RU2782500C1 - Method for revision of the zone of non-penetrating deep sclerectomy in case of its blockade by the root of the iris - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to ophthalmology. The zone of non-penetrating deep sclerectomy (NPDS) is inspected when it is blocked by the root of the iris. Under operating conditions, under a microscope, a conjunctival incision 3 mm long is made above the NPDS zone, the superficial scleral flap (SSF) formed during the previous operation is separated, the trabeculo-Descemet membrane is perforated and a basal iridectomy is performed, the anterior chamber is filled to normotone with viscoelastic through corneal paracentesis, after that, 0.2 ml of the Healaflow drainage implant is injected under the SSF and under the conjunctiva, the SSF and the conjunctiva are fixed with interrupted sutures.

EFFECT: method allows to improve visualization of the NPDS zone, prevention of scarring of the GS zone and provide a longer hypotensive effect.

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Description

SUBSTANCE: invention relates to medicine, namely to surgical ophthalmology, and can be used after filter-type antiglaucoma surgeries.

Non-penetrating deep sclerectomy (NPDS) is a filter-type operation that is widely used to treat primary open-angle glaucoma. During the operation, the anterior chamber is not opened, and the intraocular fluid flows through the formed trabeculodescemet membrane (TDM) and enters the circulatory system of the choroid, into the suprachoroidal space and under the conjunctiva. Due to this mechanism, a controlled, gradual decrease in intraocular pressure (IOP) occurs.

Blockade of the iris root TDM in the angle of the anterior chamber (ACC) is one of the main reasons for the decrease in the hypotensive effect of non-penetrating operations. Laser methods for removing the blockade of the APC and TDM with the root of the iris have proven their effectiveness, however, the effectiveness of the operation often depends on the timing of its implementation after the main operation.

The closest analogue is the method of revision of the zone of antiglaucoma surgery (AGO) after NGSE with blockade by the root of the iris [Slagle, G., Griffin, J. & Sponsel, W.E. Rotational extraction of incarcerated iris (REII): a slit lamp technique to reduce incarcerated iris after nonpenetrating deep sclerectomy for glaucoma. Graefes Arch Clin Exp Ophthalmol (2022).

https://doi.org/10.1007/s00417-022-05670-1]. Before the procedure, a 0.5% solution of procaine and a 5% solution of ophthalmic betadine are instilled into the eye. The patient is seated behind a slit lamp, a sterile 30G needle without a syringe is used to perform corneal paracentesis for 2 hours. Aqueous moisture is drained for 5-10 seconds for a target IOP of less than 15 mm Hg. Take a syringe with 0.7 ml of a 0.01% carbachol solution and a 30G needle. The needle is bent at 45°, passed through the previously made paracentesis, with a bevel facing the surgeon, into the anterior chamber and 0.2 ml of 0.01% carbachol is injected. Near the zone of blockade of AGO, determined earlier during gonioscopy, the iris is pulled down twice with a needle, freeing the zone of AGO. The remaining 0.5 ml of 0.01% carbachol is injected into the anterior chamber and the needle is removed. After manipulation, a 0.5% solution of moxifloxacin is instilled.

However, this method has some disadvantages: revision of the AGO zone under a slit lamp increases the likelihood of infection and does not provide the necessary visualization of the operation area, which significantly increases the risk of damage to intraocular structures, and the indicated hypotensive effect is short-lived up to 3-6 months.

The objective of the invention is to create a method for revision of the NGSE zone in case of blockade of the AGO zone by the root of the iris, which makes it possible to increase the efficiency of the operation, create optimal conditions for the formation of aqueous humor outflow tracts and prolong the effect of the previously performed surgical intervention.

The technical result of the proposed method is to improve visualization of the NGSE zone, prevent scarring of the AGO zone and provide a longer hypotensive effect.

The specified technical result is achieved by the fact that the method of revision of the NGSE zone during blockade by the root of the iris is performed under operating conditions under a microscope, a conjunctival incision is made parallel to the limbus 3 mm long above the operation zone, and the NGSE zone is opened. The superficial scleral flap (SSL) formed during the previous operation is cut off, TDM is perforated, and basal iridectomy is performed. The anterior chamber is filled to normotonus with viscoelastic through corneal paracentesis. After that, 0.2 ml of the Healaflow drainage implant is injected under the PSL and under the conjunctiva, the PSL and the conjunctiva are fixed with interrupted sutures with 8-0 silk thread.

In the proposed method, the revision of the NGSE zone is performed under operating conditions under a microscope, which increases the visualization of the operation zone, the accuracy of the manipulations, reduces trauma and significantly reduces the risk of infection. Basal iridectomy provides fluid outflow through the AGO area blocked by the iris. The use of the Healaflow drainage implant provides additional prevention of scarring in the area of the revision, reduces the risk of scar tissue. HealaFlow consists of linked reticular sodium hyaluronate of non-animal origin, which, being in the subconjunctival space, resolves within 3-6 months, which is an additional prevention of late scarring. The introduction of viscoplastic into the anterior chamber reduces the likelihood of such complications as hypotension and detachment of the choroid.

