RU2559177C1 - Method for rsp-3 flexible pupillary intraocular lens implantation following microcoaxial phacoemulsification - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention can be used for RSP-3 intraocular lens (IOL) implantation in the surgical management of cataract complicated with pseudoexfoliation syndrome, lens subluxation, and posterior capsular rupture. A corneal incision 2.2 mm wide is made. The IOL is implanted by means of a cartridge and a soft piston injector with preserving the capsular sac and bringing an anterior portion of the IOL into the anterior chamber to an anterior surface of the iris. A posterior portion of the IOL is put into the capsular sac extended by a viscoelastic with a pre-made capsulorrhexis 6-7 mm in diameter. After the IOL is implanted by means of the reverse Simcoe cannula brought from the IOL side into a space between the posterior surface of the IOL and the posterior lens capsule, the viscoelastic is removed from the capsular sac. If the patient suffers a pre- or intraoperative mydriasis of more than 6 mm, an interrupted suture is applied on the sphincter muscle of the pupil.

EFFECT: method enables preventing retinal detachment and ruptures, cystoid macular oedema, age-related macular degeneration progression, and also provides achieving high postoperative visual acuity and stable position of the IOL.

2 cl, 2 ex

Description

The invention relates to ophthalmology and can be used for implantation of an intraocular lens (IOL) of the RSP-3 model in cases of cataract surgery complicated by pseudoexfoliation syndrome, lens subluxation, rupture of the posterior capsule.

IOL RSP-3 (Product catalog of Scientific-Production Association MNTK Eye Microsurgery LLC. Address: 59a, Beskudnikovsky Boulevard, Moscow, main building, building B) 127486, a mushroom-shaped lens made of collagen copolymer, diameter optical part 6.0 mm. The total diameter of 10.0 mm, A-constant 118.2, the optical power from +1 to +40 increments of 1.0 diopters. The advantages of using this model are: high elasticity, hydrophilicity, atraumaticity, adhesiveness, stable fixation in the pupil due to the mushroom shape. As a rule, the lens is used for extensive defects or the absence of a capsular bag, when implantation of posterior chamber IOLs is not possible, as well as in the presence of a pseudoexfoliation syndrome or a dislocated lens.

A known method of implanting IOL RSP-3 through a 2.2 mm wide incision using a cartridge with hemming the IOL to the iris. The advantages of implanting RSP-3 through small surgical access were the rapid restoration of visual functions, the absence of postoperative astigmatism, the stability of the IOL in the postoperative period (RF Patent for the invention No. 2458658).

The disadvantages of this method are the removal of the capsule bag in all cases, which increases the risk of vitreous traction, hemming the IOL of the RSP-3 model to the iris, without specifying the number and localization of the sutures, the possibility of hemorrhagic complications, damage to the pigment layer of the iris and eruption of the sutures under the weight of the IOL.

A known method of implanting IOL RSP-3 through a self-sealing section 2.2 mm wide. The advantages of the method are: an indication of the shape of the cartridge — a book, a plunger that fills the entire lumen of the cartridge, specification of a cut width of 2.2 mm, a technique for refueling the IOL model RSP-3 into a cartridge (RF Patent for the invention No. 2477987).

The disadvantage of this method is that the back of the IOL model RSP-3 is refilled for the iris, while it is not specified whether the capsule bag is removed. IOL is centered in the pupil without additional fixation, which can lead to its displacement during mydriasis.

The closest analogue is the method of implanting IOL RSP-3 through a 1.8-2.75 mm incision by means of an injection system with a soft plunger with hemming over the optical cylinder to the iris. In this case, the capsule bag is retained even in the event of extensive damage. During implantation, the front (optical) part of the IOL is located on the front surface of the iris, and the back (haptic) part is refueled to the back surface of the iris. By preliminary entwining the optical cylinder with suture material and subsequent sewing to the iris, the IOL of the RSP-3 model is fixed in the pupil region even in the case of mydriasis (RF Patent for the invention No. 2484794).

