RU2591666C1 - Method for prediction of effectiveness of laser reconstruction of non-penetrating glaucoma surgery zone at its block by iris root - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to ophthalmology, and can be used for prediction of effectiveness of laser reconstruction zone non-penetrating antiglaucomatous surgery (AGS). One performs UBM (ultrasound biomicroscopy) of surgery zone with determination of acoustic density (AD) of outflow tract structures. AD is expressed in percentage of sclera AD in intact area, adopted as 100 %. Determined AD TDM, TDM thickness and its width are measured, free from iris root, in mm, TDM contact length is measured with iris root. Measuring height of intrascleral cavity (ISC), in mm. Presence of hypoechoic tunnel is estimated connecting ISC with filtration pad (FP). Determining FP height in mm, and its acoustic density. If TDM acoustic density is less than 75 %, TDM thickness is less than 0.13 mm, width of more than 1 mm, TDM contact with iris root for ½ or less than its width, ISC height is more than 0.15 mm, hypoechoic tunnel is visualized, FP height is more than 0.3 mm, and AD FP is less than 70 %, then laser reconstruction of AGS zone efficiency is predicted.

EFFECT: method enables predicting laser reconstruction of AGS zone effectiveness that provides for laser treatment by indications and increases its effectiveness.

1 cl, 2 ex

Description

The invention relates to medicine, specifically to ophthalmology, and can be used to predict the effectiveness of laser reconstruction of the area of non-penetrating type anti-glaucomatous surgery (AGO) when it is blocked by the root of the iris at various times after the operation.

Many years of experience in the use of non-penetrating deep sclerectomy (NSGE), proposed in 1984 by academician S.N. Fedorov and Professor V.I. Kozlov, proved his high efficiency and a small number of complications. It is the trabeculo-descemetic membrane (TDM) in the postoperative period after various modifications of non-perforating operations that is of particular importance as the main zone responsible for the filtration of intraocular fluid (HPW). However, in some cases, a short hypotensive effect was noted due to blockage of the anterior chamber angle by the root of the iris, which, according to published data, varies from 3 to 27.3% in the postoperative period.

The harmful effects of increased intraocular pressure (IOP) on the visual function of the eye are well known. The relevance of predicting the effectiveness of laser reconstruction of the zone of non-penetrating deep sclerectomy (NSSE) is justified by a decrease in the effectiveness of laser intervention as the timing of its implementation is removed from the time of the operation. Laser reconstruction of the AGO zone in the absence of indications in patients with a relapse of ophthalmic hypertension worsens the quality of medical care, prevents timely surgical correction of increased IOP and the preservation of high visual functions.

One of the ways to visualize the tissues of the anterior segment of the eye is ultrasound biomicroscopy (UBM), which makes it possible to diagnose with high accuracy the negative changes in the structures of the surgically formed outflow pathways of the intraocular fluid.

The authors are not aware of methods for predicting the effectiveness of laser reconstruction of the AGO zone after non-penetrating AGO.

The objective of this invention is to provide a method for predicting the effectiveness of laser reconstruction of the non-penetrating type AGO zone when it is blocked by the root of the iris at various times after surgery using UBM. UBM provides high accuracy in diagnosing the condition of TDM and overlying outflow path structures created during the operation, which will allow laser reconstruction of the AGO zone according to indications.

The technical result is the prediction of the effectiveness of laser reconstruction of the non-penetrating type AGO zone when it is blocked by the root of the iris at different times after surgery using the UBM method, which will provide laser treatment according to indications, increase its effectiveness, and improve the quality of treatment for patients suffering from primary open-angle glaucoma (POAG).

The technical result is achieved by the fact that in the method for predicting the effectiveness of laser reconstruction of non-penetrating AGO type when it is blocked by the root of the iris, that is, they conduct UBM of the operation zone with determination of the acoustic density (AP) of the outflow pathway structures, while AP is expressed as a percentage of AP sclera in the intact region, taken as 100%, the AP TDM is determined, the thickness of the TDM and its width, free from the root of the iris, are measured in mm, the length of the contact of the TDM with the root of the iris is measured, the height of the intrascleral cavity (ICP), in mm, thickness, in mm, and the acoustic density of the scleral flap (SL), assess the presence and acoustic density of inclusions in the ICP, assess the presence of a hypoechoic tunnel connecting the ICP with a filter pad (AF), determine the height of the AF, in mm, and the acoustic density of inclusions in it, and if the acoustic density of the TDM is less than 75%, the thickness of the TDM is less than 0.13 mm, the width is more than 1 mm, there is a TDM contact with the root of the iris ½ or less of its width, the height of the ICP is more than 0.15 mm, the hypoechoic tunnel is visualized, AF height is more than 0.3 mm, and AP AF is its 70%, the efficiency of laser predict AGO reconstruction zone.

