesis, fixing the pupil edge of the iris first with hinges of the first kind, for whereby the device is first taken with tweezers and one of the ends is inserted through the paracentesis into the anterior chamber of the eye. Then, through the second paracentesis, with a micro-hook, first grab the ring for manipulations and place the device in the anterior chamber of the eye, on the iris, and then with the micro-hook sequentially fix the first-kind hinges to the pupil edge of the iris. Due to the elastic properties of the device, the pupil atraumatically expands. After implantation of the device through one of the paracentesis, using an irrigation cystotome or tweezers for capsulorexis, the front lens capsule is opened in a circle, that is, a continuous circular anterior capsulorexis (NKPC) is performed, after which the corresponding NKPC edge is also inserted into the hinges of the first kind with a micro hook, and the arcs between the hinges of the first kind are brought under the edge of the capsulorexis from the inside, hydrodissection and hydrodelineation is performed - the hydraulic separation of the lens substance from the front and rear capsules the lens and the separation of the lens nucleus from the lens masses using a fluid stream directed under pressure from a syringe. Then, through the paracentesis, the lens nucleus is rotated using an irrigation cannula or a special hook to finally break the bonds between the nucleus and the lens capsule bag. Then, the anterior chamber of the eye is again filled with viscoelastic, an ultrasound needle is inserted into the anterior chamber of the eye through one of the paracentesis in the anterior chamber of the eye, a special hook is inserted into the anterior chamber of the eye to fragment the lens combined with the irrigation solution, and the lens is ultrasonically destroyed. At the same time, lens fragments are aspirated through an ultrasound needle. After complete destruction of the lens and aspiration of its fragments, the remains of the lens masses are washed out according to the bimanual method - an irrigation tip is introduced through one of the paracentesis into the anterior chamber of the eye, an aspiration tip is introduced into the anterior chamber of the eye, and the remains of the crystalline masses are removed from the capsular bag with an aspiration tip and front camera eyes. The testimony operation may result in the implantation of an IOL, for which the IOL is filled into the injector and, using it, through one of the paracentesis IOLs are introduced into the capsule bag. After implantation of the IOL, the device (item 2) is removed from the eye. Micro hooks in turn capture the hinges of the first kind, freeing the pupil edge of the iris from them along with the corresponding edge of the capsulorexis. After the device (item 2) is freely located in the anterior chamber of the eye, a ring for manipulations is captured with a micro-hook through one of the paracentesis and the device is removed from it from the cavity of the eye.

Claims (2)

1. A method of cataract extraction with implantation of an intraocular lens (IOL) with a narrow pupil and weakness of the zinc cords, including opening the eyeball, implanting a device to expand the pupil with loop elements in the form of hinges of the first kind and fixing them to the pupil edge of the iris, performing a continuous circular front anterior capsulorexis (NKPK), hydrodissection, fragmentation and removal of the lens nucleus, aspiration of the lens mass, implantation of an intraocular lens, removal of a device for pupil expansion, characterized by that spend two corneal paracentesis at 2 and 9 hours, through one of the paracentesis implant the device for the expansion of the pupil according to claim 2 in the form of an open ring, while first one of its ends is inserted through paracentesis into the anterior chamber of the eye, then it is captured with a micro hook loop at the end of the open ring and place the device in the anterior chamber of the eye, on the iris, and then with a micro hook sequentially fix the pupil edge of the iris in the first kind of hinges and expand the pupil, after performing continuously of the circular front anterior capsulorexis in these first-kind hinges fix the NSCC edge, and the arcs between the first-kind hinges are inserted underneath the capsulorexis edge from the inside, IOLs are implanted through one of the paracentesis, and the first-kind hinges of the device according to claim 2 are successively grasped with a micro-hook and released from the pupil edge of the iris along with the edge of the capsulorexis, then the device according to claim 2 is brought out into the anterior chamber, the loop is hooked with a micro hook at one of the open ends and the device is removed through the same paracentesis Claim 2 of the eye. 2. A device for dilating the pupil, made in the form of a curved figure with hinges of the first kind, located at the same distance from each other, characterized in that it is made in the form of an open ring with eyelets at both ends and contains at least three hinges of the first kind, at the same time, departing 1 mm from each loop, one hinge of the first kind is made.

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