RU2704473C1 - Non-penetrating type antiglaucoma operation method implementation - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, specifically to ophthalmology. To perform non-ductile type antiglaucoma operation, a conjunctival incision is made, a superficial scleral flap is formed with a base to a limb, flap deflection, formation and removal of deep scleral flap together with external wall of Schlemm's canal, exposing zone of adjoining Descemet's membrane, laying of drainage under flap relative to limb, covering of drainage by flap and fixing of flap to scleral bed. Drainage is laid on the scleral bed under the flap near its base parallel to the limb so that the ends of the drain extend from both sides beyond the flap edges, and the flap is anchored to the scleral bed in the middle of the superficial flap outside the drainage area.

EFFECT: method improves efficiency of performed operation due to obtaining good hypotensive effect, reduces time of operation due to reduced number of performed manipulations, promotes prevention of adhesive process and slows down scarring process by shifting drainage under scleral flap with natural massage by moving upper eyelid, opens the possibility for more accurate manipulations with flap if it is necessary to perform "niddling" due to good visualization of flap edges.

1 cl, 2 ex

Description

The invention relates to medicine, namely to ophthalmology, and can be used to perform non-penetrating type anti-glaucoma surgery.

A known method for performing non-penetrating type anti-glaucoma surgery (see Glaucoma Journal, No. 1 of 2003 - pp. 19-24), which consists in performing a conjunctival incision, forming a superficial scleral flap with the base to the limb, folding the flap, forming and removing a deep scleral flap together with the outer wall of the Schlemm's canal, exposing the area of the adjacent descemet membrane, laying drainage under the flap relative to the limb, covering the drainage with a flap and stitching the flap to the scleral bed. In the known method, a drainage is placed under the superficial scleral flap, which is placed perpendicular to the limb and hemmed to the scleral bed.

The disadvantage of this method is that when forming a conjunctival incision in the execution area, relative to the limb, the base of the superficial scleral flap, the conjunctival incision can come into contact with the most exposed areas of the scleral flap, which significantly increases the risk of fibrosing of these zones. In the event that the tip of the drainage protrudes from under the scleral flap, it can provoke a divergence of the conjunctival wound. In addition, in the postoperative period, it is difficult to visualize the superficial scleral flap, because it grows quickly enough at the edges, except for the areas where the tips of the drainage protrude, which may be an obstacle to performing additional manipulations with the scleral flap: for example, “nidling” of the flap to restore the outflow of intraocular fluid. The hemming of the anti-glaucoma drainage performed in this known method requires a certain time of surgery, which increases the period of surgical intervention, and serves as an additional traumatic stage of the operation, which in the future may lead to intraoperative and postoperative complications.

The task of the invention is to develop a new and improved method for performing anti-glaucoma surgery of a non-penetrating type. The positive technical result obtained by using it consists in increasing the efficiency of the operation by obtaining a good antihypertensive effect of non-penetrating type anti-glaucoma surgery, as well as reducing the time it takes to complete, which is achieved by reducing the number of manipulations. This is ensured by the location of anti-glaucoma drainage when laying it on the scleral bed under the flap at its base parallel to the limb with ends protruding beyond the flap without hemming. Since the drainage is not hemmed, its displacement under the scleral flap during natural massage with a moving upper eyelid is possible, which helps prevent adhesions and slows down the scarring process. The edges of the superficial scleral flap in the lateral regions are well visualized under the conjunctiva even after a long time after the operation, due to the fact that they are raised by drainage, scarring develops in these areas to a lesser extent, and also because the lateral edges of the superficial scleral flap do not coincide with the conjunctival cut. This opens up the possibility for more precise manipulation of the flap if necessary to perform the "nidling".

Suturing the flap to the scleral bed in the middle of the surface flap outside the drainage area also contributes to maintaining a long hypotensive effect in the postoperative period.

The specified technical result is achieved by the fact that in the method of performing non-penetrating type anti-glaucoma surgery, which consists in performing a conjunctival incision, forming a superficial scleral flap with the base to the limb, folding the flap, forming and removing a deep scleral flap along with the outer wall of the schlemm's canal, exposing the area of the adjacent descemet membrane laying drainage under the flap relative to the limb, covering the drainage with a flap and stitching the flap to the scleral bed, dr The drainage is placed on the scleral bed under the flap at its base parallel to the limb so that the ends of the drainage protrude from the sides of the flap on both sides, and the flap is sewn to the scleral bed in the middle of the surface flap outside the drainage area.

The method of performing non-penetrating type anti-glaucoma surgery is as follows.

After local anesthesia (epibulbar Alcain - 2 drops, in the subtenon space - Lidocaine 1% - 2 ml), a conjunctival incision is performed, then the separated part of the conjunctiva is displaced so that the sclera site opens for subsequent manipulations. A superficial scleral flap is formed with the base to the limb. The formed flap is folded back, after which a deep scleral flap is formed and removed along with the outer wall of the Schlemm's canal, a portion of the adjacent descemet membrane is exposed, with sufficient filtration of the intraocular fluid. Lay drainage on the scleral bed under the flap relative to the limb at its base parallel to the limb so that the ends of the drainage protrude on both sides beyond the edges of the flap. Cover the drainage with a flap and hem the flap to the scleral bed. Suturing of the flap to the scleral bed is carried out in the middle of the surface flap outside the drainage area.

