RU2731794C1 - Method of combined surgical treatment of macular ruptures in complicated cataract - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, particularly to ophthalmology. For combined surgical treatment of macular ruptures in complicated cataract vitrectomy is performed, removal of vitreous humor posterior hyaloid membrane, staining of macular area with dye and ILM peeling. Periphery of the capsule of the crystalline lens removed at the phacoemulsification stage is excised to the required diameter. Using endovitreal tweezers, a vitreous cavity is inserted into a formed flap of a lens capsule and placed on the surface of the macular area, covering the rupture zone. For reliable attachment of the flap to the central area of the retina, PFOC is used, which is introduced from the center, onto the flap surface, covering the macular area, with further filling of the vitreal cavity. In the PFOC medium, the graft is centered above the macular rupture. After PFOC removal, the vitrarium cavity is tamponaded with sterile air and/or gas-air mixture.

EFFECT: method provides achieving a high and stable morphofunctional result on a postoperative posterior segment of the eyeball, particularly in a central retinal area, in one surgical intervention, preventing recurrent macular ruptures in the early and remote postoperative periods.

1 cl, 1 ex, 2 dwg

Description

The invention relates to medicine, in particular to ophthalmology, and is intended for combined surgical treatment of macular ruptures in complicated cataracts.

Of the greatest interest among the modifications of the technique of macular rupture surgery is the “inverted flap” technology proposed in 2010 by Nawrocki J. and Michalewska Z. The original technique involved the separation of a fragment of the internal bordering membrane (IPM) about 2 diameters of the optic nerve head (optic nerve disc) around the rupture while maintaining its attachment to the edges of the rupture, after which the free edges of the formed fragment facing the vitreous body (CT) cavity were shortened using a vitreotome or endovitreal straight scissors. Next, a fragment of the VPM was laid on the gap in an inverted, that is, "inverted" form so that the part of the VPM facing the PT was laid on the retinal surface, and the side of the VPM facing the retina was facing the PT. The operation was completed with a gas-air tamponade. At the same time, the authors reported anatomical closure of breaks with an average minimum diameter of 698 μm in 98% of cases, an average increase in visual acuity by 0.28 lines and restoration of the histoarchitectonics of the macular zone. However, the authors noted that in 7 out of 50 cases (14%) the formed IPM fragment spontaneously detached from the edge of the rupture during the exchange of liquid for a gas-air mixture and was lost, which was assessed by them as a complication associated with the process of learning the new technique [Michalewska Z., Michalewski J., Adelman R., Nawrocki J. Inverted internal limiting membrane flap technique for large macular holes // Ophthalmology. - 2010. - Vol.117, No. 10. - P. 2018-25. Zakharov V.D. et al. Modern approaches to surgical treatment of large-diameter macular ruptures (literature review) // Practical medicine. - 2018. - No. 3 (114). - S. 64-70].

The technique of "inverted flap" has gained wide popularity among foreign and domestic surgeons. Various modifications of the technology were proposed concerning the configuration of the formed flap of the VPM and various methods of maintaining the formed flap.

The closest analogue of the invention is a method of surgical treatment of macular ruptures, including the introduction of a dye intravitreally, vitrectomy with removal of the posterior hyaloid membrane (PCM), separation of 2.0-2.5 mm to the inferior temporal arcade from the foveola of the VPM tip, grasping the tip of the VPM with forceps, carrying out circular maculorexis using intravitreal tweezers, without separating the VPM from the edge of the gap, placing the VPM inside the gap, replacing the fluid with air. As a dye, a suspension "Vitreokontrast" is used, which is injected into the macula and paramacular zone, first before the removal of the HM and then before the circular maculorexis, 0.5 ml per injection. Circular maculorexis is carried out by grasping the tip of the VPM with tweezers and separating it for 2-3 hour meridians with a movement directed along an arc of an imaginary circle with a macular gap in the center. The VPM separated along the arc (a fragment of the VPM) is intercepted at the end point and the separation of the VPM is continued. Thus, by successive interceptions of the edges of the VPM fragment with forceps, a circular separation of the VPM around the macular rupture is performed. Then, the edge of the VPM fragment is trimmed using a vitreotome. After placing the fragment of the VPM inside the rupture, it is pressed towards the center of the foveola and the liquid is replaced with air. The method provides a reduction in the trauma of surgical intervention, removal of vertical and horizontal traction of the retina, closure of the macular gap, which leads to an improvement in visual functions, the disappearance of metamorphopsia and central scotoma [RF patent for invention RU 2644712, 2018].

The disadvantages of the prototype are the complexity of the implementation and formation of an inverted flap, which requires high manual skills of the surgeon, the likelihood of spontaneous spontaneous separation of the VPM flap from the retinal surface, its relative ease and tendency to unroll to its original position, as well as its displacement during tamponade of the vitreous cavity with air.