With a small contact of TDM with the root of the iris, in most cases, it can be eliminated, and the safety of the outflow paths formed by the operation: ICP, the presence of a hypoechoic tunnel, AF with no signs of severe scarring (AP less than 70%), allows laser reconstruction of the AGO zone and reduce IOP.

The combination of essential distinguishing features proposed by the authors is necessary and sufficient for the unique achievement of the claimed technical result of the invention.

The method proposed by the authors is as follows.

Qualitative and quantitative characteristics of the drainage path structures are determined using a UBM performed on an HUMPHREY ultrasound biomicroscope, model 840, sensor frequency 50 MHz, penetration 5 mm, resolution 40-50 microns. Initially, the AP, thickness and width of the TDM are determined. The height of the intrascleral cavity (ICP) is measured, the number of acoustic inclusions in the ICP is estimated. The acoustic density of the scleral flap (SL) is measured, and the state of the hypoechoic tunnel connecting the ICP to the filtration pad (FP) is evaluated. The height and acoustic density of inclusions in AF are determined either in the absence of AF - AP conjunctiva in the area of operation and, analyzing the obtained indicators, they predict the effectiveness of laser reconstruction of the area of operation at different times after non-penetrating type AHI.

The invention is illustrated by the following examples.

Example No. 1.

Patient I., 69 years old. Diagnosis: OS POAG 2 V operated. 5 months after HSE, IOP OS = 27 mm Hg

When UBM revealed: TDM with a thickness of 0.13 mm and a width of 1.2 mm, with AP = 65%; local contact of the iris root with TDM; A COI with a height of 0.4 mm, 1/3 of its volume filled with acoustic inclusions, AF with a height of 0.4 mm, with AP = 65%, a hypoechoic tunnel is visualized connecting the ICP with a filter pad.

Given the presence of all the data in the intervals corresponding to the intervals in the claimed invention, the forecast of the effectiveness of laser reconstruction of the AGO zone is given. The patient underwent a laser operation: gonioplasty with descemetogoniopuncture. IOP after treatment - 19 mm Hg

When examined after 8 months, normal tonometric indices remain - 18-20 mm Hg.

Example No. 2.

Patient S., 57 years old. Diagnosis: OD POAG 3V operated. 1 year after NSGE.

IOP OD = 28 mm Hg

UBM examination of the right eye revealed TDM with a thickness of 0.08 mm, a width of 1.0 mm with AP = 70%, TDM in its ½ length contacts with the root of the iris. The height of the ICP is 0.2 mm, the ICP is partially filled with acoustic inclusions. AF 0.45 mm high, acoustic density 60%, a hypoechoic tunnel is visualized connecting the ICP with a filter pad.

Given the presence of all the data in the intervals corresponding to the intervals in the claimed invention, the forecast of the effectiveness of laser reconstruction of the AGO zone is given. The patient underwent a laser operation: gonioplasty with basal iridectomy and descemetogoniopuncture. IOP after treatment - 16 mm Hg

When examined after 10 months, normal tonometric indices remain - 17-20 mm Hg.

Using the proposed method provides life-time information about the state of the antiglaucomatous surgical zone in case of blockage of the AGO zone by the root of the iris, which allows predicting the effectiveness of laser reconstruction of the AGO zone and choosing pathogenetically substantiated tactics for treating patients with ophthalmic hypertension after non-penetrating type AGO. Timely use of the method helps to normalize increased IOP in the shortest possible time, to achieve stable normotonia, which improves the quality of treatment of patients with POAG. The method is technically simple and affordable.

According to the proposed method, the prognosis of the effectiveness of laser reconstruction of the AGO zone after non-penetrating AGO is given in 38 cases. In all patients, after conducting pathogenetically oriented treatment, a stable normalization of IOP was achieved (16-21 mm Hg).

Claims (1)

A method for predicting the effectiveness of laser reconstruction of a non-penetrating type of antiglaucomatous surgery (AGO) zone when it is blocked by the iris root, which consists in performing ultrasound biomicroscopy (UBM) of the operation zone with determining the acoustic density (AP) of the outflow pathway structures, and AP is expressed as a percentage of AP sclera in the intact region, taken as 100%, in this case, determine the AP of the trabeculo-descemet membrane (TDM), measure the thickness of the TDM and its width, free from the root of the iris, in mm, measure the length of the contact of the TDM with with the iris, measure the height of the intrascleral cavity (ICP), in mm, assess the presence of a hypoechoic tunnel connecting the ICP to the filter pad (AF), determine the height of the AF, in mm, and its acoustic density, and if the acoustic density of the TDM is less than 75%, the thickness TDM is less than 0.13 mm, width is greater than 1 mm, there is TDM contact with the root of the iris ½ or less of its width, the height of the ICP is more than 0.15 mm, the hypoechoic tunnel is visualized, the AF height is more than 0.3 mm, and the AF is less than 70 %, they predict the effectiveness of laser reconstruction of the AGO zone.