The disadvantage of the invention is the lack of expansion and fixation of the capsular bag, which can lead to its accelerated fibrosis and displacement into the vitreous cavity (including in those cases when an intracapsular ring is implanted at the stage of lens removal). Also, suture fixation of the IOL model RSP-3 to the iris can lead to hemorrhagic complications, teething and deformation of the pigment layer of the iris. The technique of removing viscoelastic from the IOL is not described, which may serve as a factor in ophthalmic hypertension after surgery. In addition, tying joints in the space of the anterior chamber requires sufficient depth of the anterior chamber.

The objective of the invention is to develop a method for implanting a flexible pupillary intraocular lens model RSP-3 after microcoaxial cataract phacoemulsification.

The technical result is to reduce postoperative complications, such as retinal detachment and rupture, cystic macular edema, progression of age-related macular degeneration, ensuring high postoperative visual acuity, stable IOL position, normal anatomical relationships of intraocular structures, as well as prevention of ophthalmic hypertension in the postoperative period.

The technical result is achieved in that in the method of implanting a flexible pupil model of the IOL of the RSP-3 model after microcoaxial phacoemulsification of the cataract, including a corneal incision 2.2 mm wide and implanting the IOL using a cartridge and injector with a soft plunger while maintaining the capsule bag, removing the front of the IOL in the front chamber to the front surface of the iris, according to the invention, the back of the IOL is tucked into a capsule bag straightened by viscoelastic with a capsulorexis diameter previously made 6-7 mm; after implantation of the IOL using a curved cannula according to Simko, inserted from the lateral side of the IOL into the space between the posterior surface of the IOL and the posterior lens capsule, viscoelastic is removed from the capsular bag and in case of preoperative or intraoperative mydriasis more than 6 mm a nodular suture is placed on the pupil sphincter.

Among the essential features characterizing the method, the distinguishing ones are: the diameter of the previously performed capsulorexis is 6-7 mm, which allows the back of the IOL to be implanted into the capsule bag straightened by viscoelastic with a minimum load on the zinc cords; removal of viscoelastic from the capsule bag after IOL implantation using a curved Simko cannula, nodal suture on the edge of the pupil sphincter in case of drug-induced mydriasis in the pre- or intraoperative period of more than 6 mm.

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

Pre-made capsulorexis with a diameter of 6-7 mm allows the back of the IOL to be implanted, which, in turn, leads to expansion and stabilization of the capsular bag and IOL. Thus, the risk of vitreous traction is reduced. The removal of viscoelastic by cannula according to Simko provides a minimum load on the cinnamous ligaments and reduces the risk of postoperative ophthalmic hypertension. A nodal suture on the edge of the pupil sphincter allows prevention of its expansion, as a result of which it is possible to stabilize and reduce the likelihood of the IOL moving in the anteroposterior direction.

The method is as follows.

After standard double treatment of the surgical field, paracentesis is performed under local anesthesia for 3 hours and a tunnel corneal incision 2.2 mm wide at 10 hours. The anterior chamber is filled with viscoelastic, after which a continuous circular anterior capsulorhexis with a diameter of 6-7 mm is performed with forceps for capsulorexis. Microcoaxial cataract phacoemulsification is carried out according to the technique chosen depending on the extent of damage to the ligamentous apparatus of the lens. The anterior chamber and capsule bag are filled with viscoelastic by straightening the capsule bag. The back of the IOL is placed in a cartridge book filled with viscoelastic, the IOL is bent, pressing on the front part, the cartridge is closed. Using an injector with a soft plunger that obstructs the lumen of the cartridge, an IOL for the iris is implanted. The back part is tucked over the edge of continuous capsulorexis, the front part of the IOL is tucked over the edge of the pupil to the front surface of the iris. After IOL implantation, a curved Simco cannula connected to a disposable syringe using a flexible adapter is inserted from one of the sides of the IOL into the space between the back surface of the IOL and the posterior lens capsule and the viscoelastic remaining in the capsular bag is completely removed. In the presence of preoperative or intraoperative mydriasis of more than 6 mm, one nodal suture is applied to the edge of the pupil sphincter. The operation is completed as standard.