Clinical example No. 1

Patient P., 57 years old, was admitted with a diagnosis of open-angle glaucoma III In the right eye. Visual acuity with correction was 0.5. Intraocular pressure (Pt according to Maklakov) of the right eye - 28 mm Hg at maximum antihypertensive drugs. An operation was performed on the proposed method. For this, the surgical field was treated with povidone-iodine (5% Betadine solution). Subtenon anesthesia (1% Lidocaine solution - 1 ml) and topical anesthesia (0.5% Alcain solution) were performed. A conjunctival incision was made in the upper part of the eyeball, then the separated part of the conjunctiva was displaced so that the sclera site was opened for subsequent manipulations. A superficial scleral flap was formed with the base to the limb. The formed flap was thrown back, after which a triangular section was formed in the deep layers of the sclera and a deep scleral flap was removed along with the outer wall of the Schlemm's canal, exposing the area of the adjacent part of the corneal descemet membrane. The outer wall of the Schlemm's canal was removed with micro forceps. Adequate filtration of intraocular fluid was obtained. Under the superficial scleral flap, a collagen drainage was placed on the scleral bed relative to the limb at the base of the limb parallel to it so that the ends of the drainage protruded on both sides beyond the edges of the flap. Drainage was covered with a superficial scleral flap and the flap was sutured to the scleral bed with one U-shaped suture (silk 8-0). The flap was hemmed to the scleral bed in the middle of the surface flap outside the drainage area. The conjunctival incision was sutured. The early postoperative period was uneventful. When discharged on the second day, intraocular pressure was 12 mm Hg (Po), the anterior chamber remained of medium depth, visual acuity did not change, and a flat, diffuse filtration pillow was noted. After 1.5 months, a YAG laser descemetogoniopuncture was performed, due to an increase in intraocular pressure to 26 mm Hg. (Pt according to Maklakov). After this procedure, intraocular pressure decreased to 14 mmHg. (Ro). After 5 months, intraocular pressure rose to 23 mm Hg. (Pt according to Maklakov) in connection with the appearance of a cyst of the tenon membrane. A dissection of the tenon membrane cyst was performed using an insulin needle, i.e. "Needling", after which intraocular pressure decreased to 16 mmHg. (Pt according to Maklakov) and remained stable over the entire observation period. It should be noted that, despite the fact that several months have passed after the operation, the edges of the superficial scleral flap were well visualized even under the tenon cyst, which facilitated the procedure and increased its effectiveness.

Clinical example No. 2

Patient A., 72 years old, was admitted with a diagnosis of open-angle glaucoma II from the left eye. The intraocular pressure of the left eye was 32 (Pt according to Maklakov) at the maximum regime of antihypertensive drugs. Visual acuity was 0.7 n.k. The operation was performed by the proposed method. The surgical field was treated with povidone iodine (5% Betadine solution). Subtenon anesthesia (1% Lidocaine solution - 1 ml), topical anesthesia (0.5% Alcain solution) were performed. A conjunctival incision was made in the upper part of the eyeball, then the separated part of the conjunctiva was displaced so that the sclera site was opened for subsequent manipulations. A superficial scleral flap was formed with the base to the limb. The formed flap was thrown back, after which a triangular section was cut out in the deep scleral layers and the deep scleral flap was removed along with the outer wall of the Schlemm canal, exposing the portion of the adjacent part of the corneal descemet membrane. The outer wall of the Schlemm's canal was removed with micro forceps. Adequate filtration of intraocular fluid was obtained. Under the superficial scleral flap, a collagen drainage was placed on the scleral bed relative to the limb at the base of the limb parallel to it so that the ends of the drainage protruded on both sides beyond the edges of the flap. Drainage was covered with a superficial scleral flap and the flap was sutured to the scleral bed with one U-shaped suture (silk 8-0). The flap was hemmed to the scleral bed in the middle of the surface flap outside the drainage area. The conjunctival incision was sutured. When discharged on the second day, intraocular pressure was 10 mm Hg. (Po), the anterior chamber was of medium depth, visual acuity was 0.6 n.c., a flat, spilled filtration pad was noted. During the first year of observation, as a result of regular examinations, the greatest intraocular pressure on the eye operated on using the described technology was 18-19 mm. Hg (Pt according to Maklakov). Additional manipulations and drops to reduce intraocular pressure were not prescribed. Negative dynamics according to static perimetry was not observed.

According to our proposed method, 11 people were operated on. In all patients, a stable, intraocular pressure level corresponding to the goal was noted.

Claims (1)

A method of performing non-penetrating type anti-glaucoma surgery, which consists in performing a conjunctival incision, forming a superficial scleral flap with the base to the limb, folding the flap, forming and removing a deep scleral flap along with the outer wall of the schlemm canal, exposing the area of the adjacent descemet membrane, laying the drainage under the flap, covering the drainage flap and stitching the flap to the scleral bed, characterized in that the drainage is laid on the scleral bed e under the flap at its base parallel to the limb so that the ends of the drainage protrude on both sides beyond the edges of the flap, and the flap is sutured to the scleral bed in the middle of the surface flap, outside the drainage area.