RU2602686C1 - Method for prediction of ineffectiveness of laser reconstruction of non-penetrating glaucoma surgery zone at its block by iris root - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to ophthalmology, and can be used for prediction of ineffectiveness of laser reconstruction of antiglaucoma operation (AGO) zone of non-penetrating type in its block by iris root in different time after operation. Ultrasonic biomicroscopy (UBM) of operation zone is made with determination of acoustic density (AD) of outflow tract structures. AD is expressed in percentage of sclera AD in intact area, adopted as 100 %. Thickness of trabeculae-descemet's membrane (TDM) and its width free from iris root are determined, in mm. Length of contact TDM with iris root is measured. Height of intrascleral cavity (ISC) is measured, in mm. Presence of inclusions in ISC is estimated. Presence of hypoechoic tunnel connecting ISC with filtration pad (FP) is estimated. Height of FP is determined in mm, echodensity of inclusions in it is also determined. If TDM thickness is more than 0.15 mm, TDM width, free from iris root, is less than 0.5 mm, TDM is in contact with iris root on 4/5 or more than its width, ISC height is less than 0.15 mm, it is filled with acoustic inclusions, there is no hypoechoic tunnel, there is no FP, ineffectiveness of laser reconstruction of AGO zone is diagnosed. If TDM thickness is more than 0.15 mm, there is contact of TDM with iris root of any length, ISC disappearance is detected, SF thickness is more than 0.4 mm or there is no possibility of differentiating SF borders, SF acoustic density exceeds 80 %, height of FP is less than 0.3 mm, AD of inclusions in FP exceeds 80%, ineffectiveness of laser reconstruction of AGO zone is diagnosed.

EFFECT: method enables non-penetrating predicting ineffectiveness of laser reconstruction of AGO zone.

2 cl, 2 ex

Description

A method for predicting the inefficiency of laser reconstruction of a zone of non-penetrating type anti-glaucomatous surgery when it is blocked by the root of the iris.

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

The prognosis of the inefficiency of laser reconstruction of a non-penetrating type AGO zone when it is blocked by the root of the iris at various times after surgery is of great practical importance, since the identification of a lack of evidence contributes to the validity of the choice of pathogenetically oriented surgical intervention as a method of correction of postoperative increase in ophthalmotonus.

At present, the high efficiency and safety of non-penetrating type antigens are proven in the treatment of patients with primary open-angle glaucoma (POAG). However, one of the reasons for the decrease in the hypotensive effect of non-penetrating antigens is the blockage of the anterior chamber angle by the root of the iris, which occurs in 3-27.3% of cases in the postoperative period.

One of the methods for intravital imaging of the structures of the anterior segment of the eyeball is ultrasound biomicroscopy (UBM), which has been widely used in the practice of ophthalmologists. The method provides not only an assessment of the qualitative characteristics, but also the determination of the quantitative parameters of all the structures that form the surgically formed outflow path (CSPO) of the intraocular fluid.

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

The objective of the invention is to provide a method for predicting the inefficiency of laser reconstruction of a 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 the diagnosis of the condition of TDM and overlying structures of the outflow paths created during the operation, and in case of prognosis of inefficiency, make an informed choice in favor of other methods of treatment (sinusustrabulectomy, transscleral drainage of the posterior chamber and others).

To solve this problem, two variants of the method have been developed.

The technical result of both options is to predict the ineffectiveness 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 increase the effectiveness of repeated surgical interventions, which will improve the quality of treatment for patients suffering from primary open-angle glaucoma (POAG).

The technical result according to the first embodiment is achieved by the fact that in the method for predicting the inefficiency of laser reconstruction of non-penetrating AGO when it is blocked by the root of the iris, ultrasound biomicroscopy (UBM) of the operation area is carried out with the determination of the acoustic density (AP) of the outflow path structures, while AP is expressed as a percentage of AP sclera in the intact area, taken as 100%, while determining the thickness of the trabeculo-descemet membrane (TDM) and its width, free from the root of the iris, in mm, measure the length the TDM contact with the iris root, measure the height of the intrascleral cavity (ICP) in mm, assess the presence of inclusions in the ICP, assess the presence of a hypoechoic tunnel connecting the ICP to the filtration pad (AF), determine the height of the AF in mm and the acoustic density of inclusions in it,

and if the thickness of the TDM is more than 0.15 mm, the width of the TDM free from the root of the iris is less than 0.5 mm, the TDM contacts the root of the iris 4/5 or more of its width, the ICP is less than 0.15 mm high, it is filled with acoustic inclusions , there is no hypoechoic tunnel, no AF, then the inefficiency of laser reconstruction of the AGO zone is predicted.

The technical result according to the second embodiment is achieved by conducting UBM of the operation zone with the determination of the AP of the outflow pathway structures, while the AP is expressed as a percentage of the sclera AP in the intact region taken as 100%, while the thickness of the TDM is determined in mm, the length of the TDM contact is measured with the root of the iris, measure the height of the ICP in mm, thickness in mm and the acoustic density of the scleral flap (SL), assess the presence of inclusions in the ICP, assess the presence of a hypoechoic tunnel connecting the ICP with the AF, determine the height of the AF in mm and the acoustic density inclusions in it,

and if the TDM thickness is more than 0.15 mm, the TDM is in contact with the root of the iris of any length, the disappearance of ICP is detected, the SL thickness is more than 0.4 mm or there is no possibility to differentiate the SL boundaries, the acoustic density of the SL exceeds 80%, the AF height is less than 0, 3 mm, the AP of inclusions in the AF exceeds 80%, then the inefficiency of laser reconstruction of the AGO zone is predicted.

