RU2750519C1 - Method for meniscometry in lacrimal dysfunction - Google Patents

Abstract

FIELD: medicine; ophthalmology.

SUBSTANCE: invention relates to medicine, namely to ophthalmology, it can be used for lacrimal dysfunction diagnostics using meniscometry. The cross-sectional area of the lacrimal meniscus is measured using an optical coherence tomograph. At the same time, the study is carried out under the following conditions: the air temperature in the room where the study is conducted is 20-24°C, the relative humidity of the air is 40-60%, and the patient does not restrain blinking. Before the study, solution installations in the conjunctival sac, lacrimal ducts washing and contact diagnostics methods are not performed. The scanning beam takes a measurement in the middle of the lacrimal stream at the 6-hour meridian. After that, in the resulting image, the points are marked along the contour of the lacrimal meniscus to obtain a closed curve line. Next, a program is used to convert the “pixel” value into a metric value by calibrating the measurements. Then the figure area is calculated according to Green’s formula. If the values of the cut area of the lacrimal meniscus are not in the range of 0.02-0.08 mm², lacrimal dysfunction is diagnosed.

EFFECT: method provides for lacrimal dysfunction diagnostics due to determining (calculation) the lacrimal meniscus area.

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Description

The invention relates to medicine, and more specifically to ophthalmology, and can be used to diagnose the pathology of the lacrimal apparatus of the eye.

Optical coherence tomography of the lacrimal meniscus (OCT menisometry) is a highly informative, non-contact, non-invasive study. Optical coherence tomography allows you to visualize the lacrimal meniscus in detail and accurately measure its parameters.

E.L. Atkova, V.D. Yartsev et al. Believe that the conditional depth of the lacrimal meniscus is a more adequate and sufficient measurement for assessing the drainage function of the lacrimal ducts (Bulletin of Ophthalmology. 2016. - No. 6. - P. 101). Osama M A Ibrahim, Murat Dogru et al. In their work measured only one parameter - the height of the lacrimal meniscus, and considered this indicator the most informative in monitoring changes in the lacrimal meniscus after the procedure for blocking the lacrimal ducts, and OCT menisometry is considered valuable, non-invasive and fast clinical tool for evaluating the effectiveness of treatment in patients with dry eye syndrome (Optometry and vision science: official publication of the American Academy of Optometry. 2012; 89 (5): E770-6). Determination of the parameters of the height and concavity of the lacrimal meniscus using the OCT-menistometry method to calculate the functional coefficient of the surface tension of the tear was used by O.S. Lobanova in the early diagnosis of dry eye syndrome. Archita Singh, Murugesan Vanathi determined the height and depth of the lacrimal meniscus in the diagnosis of dry eye syndrome and correlated with the data of strip meniscometry. They concluded that these measurements are highly accurate, non-invasive tests for the diagnosis of dry eye, comparable to the tear film tear test (Ocul Surf. 2019; 17 (4): 747-752.)

Such a parameter as the area of the lacrimal meniscus in OCT menisometry reflects the totality of all linear dimensions of the meniscus cross section and allows a more accurate and visual assessment of the balance of the functioning of the lacrimal apparatus. Most optical coherence tomographs do not have the function of determining the area of the lacrimal meniscus.

The objective of the invention is to improve the accuracy and automate the calculation of the cross-sectional area of the lacrimal meniscus, expand the possibilities of interpreting the results of OCT meniscograms using a specialized mathematical program that does not depend on the model of the optical coherence tomograph and is not associated with it.

The technical result of the proposed method is to calculate the area of the lacrimal meniscus using a special mathematical program after performing OCT menisometry with standardized parameters. A special mathematical program is a computer program we have created that runs under the Windows operating system, which performs actions to enter the points of the lacrimal meniscus contour from the screen and calculates its area from the data.

The technical result is achieved by the fact that in the method of menisometry for lacrimal dysfunction, which consists in measuring the cross-sectional area of the lacrimal meniscus using an optical coherent tomograph, the study is carried out under standard conditions: the air temperature in the room where the study is conducted is 20-24 ° C, relative air humidity 40-60%, the patient does not hold back blinking, before the study, they do not install solutions into the conjunctival sac, wash the lacrimal ducts and contact diagnostic methods, the scanning beam measures in the middle of the tear stream on the 6 o'clock meridian, then points along the contour are marked on the resulting image the lacrimal meniscus to obtain a closed curved line, after which the program is used to convert the "pixel" value to the metric value by calibrating the measurements, then the area of the figure is calculated using the Green's formula.

The technical result is achieved by the fact that the sequential execution of the following actions is carried out:

1. OCT menisometry is performed using an optical coherence tomograph. The conditions for conducting the research are standard: constant air temperature in the room where the research is carried out 20-24 ° С, relative air humidity 40-60%. Before the study, the installation of solutions into the conjunctival sac, lacrimal duct washing and contact diagnostic methods that can reduce or increase reflex tear production are not carried out. The patient does not hold back blinking - blinking is normal. The scanning beam of the device measures in the middle of the lacrimal stream at the 6 o'clock meridian.

