RU2317015C1 - Method for predicting ophthalmotonus compensation stability in early postoperative period after nonperforating deep sclerectomy - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves measuring trabeculo-Descemet membrane thickness using ultrasonic biomicroscopy approach. Filtration cushion, trabeculo-Descemet membrane and iris root availability, anterior chamber angle state in operation zone are determined. Quantitative structural characteristics of surgically produced intraocular fluid discharge paths and acoustic density of filtration cushion contents and thickness and acoustic density of scleral flap and clearness of its boundaries are measured. Height, area, volume and acoustic density of intrascleral cavity contents is determined. Available hypoechogenic tunnels connecting the intrascleral cavity and filtration cushion are checked. Acoustic density, length and profile of trabeculo-descemet membrane is measured. If linear trabeculo-Descemet membrane profile, smooth iris root profile anterior chamber angle are open in operation zone, filtration cushion height, area and volume are greater than 0.2 mm, 15 mm² and 6.4 mm³, respectively, acoustic density of filtration cushion contents is less than 65%, scleral flap thickness less than 0.3 mm, its acoustic density less than 75%, its boundaries are clear, height, area and volume of intrascleral cavity are greater than 0.2 mm, 0.13 mm² and 1.27 mm³, respectively, acoustic density of intrascleral cavity contents is less than 30%, hypoechogenic tunnels connecting the intrascleral cavity and filtration cushion are determined. If acoustic density of trabeculo-Descemet membrane is less than 50%, trabeculo-Descemet membrane thickness is less than 0.13 mm, ophthalmotonus compensation stability is predicted to occur at early stage after the nonperforating deep sclerectomy operation.

EFFECT: high reliability and accuracy of prognosis.

Description

The invention relates to medicine, more specifically to ophthalmology, and can be used to predict the stability of compensation of ophthalmotonus in the early stages after surgery (up to 3 months) of non-perforating deep sclerectomy.

A known method for predicting the stability of the compensation of ophthalmotonus in the early stages after nonperforating deep sclerectomy, including measuring the thickness of the trabeculo-descemet membrane using ultrasound biomicroscopy and determining the presence of filter pads (Chiou AG Mermoud A., Underdahl JP, Schnyder CS An ultrasound biomicroscopic study of eyes after deep sclerectomy with collagen implantant // Ophthalmology. - 1998. - Vol.105. - P.746-750). However, this method has significant disadvantages:

firstly, they do not determine the topography of structures in the area of operation;

secondly, there are no quantitative characteristics of all structures of the surgically formed pathways of the outflow of intraocular fluid, which reduces the accuracy of predicting the stability of compensation of ophthalmotonus in the early stages after nonperforating deep sclerectomy and can lead to untimely additional treatment (with normal intraocular pressure) and, accordingly, to decompensation and the need repeated surgical intervention.

The technical result, according to the invention, is to increase the accuracy of predicting the stability of ophthalmotonus compensation in the early stages after nonperforating deep sclerectomy, by additionally determining the topography of the structures in the operation area and the quantitative characteristics of all structures of the surgically formed outflow paths in order not to miss timely measures to maintain stability result of the operation.

The specified technical result is achieved by the fact that in the method for predicting the stability of ophthalmotonus compensation in the early stages after nonperforating deep sclerectomy, which consists in measuring the thickness of the trabeculo-descemet membrane by ultrasound biomicroscopy and determining the presence of filtering pads, the topography of the structures in the operation zone is additionally determined, including the determination of profiles trabeculo-descemet membrane and the root of the iris, the state of the angle of the anterior chamber in the area of operation; quantitative characteristics of the structures of surgically formed intraocular fluid outflow pathways are measured, including determining the height, area, volume and acoustic density of the contents of the filter pad, the thickness and acoustic density of the scleral flap, and also determine the clarity of its boundaries, measure the height, area, volume and acoustic density of the intrascleral contents cavity, establish the presence of hypoechoic tunnels connecting the intrascleral cavity with a filter pad, measure a usticheskuyu density, length and profile-trabecular Descemet's membrane; and, if the profile of the trabeculo-descemet membrane is linear at the same time, the profile of the root of the iris is even and the angle of the anterior chamber is open in the area of operation, and the height, area and volume of the filter pad are respectively more than 0.2 mm, 15 mm ² and 6.4 mm ³ , and the acoustic density of the contents of the filter pad is less than 65%, the thickness of the scleral flap is less than 0.3 mm, its acoustic density is less than 75%, the borders of the scleral flap are clear, the height, area and volume of the intrascleral cavity exceed 0.2 mm, 0.13 mm ² and 1.27 mm ^3, and the acoustic raft awn intrascleral content less than 30% of the cavity; hypoechoic tunnels connecting the intrascleral cavity with the filter pad are determined; Since the acoustic density of the trabeculo-descemetic membrane is less than 50%, and the thickness of the trabeculo-descemetic membrane is less than 0.13 mm, and the presence of filtration pads is determined, then the stability of the compensation of the ophthalmotonus is predicted in the early stages after the operation of non-perforating deep sclerectomy.

