RU2538643C1 - Method for implantation of flexible intraocular lens with c-shaped haptic portions - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention can be used for the implantation of a flexible intraocular lens (IOL) with C-shaped haptic portions in the preloaded system. To this effect, a protective cap is removed from a glider. A viscoelastic is introduced into the glider. An IOL is placed into a cartridge by positioning the glider down. The glider is removed. The IOL is advanced to reach a working hole of the cartridge by pressing a piston. Then an ophthalmic surgical microspatula is projected in the opposite direction from the piston, and the leading haptic portion of the IOL shaped as a question mark is folded. The cartridge is inserted into the corneal incision.

EFFECT: reducing the injurious exposure of the injector on the corneal tissue within the implantation area, increasing the safety of the implantation procedure, reducing a risk of the intra- and postoperative implantation complications accompanying cataract phakoemulsification with no additional manipulations with the piston in the tunnel corneal incision.

2 ex, 11 dwg

Description

The invention relates to medicine, namely to ophthalmology, and can be used for implantation of a flexible intraocular lens (IOL) with C-shaped haptic parts.

Modern technologies of cataract surgery and modern intraocular lenses provide a high level of functional results of the operation. Great progress has been achieved in such areas of development of intraocular correction as the lens material, the design of the optical and haptic parts, and the characteristics of optics. Today, the development of intraocular correction goes along the path of improving implantation methods, among which the preloaded system can be distinguished.

The preloaded system is an injection device with an intraocular lens and cartridge pre-installed in the delivery system (glider). When using this system, the protective cap (retainer) is first removed and viscoelastic is introduced into the glider, then by moving the glider down until it stops, the lens is placed in the cartridge. Then the glider is removed, and by smoothly pressing the plunger, the IOL moves to the working hole of the cartridge. After that, the nozzle of the cartridge is inserted into the corneal incision and the IOL is implanted in the capsular bag. Currently, the preloaded system is becoming the standard for safety, effectiveness and predicted effectiveness of implantation of intraocular lenses [Ioshin I.E., Khachatryan G.T., Tolchinskaya A.I. Implantation of various IOLs with the help of “preloaded” injectors // Collection of scientific papers of the scientific-practical conference on ophthalmic surgery with international participation “East-West”. - Ufa, 2012 .-- S.136-137; Ong H.S., Subash M., Sandhu A., Wilkins M.R. Intraocular Lens Delivery Characteristics of the Preloaded AcrySof IQ SN60WS / AcrySert Injectable Lens System // American Journal of Ophthalmology. - 2013 .-- Vol. 156. - No. 1. - P.77-81].

The advantages of preloaded systems include the supply of IOLs directly to a sterile injector. Thus, the risk of deformation of the lens when laying tweezers in the injector is eliminated, and any contact with the external environment is eliminated, reducing the risk of infection of the lens.

When a flexible IOL with C-shaped haptic parts is implanted in the "preloaded" system, it coagulates in the barrel of the cartridge. When folding the IOL, it is customary to distinguish between the leading (distal, lower) and driven (proximal, upper) haptic parts. In turn, the position of the leading haptic part in the cartridge barrel is classified mainly into 3 types: filled, as a “question mark” and direct. From the standpoint of safety and ease of implantation, a seasoned type of position of the haptic part is most preferred.

One of the negative factors of using the “preloaded” system when implanting a flexible IOL with C-shaped haptic parts is that when the lens is advanced in the barrel of the cartridge, the leading haptic part is folded according to the type of “question mark”, and this can be found in literature 55 -80% of cases [Ioshin I.E., Khachatryan G.T., Tolchinskaya A.I. Implantation of various IOLs with the help of “preloaded” injectors // Collection of scientific papers of the scientific-practical conference on ophthalmic surgery with international participation “East-West”. - Ufa, 2012 .-- S.136-137; Ong H.S., Subash M., Sandhu A., Wilkins M.R. Intraocular Lens Delivery Characteristics of the Preloaded AcrySof IQ SN60WS / AcrySert Injectable Lens System // American Journal of Ophthalmology. - 2013 .-- Vol. 156. - No. 1. - P.77-81]. In this case, the leading haptic part is twisted relative to its axis and, upon exiting the barrel of the cartridge, it is turned to the right. This type of folding of the haptic part of the IOL, in turn, may require additional manipulations in the capsule bag, which is especially unfavorable in complicated cases, for example, with weakness of the zinc ligamentous fibers, capsulorexis care.