2. Transfer of the obtained OCT meniscogram into a special mathematical program.

3. To calculate the area, use the Green's formula, according to which the area of the figure bounded by a closed line L can be calculated by transforming the curvilinear integral into a double integral over the area D bounded by the line L:

4. On the image of the transverse section of the lacrimal meniscus along its contour, points are marked with certain coordinates in the amount of N, as a result of which a closed broken line is obtained (Fig. 1). After mathematical transformations, the formula for calculating the area of a figure bounded by line L takes the following form:

где (X1;Y1), (X2;Y2), …, XN; YN) - координаты N точек, отмеченных на томограмме.

where (X1; Y1), (X2; Y2), ..., XN; YN) - coordinates of N points marked on the tomogram.

5. Next, the task is to translate the "pixel" coordinates of the image into metric values. For this, measurements are calibrated and conversion factors are calculated. Having information about the linear distances between the points, which is provided by the functionality of the tomograph, and using the calibration segments 1 mm long along each axis, the area of the figure bounded by the line L is converted from a “pixel” value to a metric value measured in mm ² .

The invention is illustrated by drawings (Fig. 1-3). FIG. 1 - morphometric parameters of the lower lacrimal meniscus: 1 - cornea, 2 - the level of the lacrimal meniscus, 3 - the lower eyelid, L - a line repeating the contour of the lacrimal meniscus cut (the area of the lacrimal meniscus cut is shaded). FIG. 2 - OCT of the lower lacrimal duct with obstruction of the lacrimal ducts. FIG. 3 - OCT of the lower lacrimal meniscus in dry eye syndrome.

The claimed invention is illustrated by the following examples.

Example 1. Patient C, 55 years old. Ophthalmic diagnosis: OD-obstruction of the nasolacrimal duct. Complaints about constant watery eyes from the right eye for the last 5 years. The diagnosis was made on the basis of diagnostic lavage and probing of the lacrimal duct, and was confirmed by computed tomography with contrast, which revealed the absence of contrast passage along the lacrimal duct on the right. OCT menismetry was carried out according to the claimed technique in compliance with standard research conditions, the area of the lacrimal meniscus is 0.302 mm ² (Fig. 2). The patient underwent endonasal dacryocystorhinostomy, after which the menisometry indices returned to normal (0.06 mm ² ).

Example 2. Patient B., 62 years old. Ophthalmic diagnosis: OU-syndrome of "dry eye", moderate course. Visual acuity OD 0.1 sph + 3.0D = 0.7, IOP = 17 mm Hg, refractometry sph + 2.75D cyl-0.25 ax 73 °, keratometry 41.50D 41.00D ax 80 °, OS 0 , 2 sph + 3.0D = 0.8, IOP = 17 mm Hg, refractometry sph + 3.25D cyl-0.75 ax 118 °, keratometry 42.50D 41.00D ax 83 ° Complaints about feeling of "dryness", a feeling of a foreign body in the eyes, blurred vision during prolonged work at the computer. Uses moisturizing drops based on hyaluronic acid without a positive effect. On examination, the lacrimal meniscus is poorly expressed, the conjunctiva is not changed, on the cornea, isolated areas of epitheliopathy stained with fluorescein, Norn's test 4 sec., Schirmer's test-1 2 mm. The patient underwent OCT-menisometry according to the claimed method, the calculation revealed that the cross-sectional area of the lacrimal meniscus was sharply reduced and amounted to 0.007 mm ² (Fig. 3). Corneoprotective drugs were prescribed and a temporary blockage of the lacrimal ducts was recommended.

The measurement of the area of the lacrimal meniscus of healthy people who did not present complaints characteristic of lacrimal dysfunction (68 eyes) was carried out. As a result of a comparative analysis, data were obtained on the range of normal values of the cut area of the lacrimal meniscus, which amounted to 0.02-0.08 mm ² .

Claims (1)

A method for diagnosing lacrimal dysfunction using menisometry, characterized in that the cross-sectional area of the lacrimal meniscus is measured using an optical coherent tomograph, while the study is carried out under the following conditions: the air temperature in the room where the study is conducted is 20-24 ° C, relative air humidity 40-60%, the patient does not hold back blinking, before the study, they do not install solutions into the conjunctival sac, wash the lacrimal ducts and contact diagnostic methods, the scanning beam measures in the middle of the tear stream on the 6-hour meridian, after which points are marked on the resulting image along the contour of the lacrimal meniscus to obtain a closed curved line, after which the program for converting the "pixel" value into metric is used by calibrating the measurements, then the area of the figure is calculated using the Green's formula, with values of the cut area of the lacrimal meniscus outside the range of 0.02- 0.08 mm ² , lacrimal dysfunction is diagnosed.

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