RU2705254C1 - Surgical method of treating primary glaucoma combined with cataract - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, specifically to ophthalmology. For surgical treatment of primary glaucoma, conjunctiva is incised, conjunctiva and tenon coat are separated from sclera, the scleral flap is cut out with a base to the limb, a sinustrabecullectomy with the autoplastic drainage of the anterior chamber, and the flap is closed with nodular sutures. On remaining scleral flap scraping surface of sclera performing longitudinal, parallel incisions, forming four strips, from which the distal strip is cut from the choroid to a ciliary body and placed in a tunnel formed with a spatula in the suprachoriodal space, where an intraocular fluid efflux is created through the uveoscleral path. From the remaining three scleral strips, a median one is partially separated by bringing it into the anterior chamber of the eye, exposing the surface of the ciliary body and creating an additional path for the outflow of intraocular fluid from the anterior chamber.

EFFECT: method enables achieving a stable hypotensive effect, reducing the number of complications by creating an additional intraocular fluid outflow pathway, through suprachoroidal space by sclera autodrainage is low-traumatic, safe, single-stage and does not require application of donor and artificial material.

1 cl, 1 ex

Description

The invention relates to medicine, namely to ophthalmology, and is intended for surgical treatment.

Known methods for the surgical treatment of glaucoma in combination with cataracts using various types of drainage (Galiullina R.Sh. Interscleral biofiltration surgery in glaucoma surgery // Congress of Ophthalmologists of Russia, 7th: Abstracts, Part 1.-M., 2000. - S.112). As the use of allodrainage, we can cite the method proposed in 2007 by Galiullina R.Sh., in which an artificial capillary type drainage tubule is formed, the walls of which are the own sclera on three sides, and the amnial tissue fixed in the stretched position is on top. A method for the treatment of glaucoma by forming an intrascleral drainage micro-tubule using an inter-scleral biograft, characterized in that the micro-tubule has the properties of a capillary vessel, and the amniotic membrane, which is part of the wall of the drainage zone, is used as biological material. The disadvantage of this method is that there is not always the possibility and availability of donor material.

The use of donor material as a drain makes it difficult to perform this operation in ophthalmological practice due to the need for donor material and its special preparation, as well as compliance with legal and legal aspects (Frolov MA, Fedorov AA, Nazarova BC, Gonchar P. A., Kumar Vinod, Frolov AM Morphological state of allodrainage implanted due to refractory glaucoma in the long-term follow-up // Ophthalmology Journal, Vol.6 No. 3. - Moscow. - 2009 - pp. 11-14).

A known method for the surgical treatment of glaucoma in combination with cataracts, where silicone drainage is used as drainage, A. Yumagulova used a drainage made of silicone tubing, but the disadvantage of this type of drainage is that drainage was surrounded by a connecting capsule from the outer end of the tubing, which contributed to an increase in intraocular pressure and did not give a persistent hypotensive effect (Yumargulova A.F. Drainage of eye cavities in post-burn and some other secondary glaucoma (clinical study e): Dis. K.M.N. - L., 1981).

As a rule, the use of collagen and hydrogel drains does not provide a stable and long-term decrease in intraocular pressure. Over time, encapsulation or overgrowing of the drainage occurs with the loss of its main function. In addition, collagenic drains are quickly fragmented into monomers, undergo resorption in the tissues of the eye, while stimulating the regeneration of their own tissues (Astakhov S.Yu., Astakhov Yu.S., Zumbulidze N.G. A way to increase the effectiveness of non-penetrating operations during surgical treatment of primary open-angle glaucoma // Scientific and clinical journal "Glaucoma". M., 2003. - No. 2. - pp. 9-14; Miloyko B. Repeated antiglaucomatous operations in the area of the previous intervention using a collagen implant // Ph.D. Medical Sciences. M, 2002). As a result, there is excessive scarring of the newly created pathways of the outflow of intraocular fluid, fusion between the conjunctiva and sclera, scleral flap and the underlying bed, scarring in the inner fistula, which leads to a repeated increase in intraocular pressure in the late postoperative period (Adnan Ali Ahmed Tabit. Autodraining as a method for prevention of excessive scarring during antiglaucomatous operations // Thesis of Candidate of Medical Sciences.- M, MIIII GB, 1996; Bagrov S.N., Mogilevtsev V.V., Perova N.V., Maklakova I.A. Talnoe copolymer rationale for the use of collagen in surgical treatment of glaucoma // Ophthalmosurgery. 2001, № 3, pp. 24-29).

A number of authors (S.Yu. Anisimova, S.I. Anisimov, E.V. Larionov, GG Avtandilov) in 2005 developed a method based on bone collagen, a characteristic feature of which is its insolubility in physiological concentrations of acids and alkalis , as well as resistance to proteolytic enzymes, but the biocompatibility of this material was proved only in an animal experiment. (“Long-term results of the use of a new, resistant to the destruction of collagen drainage with non-penetrating deep sclerlimbectomy”. // VII Congress of Russian ophthalmologists. Abstracts. M 2005. Anisimova S.Yu., Anisimov SI, Rogacheva IV)

The closest analogues are: a surgical method for the treatment of glaucoma, including drainage of the anterior chamber and suprachoroidal space, proposed by M. Frolov and V. Nazarova in 2009. (Frolov M.A., Gonchar P.A., Kumar Vinod, Nazarova B.C., Frolov A.M. Corneal allodrainage in the treatment of refractory glaucoma. // Russian Pediatric Ophthalmology 2009; 3: 41-43.). The disadvantage of this operation is that the drainage cornea serves as drainage in this operation.