An additional determination of the topography of the structures in the operation zone and the quantitative characteristics of the structures of the newly formed outflow pathways of the intraocular fluid according to the invention are empirically selected by the authors.

The combination of essential distinguishing features proposed by the inventors is necessary and sufficient for the unambiguous achievement of a positive technical result.

The proposed method for predicting the stability of compensation of ophthalmotonus in the early stages after surgery non-perforating deep sclerectomy is as follows.

The study is performed under local anesthesia while lying on the back using a Humphrey ultrasound biomicroscope (Model 840, Canada).

An eye cup of the device is inserted into the conjunctival sac to the patient and filled with contact medium. Next, measure the thickness of the trabeculo-descemet membrane and determine the presence of filtration pad. Additionally, the topography of the structures in the operation area is determined, including the determination of the profiles of the trabeculo-descemet membrane and the root of the iris, the state of the anterior chamber angle in the operation area; quantitative characteristics of the structures of surgically formed intraocular fluid outflow pathways are measured, including determining the height, area, volume and acoustic density of the contents of the filter pad, the thickness and acoustic density of the scleral flap, and also determine the clarity of its boundaries, measure the height, area, volume and acoustic density of the intrascleral contents cavity, establish the presence of hypoechoic tunnels connecting the intrascleral cavity with a filter pad, measure a usticheskuyu density, length and profile-trabecular Descemet's membrane; and, if the profile of the trabeculo-descemet membrane is linear at the same time, the profile of the iris root is even and the condition of the anterior chamber angle is open in the area of operation, and the height, area and volume of the filter cushion are respectively more than 0.2 mm, 15 mm ² and 6.4 mm ³ , and the acoustic density of the contents of the filter pad is less than 65%, the thickness of the scleral flap is less than 0.3 mm, its acoustic density is less than 75%, the borders of the scleral flap are clear, the height, area and volume of the intrascleral cavity exceed 0.2 mm, 0.13 mm ² , respectively and 1.27 mm ^3, and Loudspeaker the intrascleral cavity contents are less than 30%, hypoechoic tunnels connecting the intrascleral cavity with the filter pad are determined, the acoustic density of the trabeculo-descemet membrane is less than 50%, and the thickness of the trabeculo-descemet membrane is less than 0.13 mm, and the presence of filtration pads is determined, then prediction stability of compensation of ophthalmotonus in the early stages after surgery nonperforating deep sclerectomy without additional measures.

A method for predicting the stability of the compensation of ophthalmotonus in the early stages after surgery nonperforating deep sclerectomy is illustrated by clinical examples:

Example No. 1

Patient X., 64 years old.

Diagnosis: open-angle glaucoma OD.