The method is characterized by the following clinical examples.

Example 1. Patient M., 57 years old. In the anamnesis: an increase in IOP was detected during a medical examination in a polyclinic at the place of residence in 2018. He was sent for examination at the MNTK MG in Moscow, consulted in the glaucoma department. The diagnosis was made: OU Primary open-angle glaucoma 3 V. NGSE was performed on both eyes. After operations, he was observed at the place of residence. Two years after the operation, he was redirected to the MNTK MG in Moscow with an increase in IOP in the left eye. Constantly dripping Sol into both eyes. Timololi 0.5% 1 drop 2 times a day, in the left eye Sol. Brimonidi 0.15% 1 drop 2 times a day, Sol. Dorzolamidi 2% 1 drop 2 times a day.

Examination of the left eye: Visus 0.6 does not correct (n/c). Pneumotonometry OS: IOP=26 mm Hg. Perimetry: corresponds to the advanced stage of glaucoma. Biomicroscopy OS: the eye is calm, the adnexa of the eye without features, the filtration cushion is flat for 12 hours, the cornea is transparent, the anterior chamber is of medium depth, the moisture is transparent, the iris is subatrophic, the lens is clouded in the cortical layers and the nucleus.

Ophthalmoscopy: optic disc is pale, clear boundaries, E/D=0.9, macular area without pathology, on the periphery without features. Gonioscopy: the angle of the anterior chamber (ACC) is open, for 12 hours the AGO zone is blocked by the root of the iris. Diagnosed with: OS Primary open-angle glaucoma 3B operated, complicated cataract; OD Primary open-angle glaucoma 3A operated, complicated cataract. Surgical treatment was carried out according to the proposed method: OS revision of the NGSE zone with blockade by the root of the iris.

In the early postoperative period without features. At discharge: no complaints; Visus OS 0.6 n/a; pneumotonometry: IOP OS=9 mm Hg. without antihypertensive therapy. According to the ultrasound B-scan, the OS - membranes are adjacent. At the control examination after 6 months, no negative dynamics were noted during the examination. IOP OS=15 mmHg (pneumotonometry) without antihypertensive therapy. As a result of treatment, the patient achieves a stable hypotensive effect and preserves visual functions.

Example 2. Patient I., 79 years old. Past medical history: In May 2021, the patient first applied to the MNTK MG in Moscow with complaints of decreased vision in the right eye. The examination revealed an increase in IOP. OU was diagnosed with primary open-angle glaucoma complicated by cataract. In the same month, NGSE was performed on the left eye, cataract phacoemulsification with intraocular lens implantation was performed on the right eye. Periodically observed and controlled IOP, a year after the operation revealed an increase in IOP in the left eye. Constantly dripping Sol into both eyes. Brimonidi 0.15 + Timololi 0.5% 1 drop 2 times a day

When examining the left eye: Visus 0.6 n/a. Pneumotonometry: IOP=29 mm Hg. Perimetry: corresponds to the advanced stage of glaucoma. Biomicroscopy: the eye is calm, the adnexa of the eye without features, the filtration cushion is flat for 13 hours, the cornea is transparent, the anterior chamber is of medium depth, the moisture is transparent, the iris is subatrophic, the lens is clouded in the cortical layers and the nucleus. Ophthalmoscopy: ONH is pale, clear boundaries, E/D=0.7, macular area without pathology, on the periphery without features. Gonioscopy: the APC is open, of medium width at 13 hours. The NGSE zone is covered by the root of the iris. Diagnosed with: OS Primary open-angle glaucoma 2 B operated, complicated cataract; OD Primary open-angle glaucoma 1A, Artifakia. Surgical treatment was carried out according to the proposed method: OS revision of the NGSE zone with blockade by the root of the iris.

In the early postoperative period without features. At discharge: no complaints; Visus OS 0.6 n/a; pneumotonometry: IOP OS=12 mm Hg. without antihypertensive therapy. According to the ultrasound B-scan OS - membranes are adjacent. At the control examination after 5 months, no negative dynamics were noted during the examination. IOP OS=19 mmHg (pneumotonometry) without antihypertensive therapy. As a result of treatment, the patient achieves a stable hypotensive effect and preserves visual functions.

Claims (1)

A method for revision of the area of non-penetrating deep sclerectomy (NDSE) during its blockade by the root of the iris, characterized in that under operating conditions under a microscope, a conjunctival incision is made 3 mm long over the area of NDSE, the superficial scleral flap (SSL) formed during the previous operation is separated, perforated trabeculo-Descemet's membrane and basal iridectomy is performed, the anterior chamber is filled to normotonus with viscoelastic through corneal paracentesis, after which 0.2 ml of the Healaflow drainage implant is injected under the PSL and under the conjunctiva, the PSL and the conjunctiva are fixed with interrupted sutures.