One of the ways to solve this problem is a series of preliminary manipulations aimed at bringing the leading haptic part, folded in the form of a "question mark", to the most convenient exit from the position of implantation into the capsule bag. For this, it is first necessary to remove the protective cap from the “preloaded” system, introduce viscoelastic into the glider, move the glider down, place the IOL in the cartridge and insert the cartridge into the corneal incision. After that, the injector should be turned 90 ° to the right about its axis, and then, as the haptic part comes out and straightens out in the capsule bag, slowly turn the injector to the standard position [Ong H.S., Subash M., Sandhu A., Wilkins M.R. Intraocular Lens Delivery Characteristics of the Preloaded AcrySof IQ SN60WS / AcrySert Injectable Lens System // American Journal of Ophthalmology. - 2013 .-- Vol. 156. - No. 1. - P.77-81]. This method allows you to compensate for this type of folding of the leading haptic part and most effectively bring its arms into the capsular bag. The above-described method of implanting IOLs with the leading “haptic part” collapsed as the leading haptic part is taken as a prototype. The disadvantage of this method is that additional manipulations are required that can adversely affect the corneal surgical wound due to additional rotational movements of the injector in the tunnel section of the cornea, which, in turn, can lead to microcracks of the edges of the corneal surgical section. In addition, this method does not always guarantee the exit of the haptic part to the desired position. In this case, additional manipulations are necessary to give the haptic parts and the IOL itself the correct position in the capsule bag, which has a negative effect on the result of the operation, especially in the complicated course of phacoemulsification (weakness of the fibers of the zinc ligament, withdrawal of capsulorexis).

The objective of the invention is to develop a method for implantation of a flexible IOL with C-shaped haptic parts, ensuring their correct position in the capsule bag.

The technical result when using the invention is to reduce the injuring effect of the injector on the corneal tissue in the area of the tunnel incision during implantation, increasing the safety of the implantation procedure, reducing the risk of intra- and postoperative complications of implantation in the complicated course of phacoemulsification.

The indicated technical result is achieved in that in the method of implanting a flexible IOL with C-shaped haptic parts in the preloaded system, which includes removing the protective cap, introducing viscoelastic into the glider, placing the IOL in the cartridge by moving the glider down, removing the glider, moving the IOL to the working the holes of the cartridge by pressing the plunger, and the introduction of the cartridge into the corneal incision, according to the invention, before inserting the cartridge into the corneal incision, the ophthalmic surgical spatula is advanced in the opposite direction in the direction of movement of the plunger, and the leading haptic part of the IOL, folded in the form of a “question mark”, is put into the filled position.

The essence of the proposed method is illustrated by the following figures. Figure 1 shows a General view of the "preloaded" system, having a glider 1 with a pre-installed intraocular lens, a protective cap 2 that prevents accidental movement of the glider 1, an injector 3 with a cartridge 4 installed in it, a plunger 5.

Figure 2 shows the removal of the protective cap 2, while opening the holes 6 in the glider 1 for the introduction of viscoelastic.

Figure 3 shows the introduction of viscoelastic 7 into the holes 6 of the glider 1.

Figure 4 shows the direction of movement of the glider 1 relative to the injector 3.

Figure 5 presents an enlarged image of the intraocular lens 8, located in the lumen of the glider 1, and the pusher 9 of the glider 1. The pusher 9 of the glider 1 moves the intraocular lens 8 in the direction of the cartridge.

Figure 6 shows the disconnection of the glider 1 from the injector 3.

7 shows an injector 3, a cartridge 4, an intraocular lens 8 with a leading haptic part 10 in the position of the type of "question mark".

Fig. 8 shows an injector 3, a cartridge 4, in the lumen of which an intraocular lens 8 is folded with a leading haptic part 10 in a position of the “question mark” type, an ophthalmic surgical spatula 11 in the initial position. When advancing the ophthalmic surgical microspatula 11 in the direction opposite to the plunger direction, the leading haptic part 10 of the intraocular lens 8 from the position of the type of “question mark” is transferred to the filled position.

