RU2428152C1 - Method of intraocular lens mobilisation for ablation of secondary cataract with application of bimanual automated aspiration-irrigation system in presence of anterior capsulorhexis phimosis - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to ophthalmology, and can be used for ablation of secondary cataracts in presence of anterior capsulorhexis phimosis. Two opposite retina paracenteses are applied. Viscoelastics are introduced into anterior chamber and under IOL. Mobilisation of IOL is performed. Fibrously changed anterior lens capsule is dissected in projection of opposite retina paracentesis maximally close to the edge of IOL optic part in direction "from inside-outside" with long spear-shaped knife 0.9 mm wide through earlier applied opposite retina paracenteses. Application of two opposite paracenteses ia performed in upper and lower parts of fibrously changed anterior capsule in projection of opposite retina paracentesis. Proliferating cells of crystalline lens epithelium are ablated by bimanual automated aspiration-irrigation system. Posterior crystalline lens capsule is polished with tips of bimanual automated aspiration-irrigation system brought in directly through cuts of anterior crystalline lens capsule immediately under earlier implanted IOL.

EFFECT: method makes it possible to obtain operation access to dimmed posterior crystalline lens capsule under IOL, carry out safe and fast IOL mobilisation.

2 cl, 3 dwg, 1 ex

Description

The invention relates to medicine, namely to ophthalmic surgery, and can be used to remove secondary cataracts as an option for clouding of the posterior lens capsule, which developed at various times after the extraction of various types of cataracts or a transparent lens lensectomy with refractive purpose and complicated by the presence of anterior capsulorexis phimosis.

Surgical treatment of secondary cataract includes surgical capsulotomy mechanically using various special or adapted tools for this manipulation and various surgical approaches (see S.N. Fedorov, E.V. Egorova. Errors and complications in the implantation of an artificial lens. M., 1992 , p. 208-219).

The most common method of secondary cataract removal today is its laser destruction (laser dyscision, laser capsulotomy) using an Nd: YAG laser (see Olsen G., Olson RJ Update on a long-range, prospective study of capsulotomy and retinal detachment rates after cataract surgery // J. Cataract Refract. Surg. - 2000. - Vol.26. No.7. - P.1017-1021).

The reasons that impede the achievement of the technical result indicated below when using known methods include the fact that the use of these methods can cause some complications (recurring macular edema, retinal detachment, ophthalmic hypertension), which after laser destruction of the posterior lens capsule are significantly more likely than in the main populations.

A known method for surgical replacement of an intraocular lens, in which, if phimosis of the anterior capsulorexis is found, which impedes the mobilization of the intraocular lens (IOL), an edge of the anterior capsulorexis is cut with collet scissors and tweezers are expanded (see RF application No. 2003127614, publ. March 20, 2005).

The reasons that impede the achievement of the technical result indicated below when using the known method include the fact that the uneven density and, accordingly, the elasticity of the fibrosed lens capsule do not always allow this manipulation to be performed safely and quickly.

The closest technical solution in relation to the proposed set of essential features is a method for removing opacities of the posterior lens capsule using a bimanual automated aspiration-irrigation system, which involves applying two opposite corneal paracentesis, introducing viscoelastics into the anterior chamber and under the IOL, mobilizing IOL and remove the proliferating cells of the lens epithelium of the bimanual automated aspiration-irrigation system, adopted a prototype (see. Bezique SV Kovelenova IV Removal of secondary cataract using an automated suction-irrigation system. Proceedings of the V Eurasian conference on ophthalmic surgery, Ekaterinburg, 2009, s.23-25).

The reasons that impede the achievement of the technical result indicated below when using this method include the fact that in the presence of phimosis (infringement) of the anterior capsulorexis, the presence of the Sommering ring (fibrosing of the edge of the anterior capsulorhexis), mobilization of the IOL for the described manipulations is significantly difficult.

The objective of the invention is to provide a method of mobilization of an intraocular lens to remove secondary cataract using a bimanual automated aspiration-irrigation system in the presence of anterior capsulorhexis phimosis, providing a technical result consisting in the possibility of obtaining operational access to a clouded posterior lens capsule under the IOL, and performing safe and quick mobilization IOL and avoid unwanted effects.

The specified technical result is achieved by the fact that in the method of mobilization of an intraocular lens to remove secondary cataract using a bimanual automated aspiration-irrigation system in the presence of anterior capsulorhexis phimosis, two opposite corneal paracentesis are superimposed, viscoelastics are introduced into the anterior chamber and under the IOL, IOL is mobilized proliferating lens epithelial cells with a bimanual automated aspiration-irrigation system.

The peculiarity is that before removing the proliferating cells of the lens epithelium with a bimanual automated aspiration-irrigation system, the fibrously changed anterior lens capsule is dissected in the projection of the opposite corneal paracentesis as close as possible to the edge of the optical part of the IOL in the direction “inside-out” with a long spear-shaped 0.9-wide knife mm through previously applied opposite corneal paracentesis.

The invention is illustrated figure 1-3.

Figure 1 illustrates the imposition of paracentesis in the upper part of the fibrosed anterior capsule in the region of the edge of the IOL (the arrow indicates the edge of the anterior capsulorexis).

Figure 2 illustrates the creation of paracentesis in the lower part of the anterior capsule.

Figure 3 illustrates the removal of proliferating lens epithelial cells from the surface of the posterior capsule by aspiration-irrigation under IOL via paracentesis in the anterior lens capsule (arrow indicates the aspiration tip inserted under the edge of the IOL through an incision in the fibrous anterior capsule).