The objective of the invention is to reduce the trauma of surgical intervention, to eliminate axial and tangential traction on the retina when closing the macular gap, which leads to an improvement in visual functions, the disappearance of metamorphopsia and central scotoma.

The technical result obtained as a result of solving this problem is the achievement of a high and stable morphofunctional result in the posterior segment of the eyeball in the postoperative period, in particular, in the central zone of the retina, in one stage of surgery, prevention of recurrence of macular ruptures in the early and late postoperative periods ...

The proposed method for the combined surgical treatment of macular ruptures in complicated cataracts is carried out as follows: an eyelid dilator is installed on the eyelids. A corneal tunnel approach of 2.2 mm is performed in the superior temporal sector, corneal approaches (paracentesis) of 1.1 mm are performed. The anterior capsule of the lens is stained with a dye (methylene blue). Viscoelastic is introduced into the anterior chamber, circular continuous capsulorhexis is performed. The formed flap from the removed anterior capsule is transferred into a Petri dish and washed with 0.9% saline. The edges of the removed lens capsule at the stage of cataract phacoemulsification (FEC) are excised using scissors to the required diameter (from 3 to 5 mm). Standard ultrasound phacoemulsification, bimanual aspiration of cortical masses, followed by intracapsular implantation of an intraocular lens (IOL) are performed. The corneal incisions are sealed by hydration with 0.9% saline.

Using a trocar with a mandrel 4 mm from the limbus in the projection of the flat part of the ciliary body, scleroconjunctival punctures are performed in the inferior-external (at 7 or 5 hours), upper-external (at 10 hours) and in the upper-internal (at 2 hours) sectors ... The formed accesses are set to 25 Gauge ports. A cannula is introduced into the port for 7 hours to irrigate the water-saline solution. The tip of the vitreotome is inserted into the port for 10 hours, the tip of the endo-illuminator is inserted into the port for 2 hours. A 3-port vitrectomy is performed: using a vitreotome, CT is excised, the posterior hyaloid membrane (PCM) is separated from the retinal surface. VPM is stained with Membrane Blue (DORC, Netherlands). Using a scraper for membrane peeling, the VPM is removed in the central region of the retina within 2 diameters of the optic disc, without going beyond the vascular arcades. Using endovitreal forceps, a formed flap from the lens capsule is inserted into the vitreous cavity and placed on the surface of the macular region, overlapping the edges of the gap. To securely adhere the flap to the central zone of the retina, a perfluoroorganic compound (PFOS) is used, which is injected from the center onto the surface of the flap, straightening it and overlapping the macular region, followed by filling the vitreous cavity. The flap is straightened and centered over the macular rupture area. Surgical intervention is completed by aspiration of PFOS and tamponade of the vitreous cavity with sterile air and / or air-gas mixture (C ₂ F ₆ ).

Cefuroxime solution 0.1 ml is injected into the anterior chamber, Levofloxacin solution 0.5% - 0.5 ml + Dexamethasone solution 0.4% - 0.5 ml under the conjunctiva. An aseptic bandage is applied. It is recommended that the patient be forced to face downward while the sterile air / air-gas mixture is in the vitreous cavity.

The pathogenetic validity of the proposed method of combined surgical treatment lies in the fact that the lens capsule, like the VPM, is the basement membrane of the human body.

The invention is illustrated by the following figures: FIG. 1 shows an OCT scan of the macular region of patient F. before surgical treatment; in fig. 2 - OCT scan of the macular region of patient F. after combined surgical treatment according to the proposed method.

The proposed invention is illustrated by the following example:

Patient F., 76 years old. I applied to the State Budgetary Institution “Ufa Research Institute of Eye Diseases of the Academy of Sciences of the Republic of Bashkortostan” with complaints of deterioration in the vision of the right eye over the past 2 years, the appearance of a black spot in the center. Diagnosis: OD: Stage IV idiopathic macular rupture. Incomplete complicated cataract.

Sop. Diagnosis: Hypertensive disease, grade III, grade II, risk 3.

Visual acuity of the right eye before surgery = 0.03 eccentric, does not correct;

Optical coherence tomography (OCT) of the macular area: a through defect of the retinal neuroepithelium with a diameter of 747 μm is visualized. The retina at the edges of the gap is thickened due to edema. The retinal layers outside the gap are clearly contoured, without pathological inclusions and deformations. The thickness of the retina outside the gap is normal.

Conclusion of OCT of the macular region: Primary through macular hole of large diameter (Fig. 1).

The operation was performed: OD - FEC + IOL + Vitrectomy + membrane peeling + maculoplasty (transplantation of the anterior lens capsule flap) + PFOS vitreous cavity tamponade + PFOS removal + vitreous cavity tamponade with a gas-air mixture.