Carrying out laser reconstruction of the AGO zone in these cases is inefficient, since it does not eliminate the main cause of postoperative hypertension - the difficulty of filtering intraocular fluid (SCI) through the scleral zone of the operation (which is expressed in the absence of ICP or its low height, as well as in filling the ICP with inclusions), and the indirect impossibility of the entry of HPW into the external area of the operation (which is expressed in the absence of a hypoechoic tunnel and AF). With a large extent of contact of the TDM with the root of the iris, attempts to eliminate contact between them are accompanied by the use of a large number of

energy, which can lead to an increase in IOP and hemorrhagic complications.

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 the AF are determined either in the absence of the AF - AP conjunctiva in the operation area and, analyzing the obtained indicators, they predict the ineffectiveness of laser reconstruction of the operation area at various times after non-penetrating AHI.

The invention is illustrated by the following examples.

Example 1

Patient A., 75 years old. Diagnosis: OD POAG 1 C operated. 14 months after MNGE.

IOP OD = 32 mmHg

During UBM examination of the right eye, it was found that: TDM 0.16 mm thick, 0.2 mm wide, TDM contacts 4/5 of its width with the root of the iris; ICP height 0.1 mm; ICP is filled with acoustic inclusions; the hypoechoic tunnel emerging from under the scleral flap does not differentiate; AF is absent.

Given the availability of all the data, in the intervals corresponding to the intervals in the claimed invention, the forecast of the inefficiency of laser reconstruction of the AGO zone is given. The patient underwent repeated surgery of the penetrating type (sinusastrabulectomy). IOP after reoperation 17 mmHg

When examined after a year, the tonometric indicators remained stable - IOP 16-18 mm Hg.

Example 2

Patient A., 79 years old. Diagnosis: OD POAG 2 V operated. 9 months after NSSE.

IOP OD = 30 mm Hg

When UBM examination of the right eye revealed: TDM 0.17 mm thick, TDM is in contact with the root of the iris 1/3 of its width; ICP is not visualized, SL is not differentiated, AP SL = 85%, the hypoechoic tunnel emerging from under the scleral flap is not differentiated, AF = 0.2 mm with AP = 90%.

Given the availability of all the data, in the intervals corresponding to the intervals in the claimed invention, the forecast of the inefficiency of laser reconstruction of the AGO zone is given. The patient underwent repeated surgery of the penetrating type (sinusastrabulectomy). IOP after reoperation 15 mmHg

When examined after a year, the tonometric indicators remained stable - IOP 76-18 mm Hg.

Using the proposed method provides life-time information about the state of the anti-glaucomatous surgical zone in the case of blockage of the AGO zone by the root of the iris, which allows predicting the inefficiency 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 forecast of the inefficiency of laser reconstruction of the AGO zone after non-penetrating type AGO is given in 27 cases. In all patients, after conducting pathogenetically oriented treatment, a stable normalization of IOP was achieved (16-21 mm Hg).

Claims (2)

1. A method for predicting the ineffectiveness of laser reconstruction of the 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 the determination of the acoustic density (AP) of the outflow path structures, while the AP is expressed in percent of AP sclera in the intact area, taken as 100%, while determining the thickness of the trabeculo-descemet membrane (TDM) and its width, free from the root of the iris, in mm, measure the length of the contact of the TDM with the root irises, measure the height of the intrascleral cavity (ICP) in mm, assess the presence of inclusions in the ICP, assess the presence of a hypoechoic tunnel connecting the ICP to the filter pad (AF), determine the height of the AF in mm and the acoustic density of inclusions in it,
and if the thickness of the TDM is more than 0.15 mm, the width of the TDM, free from the root of the iris, is less than 0.5 mm, the TDM is in contact with the root of the iris 4/5 or more of its width, the ICP is less than 0.15 mm high, it is filled with acoustic inclusions , there is no hypoechoic tunnel, no AF, then the inefficiency of laser reconstruction of the AGO zone is predicted. 2. A method for predicting the ineffectiveness of laser reconstruction of a non-penetrating type anti-glaucomatous surgery zone when it is blocked by the iris root, which consists in conducting UBM of the operation zone with determining the AP of the outflow pathway structures, while the AP is expressed as a percentage of the scleral AP in the intact region, taken as 100 %, in this case, determine the thickness of the TDM in mm, measure the length of the contact of the TDM with the root of the iris, measure the height of the ICP in mm, the thickness in mm and the acoustic density of the scleral flap (SL), assess the presence of inclusions in the ICP, nullify the presence of a hypoechoic tunnel connecting ICP with AF, determine the height of the AF in mm and the acoustic density of inclusions in it,
and if the TDM thickness is more than 0.15 mm, the TDM is in contact with the root of the iris of any length, the disappearance of ICP is detected, the SL thickness is more than 0.4 mm or there is no possibility to differentiate the SL boundaries, the acoustic density of the SL exceeds 80%, the AF height is less than 0.3 mm, AP of inclusions in AF exceeds 80%, then the inefficiency of laser reconstruction of the AGO zone is predicted.