RU2705411C1 - Method of treating secondary cataract on eyes with pseudophakia after extraction of congenital cataract in children - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, specifically to ophthalmology. For the purpose of treating secondary cataract with pseudophakia c after the extraction of congenital cataract in children, a posterior capsulectomy and a front vitrectomy are performed in the posterior eye chamber through paracentesis in the limb and through peripheral iridotomy without shifting the IOL in the capsular sac. Capsulectomy is performed through a puncture of the posterior capsule with formation of a hole with a tip of a vitreous cutter.

EFFECT: method provides preventing the vitreous body from falling into an anterior chamber and an operative incision, forming vitreocorneal adhesions with IOL decentralization and dislocation, developing inflammation and macular edema of the retina, loss of endothelial cells, and damage to anterior capsulorhexis.

1 cl, 2 ex

Description

The present invention relates to ophthalmology and is intended for the treatment of children with secondary cataracts after removal of congenital cataracts with implantation of an intraocular lens.

Secondary cataract (VC) is the most common complication after removal of congenital cataracts with implantation of intraocular lenses (IOL) in children, up to 75.4-95.0% of cases and is characterized by large clinical polymorphism (Adamyuk-Elschnig balls, fibrosis of the posterior capsule of various diameters and density and their combination). Most often and in the early stages after surgery, VC is formed after surgery in children of the very youngest age, which determines the need to develop the least traumatic and most effective technique for removing VC.

At present, both surgical and YAG laser techniques are used to remove VC in children of different ages. YAG laser surgery is the least traumatic, does not require opening the eyeball and giving deep long-term anesthesia (Neroev V.V., Arestova N.N. Monograph “Laser reconstructive operations for eye diseases in children. M. Ed. RAS: 2018. 256. 256 from.). However, YAG laser posterior capsulectomy is not possible with all forms of VC. Pronounced thickening of the posterior capsule often requires high energy costs, there is a high risk of damage to the lens in the form of "tracks", the development of inflammatory reactions, which does not allow creating the optimal size of the window in the posterior capsule of the lens in one session, and requires repeated interventions in young children under anesthesia. In addition, especially in infants with high proliferative activity of the lens epithelial cells, even after an effective YAG laser capsulectomy, the hole formed in the posterior capsule again grows, which requires repeated YAG laser intervention or the most radical surgical intervention in such situations. According to a number of authors, after YAG laser dysiscision of the VC, a transient exudative-vascular reaction from the side of the eye tissue may occur, characterized by phenomena of intracellular and extracellular edema and vascular stasis, which may manifest as a transient increase in intraocular pressure (Kanyukov V.N., Kanyukova Yu.V. ., Kadnikova OV YAG-laser dyscision of secondary cataract in children. Herald of the Orenburg State University // 2008. - No. 12, p. 51-53.).

To remove VC by surgical methods, it is used as a front approach to the posterior lens capsule through a corneal incision (Bobrova N.F., Skripnichenko Z.M. Monograph. Cataracts are toxic, congenital, secondary // Odessa, Publishing Center 2017. - 319 p. ), and the posterior approach through the pars plana (Zaydullin I.S. System of surgical interventions for pathology of the lens in complicated cases in children. Diss. Doct. Medical Sciences. Krasnoyarsk 2012, 273 pp.). Both techniques are not without flaws.

When manipulating through the pars plana, 2 incisions are required: paracentesis in the limb area for the introduction of mydriatic and viscoelastic and an additional incision of the conjunctiva and sclera in the flat part of the ciliary body for the introduction of the vitreotome with the suture or coagulation of the incision site at the end of the operation, which lengthens the time of the operation and anesthesia for the child . The large volume of vitrectomy required with this technique for VC removal can provoke the development of vitriitis, opacities of the vitreous body, macular edema, macular degeneration, and decentralization of IOL.

There is a method of the same purpose, adopted for the closest analogue and including an anterior approach to the lens according to the posterior capsulorexis technique in combination with an anterior "dry" vitrectomy (Bobrova NF, Skripnichenko ZM Monograph. Cataracts are toxic, congenital, secondary // Odessa, Publishing Center 2017. - 319 p.). Removing VC in this way requires maximum mydriasis and a significant displacement of the IOL in the capsular bag so that the vitrector tip can fit to the posterior capsule between the IOL and the edge of the anterior capsulorexis. These manipulations are associated with a high risk of developing complications such as prolapse of the vitreous body in the anterior chamber and surgical incision, the formation of vitreocorneal adhesions with decentralization and dislocation of the IOL, the development of inflammation and macular edema of the retina. Additional endothelial cell loss is also possible due to the introduction of instruments into the anterior chamber and the turbulent movement of irrigation fluid during surgery, and the need to displace the IOL in the capsular bag and insert the instruments through the anterior capsulorhexis is associated with the risk of damage to the anterior capsulorexos edge by cutting tools, and sometimes the inability to implement front approach interventions with a tight girth of the IOL capsule bag

Disclosure of invention

The objective of the invention is to develop an improved method for the removal of VK by the front approach in front of the eyes with artifact after extraction of congenital cataract in children.

The technical result of the invention is the prevention of prolapse of the vitreous body in the anterior chamber and surgical incision, the formation of vitreocorneal adhesions with decentralization and dislocation of the IOL, the development of inflammation and macular edema of the retina, loss of endothelial cells, damage to the edge of the anterior capsulorhexis.

The technical result is achieved by performing all stages of the surgical procedure, opening the posterior lens capsule, removing secondary cataract, performing anterior vitrectomy in the posterior chamber of the eye with instruments introduced through paracentesis in the limbus and peripheral iridotomy, which then closes independently.