Figure 9 shows the injector 3, cartridge 4, in the lumen of which is folded the intraocular lens 8 with the leading haptic part 10 in the tucked-in position, the ophthalmic surgical spatula 11 in the final position.

Figure 10 shows the injector 3, the plunger 5 in the lumen of the cartridge 4, the intraocular lens 8, implanted in the schematic eye 12.

11 shows various types of positions of the leading haptic part when folding a flexible C-shaped IOL: tucked in position 13, position in the form of a "question mark" 14, straight position 15.

The effectiveness of the proposed method is illustrated by the following clinical examples.

Example 1. Patient A., 65 years old, diagnosis: OD - Mature age-related cataract of the third degree of density according to L. Buratto. Visual acuity before surgery OD 0.005 does not correct; the density of endothelial cells of the cornea 2240 cells / mm ² . An operation was performed phacoemulsification of cataract with implantation of a flexible IOL with C-shaped haptic parts in the "preloaded" system of the proposed method. The protective cap from the glider is removed, viscoelastic is introduced into the glider. By moving the glider down, the IOL is placed in the cartridge, then by pressing the plunger the IOL is moved to the working hole of the cartridge. An ophthalmic micro spatula is inserted into the cartridge. When advancing the ophthalmic surgical microspatula in the direction opposite to the direction of movement of the plunger, the leading haptic part from the position of the type of “question mark” is transferred to the filled position. IOL is implanted in a capsule bag. The operation and the postoperative period proceeded without complications. Visual acuity the day after surgery 0.9 without correction; the density of the endothelial cells of the cornea 2128 cells / mm ² . The IOL in the capsule bag is in the correct position.

Example 2. Patient B., 35 years old, diagnosis: OS - Traumatic cataract of the third degree of density according to L. Buratto, a linear traumatic scar of the cornea outside the optical zone. Visual acuity before surgery OD 0.1 does not correct; the density of endothelial cells of the cornea 2410 cells / mm ² . An operation was performed phacoemulsification of cataract with implantation of a flexible IOL with C-shaped haptic parts in the "preloaded" system of the proposed method. The protective cap from the glider is removed, viscoelastic is introduced into the glider. By moving the glider down, the IOL is placed in the cartridge, then by pressing the plunger the IOL is moved to the working hole of the cartridge. An ophthalmic micro spatula is inserted into the cartridge. When advancing the ophthalmic surgical microspatula in the direction opposite to the direction of movement of the plunger, the leading haptic part from the position of the type of “question mark” is transferred to the filled position. IOL is implanted in a capsule bag. The operation and the postoperative period proceeded without complications. Visual acuity the day after surgery 1.0 without correction; the density of endothelial cells of the cornea 2317 cells / mm ² . The IOL in the capsule bag is in the correct position.

Clinical application of the proposed method for implanting a flexible IOL with a C-shaped haptic part at the Optimum Laser Eye Recovery Center (Ufa) in 35 eyes showed that by translating the leading haptic part of the flexible IOL from the “question mark” type to the filled the position by advancing the ophthalmic surgical spatula in the direction opposite to the direction of the plunger movement, the injuring effect of the injector on the corneal tissue in the area of the tunnel incision during implantation is reduced, and the safety the implantation procedure, the risk of intra- and postoperative complications of implantation in the complicated course of phacoemulsification is reduced. The proposed implantation method is easily reproducible and does not require a laborious process of training surgeons.

Claims (1)

A method for implanting a flexible intraocular lens (IOL) with C-shaped haptic parts in the preloaded system, which includes removing the protective cap, introducing viscoelastic into the glider, placing the IOL in the cartridge by moving the glider down, removing the glider, moving the IOL to the working hole of the cartridge by pressing the plunger, and the introduction of the cartridge into the corneal incision, characterized in that before the introduction of the cartridge into the corneal incision, the ophthalmic micro spatula is advanced in the direction opposite to the direction of movement of the plunger and, they translate the leading haptic part of the IOL folded into the “question mark” type into the filled position.

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