Also known is the method of combined surgical treatment of glaucoma in combination with cataracts (patent No. 2612525 dated March 09, 2017). A method for the combined surgical treatment of glaucoma in combination with cataracts, including conjunctiva incision, separation of the conjunctiva and tenon membrane from the sclera, cutting the scleral flap to 2/3 of the sclera thickness with the base to the limb, non-penetrating sclerectomy, cataract extraction, suturing the flap with nodal sutures, which differs in that 1/3 of the sclera remaining after cutting the scleral flap makes longitudinal parallel cuts, forming four strips, from which the distal stripe is cut from the vascular the eggs to the ciliary body and place it in the tunnel formed with the help of a spatula in the suprachoroidal space; from the remaining three scleral strips, the median is completely separated, exposing the surface of the ciliary body; remove the outer wall of the Schlemm canal and corneal tissue up to 2.0 mm up from the sinus and iris forceps remove the pigment epithelium from the inner wall of the Schlemm canal. The disadvantage of this method is that, over time, scarring of the created outflow pathway occurs, which leads to insufficient filtration of intraocular fluid.

The technical result of the invention is the achievement of a persistent antihypertensive effect, a reduction in the number of complications, the absence of the need for donor and artificial material due to the creation of an additional route for the outflow of intraocular fluid through the suprachoroidal space using auto-drainage from the sclera, as well as the absence of the need for two stages of hospitalization and thereby reduction stay of the patient in a hospital.

The technical result is achieved by the fact that the surgical method of treating glaucoma includes the following stages: incision of the conjunctiva, separation of the conjunctiva and tenon membrane from the sclera, cutting out the scleral flap with the base to the limb, sinistrabeculectomy, suturing of the flap with interrupted sutures, while remaining on the scleral surface remaining after cutting the scleral flap produce longitudinal, parallel sections, forming four strips, from which the distal strip is cut from the choroid to the ciliary body and placed they put it into the tunnel formed with the help of a spatula in the suprachorodial space, where the outflow of intraocular fluid through the uveoscleral pathway is created, from the remaining three scleral strips, the median is partially separated and led into the anterior chamber, exposing the surface of the ciliary body and creating an additional path for outflow from the anterior chamber eyeball.

The method is as follows. A conjunctival incision of 5 mm is made. from the limb from 10 to 1 h. Separate the conjunctiva and tenon membrane from the sclera from the limb. Produce coagulation of the vessels of the sclera. Using a scleral knife, a rectangular scleral flap is cut out with the base to the limb at 2/3 thickness of the sclera, size 3 × 4. Further on the remaining surface 1/3 sclera produce longitudinal, parallel sections from which subsequently form four strips, 4 mm long and 0.5 mm wide, and cut the distal strip to the flat part of the ciliary body. Using a spatula, a tunnel is prepared into a suprachoroidal space 2 mm wide and 4 mm long where the previously separated distal scleral strip of sclera is led to a depth of 3.5 mm. Further, in the area of the drainage system of the angle of the anterior chamber of the eye at the base of the rectangular flap, at the limb, the Shlemov canal zone is exposed, a flap of the outer wall of the channel 1 is cut out by 3 mm. Of the remaining three scleral stripes, the median is partially separated, exposing the surface of the ciliary body, and lead it into the anterior chamber of the eye. Thus, autodraining in this method is the patient’s own sclera. Next, cataract extraction is performed by phacoemulsification with implantation of an intraocular lens. The rectangular flap is sutured with two interrupted sutures. Impose a continuous seam on the conjunctiva. As a result, two ways of the outflow of intraocular fluid are created: the anterior and through the uveoscleral space using autosclera.

The described method was used when performing more than 14 operations in patients with initial, developed and far-reaching stages of glaucoma with moderately elevated and high levels of ophthalmotonus in the eyes, which are at the maximum antihypertensive mode in combination with cataracts. In all cases, a persistent hypotensive effect and increased visual acuity were obtained.

Example 1. Patient N., 67 years old. Diagnosis: Complicated cataract. Primary open-angle developed with high intraocular at the most affordable hypotensive mode (B-blockers, carbonic anhydrase inhibitor, prostaglandin F2a) glaucoma of the right eye. Upon receipt, visual acuity with correction of the right eye of 0.1. The right field of view is narrowed from the nasal side to 15 ° from the temporal to 30 °. Daily tonometry data 31-32 mm RT. Art. The operation of the proposed method on the right eye. The operation and the postoperative period was uneventful. A flat filter cushion formed in the drainage area. 3 months after the intervention, there is a flat filter pad, intraocular pressure of 17-19 mm RT. Art.

Visual acuity is 0.4-0.5. The field of view remains the same.

This operation is indicated for all stages of glaucoma in combination with cataracts.

Claims (1)

A surgical method for treating primary glaucoma, including conjunctiva incision, separation of the conjunctiva and tenon membrane from the sclera, cutting out the scleral flap with the base to the limb, sinus strabeculectomy with drainage of the autosclera anterior chamber, suturing the flap with nodular sutures, characterized in that the sclera is left with a scraping surface longitudinal, parallel sections, forming four strips, from which the distal strip is cut from the choroid to the ciliary ate and placed it in a tunnel formed with a spatula in the suprachorodial space, where an outflow of intraocular fluid through the uveoscleral pathway is created, the median is partially separated from the remaining three scleral strips, leading it into the anterior chamber of the eye, exposing the surface of the ciliary body and creating an additional path for the outflow intraocular fluid from the anterior chamber.