The method is as follows.

After treatment of the surgical field and anesthesia, two opposite corneal paracentesis are applied. Next, viscoelastics are introduced into the anterior chamber and under the IOL. Mobilize the IOL. In the case of detecting phimosis and fibrosing of the edge of the anterior capsulorhexis through the opposite superimposed corneal paracentesis with a long spear-shaped knife 0.9 mm wide, the fibrously changed anterior lens capsule is dissected in the projection of the opposite corneal paracentesis as close to the edge of the optical part of the IOL, in the direction “from the inside to the outside” (figure 1, 2), thereby gaining access under the IOL. After that, the proliferating lens epithelial cells of the bimanual automated irrigation aspiration system are removed. Then, the posterior lens capsule is polished, leading the tips of the bimanual automated aspiration-irrigation system directly through the incisions of the anterior lens capsule immediately under the previously implanted IOL (Fig. 3). This eliminates the need for active manipulation of the IOL, traction effects on the capsular bag and its undesirable displacements at the time of mobilization of the IOL.

The final stages of the operation do not differ from those in other abdominal operations.

During the operation, no specific complications were noted. In the postoperative period, standard anti-inflammatory treatment with a short course is performed. In the early postoperative and long-term period, all patients noted a significant improvement in visual acuity and other visual functions. The application of two opposite corneal paracentesis on the fibrosed anterior capsule of the lens does not cause further dislocation of the IOL or other specific complications.

Clinical example.

A patient of Peninsula, 69 years old, was hospitalized in the Department of Eye Microsurgery of the State Healthcare Institution of the Ulyanovsk Regional Clinical Hospital in February 2008 with a diagnosis of Secondary cataract, artifact, high myopia, peripheral chorioretinal dystrophy of both eyes. Coronary heart disease, angina pectoris II f. class

From the anamnesis: myopia from childhood; operated on for complicated immature cataracts of both eyes with implantation of IOL from polymethyl methacrylate in 2006. Visual acuity at discharge was: OD 0.2 (-) 2.25 D = 0.7 / OS 0.2 (-2.0) = 0 ,8.

After 10-12 months. after the operation noted a gradual decrease in vision of the left, then the right eye. An examination in 2008 revealed a secondary cataract in both eyes. In February 2008, the secondary OS cataract was removed by irrigation-aspiration. During the preoperative examination revealed: visual acuity OS with corr. (-) 2.5 D = 0.2 (“in the fog”). OS biomicroscopy: the cornea is transparent, the anterior chamber is deep, the iris is atrophic, the pupil in the center is 2-3 mm, rigid, the edge of the phimosed anterior capsulorexis 3 mm in diameter is determined in the pupil lumen. The posterior chamber lens is located correctly in the capsular bag, centered. On the posterior lens capsule, on the anterior and posterior surfaces of the IOL, massive proliferation of the lens epithelium is determined in the form of Adamyuk-Elshnig spheres. The fundus is not available in detail.

During the operation to remove the secondary proliferative cataract, iris retractors were placed on the edge of the pupil to improve visibility. A 0.9 mm long blade superimposed paracentesis on the anterior lens capsule from the inside to the outside in the projection of the opposite corneal paracentesis as close as possible to the edge of the IOL. Under the guise of viscoelastics, the irrigation tip is inserted into the anterior chamber above the IOL, and the aspiration through the cornea and anterior capsule paracentesis under the IOL. The proliferating epithelium was aspirated, and the posterior capsule was polished to the degree of optical transparency. The application of paracentesis of the anterior lens capsule during the operation made it possible to eliminate undesirable traction effects on the capsular bag and the ligamentous apparatus of the lens, as well as reduce the number of manipulations in the anterior chamber. The final stages of the operation did not differ from those adopted in cataract surgery.

In the early postoperative period, visual acuity of OS with corr. (-) 2.0 D = 0.6-0.7.

Thus, the method of mobilizing the IOL to remove secondary cataract using a bimanual automated aspiration-irrigation system provides an effective and less dangerous way to eliminate clouding of the posterior lens capsule with the presence of anterior capsulophimosis and avoids undesirable consequences. The occurrence of phimosis of the anterior capsulorexis does not preclude this operation due to the application of the described method of forming access to the posterior lens capsule.

The method does not require special retrofitting of the operating room, technically feasible if you have the skills of lens surgery.

Claims (2)

1. A method for mobilizing an intraocular lens (IOL) to remove secondary cataract using a bimanual automated aspiration-irrigation system in the presence of anterior capsulorhexis phimosis, which involves applying two opposite corneal paracentesis, introducing viscoelastics into the anterior chamber and under the IOL, and mobilizing IOL, removal of proliferating lens epithelial cells by a bimanual automated aspiration-irrigation system, characterized in that before removal of the lens epithelial cells by a bimanual automated aspiration-irrigation system, the fibrously changed anterior lens capsule is dissected in the projection of the opposite corneal paracentesis as close to the edge of the optical part of the IOL in the “inside-out” direction with a long spear-shaped knife 0.9 mm wide opposite the incised pair , then polish the back capsule of the lens, turning on the tips of a bimanual automated aspiration-ir system rigation directly through incisions of the anterior lens capsule immediately below the previously implanted IOL. 2. The method according to claim 1, characterized in that the application of two opposite paracentesis is carried out in the upper and lower parts of the fibrosed anterior capsule in the projection of the opposite corneal paracentesis.

Images