The proposed method is illustrated by clinical examples.

Clinical example 1

Patient Sh., 70 years old.

Diagnosis: OD - Complicated cataract, subluxation of the lens II tbsp.

Before surgery:

VisOD = 0.05 sph-6.0 = 0, l

Keratometry data:

44.75D ah 07 °

45.50D ah 97 °

Preoperative mydriasis 4 mm.

Operation: OD - microcoaxial phacoemulsification. During the operation, the inconsistency of the capsular-zonal lens apparatus was revealed. The IOL RSP-3 was implanted through a 2.2 mm incision according to the proposed method by means of an injection system, the front of the IOL was brought into the anterior chamber to the pupil to the front surface of the iris, and the back was inserted into the capsular bag. Viscoelastic was removed by the proposed method using a curved cannula according to Simko. Due to mild mydriasis, both preoperative and intraoperative, no suture was made on the sphincter of the pupil.

After operation:

V OD = 1.0 without correction

Keratometry data:

44.25D ah 06 °

44.50D ah 96 °

IOP OD 19 mm Hg

Eye status: OD - calm, the cornea is transparent, the anterior chamber is of medium depth, the pupil is 3 mm in diameter, the IOL RSP-3 is fixed in the pupil area with the front part, in the capsule bag area with the back part and occupies a central position. On the fundus single druses. According to optical coherence tomography (OCT), the dynamics of such complications from the retina as retinal detachment and tears, cystic macular edema, progression of age-related macular degeneration, was not observed.

Clinical example 2

Patient G., 48 years old.

Diagnosis: OS - Traumatic cataract, subluxation of the lens II Art. Myopia of a high degree. Condition after radial keratotomy.

Before surgery:

VisOS = 0.1 sph-1.0 = 0.3

Preoperative mydriasis - 8.5 mm.

Keratometry data:

38.75D ax 1 °

40.25D ax 91 °

Operation: OS - microcoaxial phacoemulsification. By implanting the IOL RSP-3 through a 2.2 mm incision by means of an injection system according to the proposed method, the front part of the IOL was brought into the anterior chamber into the pupil region to the front surface of the iris, and the back was inserted into the capsule bag with previously made capsulorexis with a diameter of 6-7 mm Viscoelastic was removed by the proposed method using a curved cannula according to Simko. Given that preoperative mydriasis is more than 6 mm, a nodular suture was placed on the sphincter of the pupil.

After operation:

Vis 08 = 0.9 without correction

Keratometry data:

38.00D ah 175 °

39.00D ah 85 °

IOP OS 15 mmHg

Ocular status: OS is calm, the cornea is transparent, the anterior chamber is of medium depth, the pupil is 3 mm in diameter, the IOL RSP-3 is fixed in the pupil area with the front part, in the capsule bag area with the back part and occupies a central position, the fundus without focal pathology. According to optical coherence tomography (OCT), there were no cystic macular edema in the dynamics of such complications from the retina as retinal detachment and tearing.

Claims (2)

1. The method of implantation of a flexible pupil model of an intraocular lens (IOL) of the RSP-3 model after microcoaxial cataract phacoemulsification, including a corneal incision 2.2 mm wide and implantation of the IOL using a cartridge and injector with a soft plunger while maintaining the capsule bag, removing the front of the IOL into the front camera to the front surface of the iris, characterized in that the back of the IOL is tucked into a capsule bag straightened by viscoelastic with capsulorexis previously made with a diameter of 6-7 mm; after implantation of the IOL using a curved cannula according to Simko, introduced from the side of the IOL into the space between the back surface of the IOL and the posterior lens capsule, viscoelastic is removed from the capsule bag. 2. The method according to p. 1, characterized in that in the case of preoperative or intraoperative mydriasis of more than 6 mm after removal of viscoelastic on the pupil sphincter impose a nodal suture.