When using the closest analogue, access to the posterior lens capsule is not possible without displacing the IOL in the capsular bag, which is associated with a high risk of developing surgical and postoperative complications. The proposed method uses surgical techniques that do not require the displacement of the IOL in the capsule bag. As a result, this ensures the optimal volumetric optical opening in the posterior lens capsule, which is necessary for the development of the child's visual functions; prevention of complications caused by the opening of the posterior lens capsule (prolapse of the vitreous body into the anterior chamber and surgical incision, the formation of vitreocorneal fusion, IOL dislocation, the development of macular retinal edema, macular degeneration). The reduction in the invasiveness of the intervention occurs due to all manipulations (capsulectomy, vitrectomy) in the posterior chamber of the eye under the cover of the iris, inside the capsular bag under the IOL without displacement. An important point is also to reduce the time of the operation, because all surgical procedures in children are performed under general anesthesia.

The method is as follows.

If a child has secondary cataract during artifact after congenital cataract extraction with IOL implantation, posterior capsulectomy and anterior vitrectomy in the posterior chamber of the eye are performed through paracentesis in the limbus and through peripheral iridotomy without displacement of the IOL in the capsular bag.

Example 1

Patient M., 1 year, 10 months. At 8 months he was treated at the Federal State Budgetary Institution Scientific Research Institute for GB named after Helmholtz »Ministry of Health of Russia with a diagnosis of congenital cataract of the left eye, the right eye is healthy. Visual acuity before surgery - light perception. Under anesthesia, phacoaspiration of congenital cataract with IOL implantation was performed. All stages of the operation (tunnel incision of the cornea, opening of the anterior capsule of the lens, removal of the lens masses) were performed according to the standard method. The posterior lens capsule is transparent, preserved. Hoya iSert model 251 monoblock IOL was implanted into the capsule bag. There were no complications during the operation and in the early postoperative period. 14 months after the operation, a secondary cataract formed in the form of a combination of Adamyuk-Elshnig balls with fibrosis of the posterior lens capsule. Under anesthesia, the child underwent surgery to remove secondary cataract according to the proposed method. At the same time, in a 12.0-hour sector, a 1.2 mm knife performed paracentesis in the limbus, peripheral iridotomy and puncture of the posterior capsule in the center under the cover of the iris and IOL. The tip of the 23G vitreotome inserted into the puncture in the posterior lens capsule formed an opening D = 3.5 mm and anterior vitrectomy was performed. The postoperative period without complications, the position of the IOL is correct, the optical media are transparent, the fundus is ophthalmoscopically detailed. Before the operation, the child distinguished only light with the left eye when closing a healthy eye, after the operation he actively reaches for the toy, which the parents noted with joy. The condition of the eyes is stable, there were no complications within 10 months after the operation. Intraocular pressure (IOP) is normal. Recommended measures for the development of vision: occlusion of the right eye, pleoptic treatment.

Example 2

Patient F-va 1 year, 4 months. At 5 months of life, she was treated at the Federal State Budgetary Institution Scientific Research Institute for GB named after Helmholtz »Ministry of Health of Russia with a diagnosis of bilateral congenital complete cataract. An operation on the right eye was performed under general anesthesia: phacoaspiration of congenital cataract with intracapsular implantation of IOL Hoya iSert model 251. The left eye was operated on at 6 months. All stages of the operation (tunnel incision of the cornea, opening of the anterior capsule of the lens, removal of the lens masses) were performed according to the standard method. Visual acuity of both eyes before surgery - movement of the hand in the face. Upon discharge from the department: spokon eye, transparent optical media, the position of the IOL is correct, the fundus is well ophthalmoscopic. The child began to actively respond to toys presented at different distances. When examining the child 5 months after the operation, the eye condition is stable, after 10 months, a partial secondary cataract appeared on the right eye, which progressed and at the age of 1 year, 3 months was removed by the proposed method. Performed paracentesis in the limb in the 11.0 hours sector with a 1.2 mm knife, peripheral iridotomy and puncture of the posterior capsule in the center under the cover of the iris and IOL, that is, without displacement of the IOL in the capsule bag. The tip of the 23G vitreotome inserted into the puncture in the posterior lens capsule formed an opening D = 5.0 mm and anterior vitrectomy was performed. The postoperative period without complications, the position of the IOL is correct, the optical media are transparent, the fundus is well ophthalmoscopic. On the left eye, a partial secondary cataract was revealed, which allows ophthalmoscopy of the fundus details and does not require surgical intervention. Dynamic observation is recommended. When viewed after 6 months - the right eye: calm, the optical medium is transparent, the position of the IOL is correct, the posterior part of the eye without pathology; the left eye is a partial secondary cataract in the form of single Adamyuk-Elshnig spheres and partial fibrosis of the posterior capsule on the periphery, which do not currently require surgical intervention.

Thus, as a result of applying this method of VC removal, the hole formed in the posterior capsule remains covered by the iris and IOL, which prevents the vitreous from falling out, formation of vitreocorneal adhesions, IOL displacement, the development of inflammation and macular retinal edema, and the repeated formation of VC.

Claims (1)

A method of treating secondary cataract in case of artifact after the extraction of congenital cataract in children, comprising performing posterior capsulectomy and anterior vitrectomy, characterized in that capsulectomy and vitrectomy are performed in the posterior chamber of the eye through paracentesis in the limbus and through peripheral iridotomy without shifting the IOL in the capsular bag, capsulectomy is performed through a puncture of the posterior capsule with the formation of a hole by the tip of the vitreotome.