Preoperative preparation: Instillation of 10% Neosinephrine-POS solution, 1 drop twice; Treatment of the operating field with 10% Betadine solution twice;

Anesthesia:

Lidocaine solution 2% - 1.0 ml in the sub-Tenon space; Epibulbar - 0.4% Inocaine solution.

Operation progress: an eyelid speculum was installed on the eyelids. A corneal tunnel approach of 2.2 mm was performed in the superior temporal sector; corneal approaches (paracentesis) were 1.1 mm in size. The anterior lens capsule was stained with a dye (methylene blue). Viscoelastic was injected into the anterior chamber, circular continuous capsulorhexis was performed. The formed flap from the removed anterior capsule was transferred to a Petri dish and washed with 0.9% saline. The edges of the removed lens capsule at the FEC stage were excised using scissors to a diameter of 3 mm. Standard ultrasonic phacoemulsification of the lens, bimanual aspiration of cortical masses followed by intracapsular IOL implantation was performed. Corneal incisions are sealed by hydration with 0.9% saline solution.

Using a trocar with a mandrel 4 mm from the limbus in the projection of the flat part of the ciliary body, scleroconjunctival punctures were made in the inferior-external (at 7 or 5 hours), upper-external (at 10 hours) and in the upper-internal (at 2 hours) sectors ... Ports 25 Gauge are installed in the formed accesses. A cannula was inserted into the port for 7 hours for irrigation of water-salt solution. The tip of the vitreotome was inserted into the port for 10 hours, the tip of the endo-illuminator was inserted into the port for 2 hours. A 3-port vitrectomy was performed: with the help of a vitreo-tom, the CT was excised, the BM was separated from the surface of the retina. VPM is stained with Membrane Blue dye (DORC, Netherlands). Using a scraper for membrane peeling, the VPM was removed in the central region of the retina within 2 diameters of the optic disc, without going beyond the vascular arcades. With the use of endovitreal forceps, a formed flap from the lens capsule was introduced into the vitreous cavity and placed on the surface of the macular region, overlapping the edges of the gap. To securely adhere the flap to the central zone of the retina, PFOS was used, which was introduced from the center to the surface of the flap, straightening it and overlapping the macular region, followed by filling the vitreous cavity. The flap was centered over the macular rupture area. Surgical intervention was completed with complete removal of PFOS and tamponade of the vitreous cavity with a sterile gas-air mixture.

Cefuroxime solution 0.1 ml was introduced into the anterior chamber, Levofloxacin solution 0.5% - 0.5 ml + Dexamethasone solution 0.4% - 0.5 ml under the conjunctiva. An aseptic bandage was applied. The patient is recommended to have a forced position, face down, while the gas-air mixture is in the vitreous cavity.

Within 4 days after the operation, under inpatient treatment, the patient underwent antibacterial, anti-inflammatory, angioprotective, analgesic, desensitizing therapy.

Upon discharge from the hospital, it was recommended to continue the course of the above treatment.

At the first control examination, 1 month later, after complete resorption of the gas-air mixture, the maximally corrected visual acuity of the left eye increased to 0.1. Intraocular pressure = 19.0 mm Hg The objective status of the operated eye: calm, the conjunctiva is pale pink, the cornea is transparent, homogeneous, spherical, the anterior chamber is of medium depth, moisture is transparent. The pupil and iris are round, the reaction to light is preserved. The IOL in the capsule bag takes a central position. Avitria. The fundus of the eye: the optic nerve disc is pale pink, clear boundaries. The arteries are narrowed, sclerosed. The veins are full-blooded, tense. Dystrophic changes in the macular area.

OCT of the macular region of the left eye after surgery: OD - The contour of the macular region is correct, the foveolar depression is preserved. Retinal layers are clearly visualized. A flap of the anterior lens capsule on the surface of the macular region is visualized, overlapping the foveolar zone. Dystrophic changes in the layers of the macular region. Secondary epiretinal membranes are not visualized (Fig. 2).

Claims (1)

A method for the surgical treatment of macular ruptures in complicated cataracts, including vitrectomy, removal of the posterior hyaloid membrane, staining the macular region with a dye, peeling of the internal boundary membrane (IPM), formation of a flap to close the macular rupture, tamponade of the vitreous cavity with air, characterized in that the flap for closing the macular a rupture is formed with a diameter of 3-5 mm from the anterior lens capsule by circular capsulorhexis at the stage of phacoemulsification, the VPM is removed in the central region of the retina within 2 diameters of the optic nerve head, the flap is placed on the surface of the macular region, overlapping the rupture zone, a perfluoroorganic compound is introduced onto the surface of the flap , straightening it and overlapping the macular region, followed by filling the vitreous cavity, the flap is centered.

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