IOP before surgery: P _about = 27.7 mm Hg

C-0.10

F = 3.5

KB = 140

5 weeks after surgery NSSE compensation of ophthalmotonus:

P _about = 17.3 mm Hg

C = 0.27

F = 1.97

KB = 64

With ultrasound biomicroscopic examination:

the profile of the trabeculo-descemet membrane is linear, the profile of the iris root is flat and the anterior chamber angle is open in the area of operation, and the height, area and volume of the filter pad are 0.8 mm, 25 mm ² and 20 mm ³ , respectively, and the acoustic density of the contents of the filter pad is 60% , the thickness of the scleral flap is 0.28 mm, its acoustic density is 70%, the borders of the scleral flap are clear, the height, area and volume of the intrascleral cavity are 0.5 mm, 3 mm ² and 1.5 mm ³ , respectively, and the acoustic density of the contents of the intrascleral cavity 25 %, determine Since the hypoechoic tunnels connecting the intrascleral cavity with the filtration pad, the acoustic density of the trabeculo-descemetic membrane is 45%, and the thickness of the trabeculo-descemetic membrane is 0.08 mm, and the presence of filtration pads is determined, then ophthalmotonus compensation is predicted in the early stages after non-perforating deep sclerectomy surgery additional measures to maintain stability of compensation.

Example No. 2

Patient N., 59 years old.

Diagnosis: open-angle glaucoma OS.

IOP before surgery: P _about = 40.6 mm RT.article

C = 0.08

F = 2.2

KB = 507.5

2 months after surgery NSSE compensation of ophthalmotonus:

P _about = 16.4 mm Hg

C = 0.32

F = 1.88

KB = 51.2

With ultrasound biomicroscopic examination:

the trabeculo-descemet membrane profile is linear, the iris root profile is flat and the anterior chamber angle is covered in the area of operation, and the height, area and volume of the filter pad are 0.68 mm, 28 mm ² and 19 mm ³ , respectively, and the acoustic density of the contents of the filter pad is 55% , the thickness of the scleral flap is 0.25 mm, its acoustic density is 65%, the boundaries of the scleral flap are clear, the height, area and volume of the intrascleral cavity are 0.6 mm, 2.4 mm ² and 0.96 mm ³ , respectively, and the acoustic density of the contents of the intrascleral cavity 20%, determine Since the hypoechoic tunnels connecting the intrascleral cavity with the filter pad, the acoustic density of the trabeculo-descemetic membrane is 40%, and the thickness of the trabeculo-descemetic membrane is 0.07 mm, and the presence of fibration pads is determined, then they do not predict the stability of ophthalmotonus compensation in the early stages after deep non-perforating operation sclerectomy, since one of the parameters according to the invention, namely the angle of the anterior chamber is covered in the area of operation. To maintain the stability of the compensation of ophthalmotonus in the early stages, additional laser iridectomy is necessary.

Claims (1)

A method for predicting the stability of ophthalmotonus compensation in the early stages after a nonperforating deep sclerectomy operation, including measuring the thickness of the trabeculo-descemet membrane using ultrasound biomicroscopy and determining the presence of filtration pads, characterized in that it also determines the topography of the structures in the area of the operation, including determining the profiles of the trabeculo-descemet membrane the root of the iris, the state of the angle of the anterior chamber in the area of operation; quantitative characteristics of the structures of surgically formed intraocular fluid outflow pathways are measured, including determining the height, area, volume and acoustic density of the contents of the filter pad, the thickness and acoustic density of the scleral flap, and also determine the clarity of its boundaries, measure the height, area, volume and acoustic density of the intrascleral contents cavity, establish the presence of hypoechoic tunnels connecting the intrascleral cavity with a filter pad, measure a the oral density, length and profile of the trabeculo-descemetic membrane and, if the profile of the trabeculo-descemetic membrane is linear at the same time, the profile of the iris root is even and the anterior chamber angle is open in the operation area, and the height, area and volume of the filter pad are greater than 0.2 mm, 15 mm ² and 6.4 mm ³ , and the acoustic density of the contents of the filter pad is less than 65%, the thickness of the scleral flap is less than 0.3 mm, its acoustic density is less than 75%, the borders of the scleral flap are clear, the height, area and volume of the intrascleral cavity, respectively, exceed 0.2 mm, 0.13 mm ^{2 and} 1.27 mm ³ , and the acoustic density of the contents of the intrascleral cavity is less than 30%, hypoechoic tunnels connecting the intrascleral cavity with the filter pad are determined, the acoustic density of the trabeculo-descemet membrane is less than 50% , and the thickness of the trabeculo-descemet membrane is less than 0.13 mm and the presence of filtration pads is determined, the stability of ophthalmotonus compensation is predicted in the early stages after the operation of non-perforating deep sclerectomy.