RU2453263C2 - Method of measuring intraocular pressure - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to ophthalmology, and can be used for measurement of intraocular pressure (IOP) in examination of the population for glaucoma, aimed at control of its treatment correctness, as well as individual control of intraocular pressure. Measurement of intraocular pressure is performed by tonometer of applanation type: Maklakov's or Goldman's, at atmospheric pressure from 740 to 760 mm Hg. At atmospheric pressure lower than 740 mm Hg and higher than 760 mm Hg measurement of intraocular pressure is performed by a device of other type, including tonometer TGDts-02 or TGDts-03 or indicator IGD-03.

EFFECT: method makes it possible to increase accuracy and reliability of IOP measurement, as well as carry out correct treatment by results of IOP measurement.

3 cl

Description

The invention relates to medicine, namely to ophthalmology, and can be used to measure intraocular pressure (IOP) with applanation tonometers during examinations of the population for glaucoma, to monitor the correctness of its treatment, to individually monitor intraocular pressure.

Closest to the proposed method is the applanation method for measuring IOP using an applanation-type tonometer (Maklakov tonometer or a Goldman tonometer or an air-jet tonometer), based on the indentation of the cornea in one way or another with a fixed predetermined load, and in different ways the area of the depression zone is measured (see Nesterov A.P., Bunin A.Ya., Katsnelson L.A. Intraocular pressure, physiology and pathology. M., 1974, pp. 12-14 - prototype).

With applanation tonometry, the ability of the eye to flatten is measured, the impression of the cylinder pressure on the eye (tonogram) has the form of a circle, the size of which is converted into a pressure indicator.

The most widespread in our country is applanation tonometry performed by a Maklakov tonometer (see: http://medlab.ua/product_print.php), which is a hollow metal cylinder with extended bases (height 4 cm, weight 10 g). To conduct more accurate studies, sets of cylinders of various weights are used: 5; 7.5; 10; 15 g

The method for determining intraocular pressure by a Maklakov tonometer is based on installing a certain load with a flat surface on the eye, made in the form of a hollow cylinder with expanded bases, while the value of intraocular pressure is determined by the area of contact of the cargo with the surface of the eye (bursting amount).

The Maklakov tonometer is used in all conditions except operating rooms, since when using it, it is necessary to use a dye, which is unacceptable in conditions of surgical intervention.

With tonometry according to Maklakov, the subject lies on his back. The contact surfaces of the tonometer are smeared with a thin layer of dye (for example, a basic brown or a solution of collargol), after which it is placed strictly vertically on the central part of the cornea of the eye being examined, for about 1 second. In the contact area of the flat surface of the weight and the eyeball, the dye remains on the eye, and a bright round spot appears on the tonometer, respectively. Then the tonometer is turned over and installed on the cornea with an opposite surface. Both prints are transferred onto paper slightly moistened with alcohol. The diameter of the spots, equal to the area of flattening of the eyeball, is measured with a special ruler to the nearest tenth of a millimeter, it corresponds to a certain amount of intraocular pressure. The upper limit of the norm when measured with a Maklakov tonometer with a mass of 10 g is considered to be a pressure equal to 26-27 mm Hg.

When using this method, it is necessary to use local anesthesia. The accuracy of the method is influenced by the radius of curvature of the cornea of the eye and the stiffness of the cornea, which is taken into account in the method as the average for all people, but with age it increases and in all people, naturally, is different. Among the complications of tonometry, which are very rare, corneal erosion and its infection are possible. A preventive measure is the thorough sterilization of the contact surface of the tonometer before examination.

Goldman applanation tonometry is more perfect (Nesterov A.P., Bunin A.Ya. and Katsnelson L.A. Intraocular pressure, p.12, M., 1974; Krasnov M.M. Glaucoma microsurgery, p.46, M ., 1980; Nesterov A.P. Primary glaucoma, p. 5, M., 1982). It is performed in the position of the patient sitting at the slit lamp. It also requires anesthesia of the eye. The measurement principle is the same as for Maklakov tonometry, however, the pressure exerted on the eye in this case is very small, as a result of which the obtained values are very close to the true intraocular pressure. The flattening zone is measured under the microscope of a slit lamp using a special optical device. The upper limit of the norm for Goldmann tonometry is considered to be a pressure equal to 21 mm Hg.

A method for determining intraocular pressure with a Goldman tonometer based on the installation of a certain load on the eye with a flat surface, while the value of intraocular pressure is determined by the area of contact of the cargo with the eye surface (burst size), the flattening area is measured under a microscope of a slit lamp using a special optical device.

A common disadvantage of known methods for measuring intraocular pressure with applanation-type tonometers is that the measurement readings depend on atmospheric pressure.

The technical result of the invention is to increase the accuracy and reliability of measuring IOP with the use of applanation-type tonometers, including Maklakov or Goldman or an air-jet tonometer.

The technical result is achieved by the fact that in the method for measuring intraocular pressure, based on the use of at least a tonometer of applanation type, the measurement of intraocular pressure with a tonometer of applanation type is carried out at atmospheric pressure in the range from 740 to 760 mm Hg, and at atmospheric pressure less than 740 mmHg. and more than 760 mm Hg the measurement of intraocular pressure is carried out by a device of a different type.

It is advisable to use a Maklakov or Goldman tonometer as an applanation type tonometer.

Preferably, for measuring intraocular pressure at atmospheric pressure less than 740 mm Hg. and more than 760 mm Hg a different type of device was used, including a TGDts-02 or TGDts-03 tonometer or an IGD-03 indicator or a TNTs-100 device.

The method of measuring intraocular pressure is as follows. Intraocular pressure is measured by any applanation-type tonometer, for example, Goldman or Maklakov, at atmospheric pressure in the range from 740 to 760 mm Hg. At atmospheric pressure less than 740 mm Hg and more than 760 mm Hg, the accuracy of measuring with a tonometer of an applanation type is reduced by 20-30% and the measurement results cannot be reliable for the diagnosis of diseases. This occurs as a result of deformation of the central region of the cornea in the zone of its applanation in some eyes at the indicated atmospheric pressure values. At the indicated pressures (less than 740 mm Hg and more than 760 mm Hg), the IOP is measured by a different type of tonometer, including TGDts-02 or TGDts-03 tonometers or the IGD-03 indicator or TNTs-100 device.

Numerous (more than 10,000) comparative studies of the accuracy of measuring intraocular pressure at various atmospheric pressure with tonometers of the applanation type Goldman and Maklakov and, respectively, tonometers TGDts-02, TGDts-03, based on the principle of measuring the elasticity of the eye. Tonometers TGDts-02, TGDts-03 do not have a dependence of measurement accuracy on the structure of the eye (including the shape of the cornea of the eye) and on atmospheric pressure.

Comparative results of the Pearson correlation coefficient between the IOP of the TGDts-03 tonometer and the Maklakov tonometer, as well as the TGDts-02 tonometer and the Goldman tonometer in different atmospheric pressure ranges were obtained:

- 740-745 mm Hg K = 0.85 - 745-755 mm Hg K = 0.95 - 755-760 mm Hg K-0.85 - less than 740 mm Hg K-0.7 - more than 760 mm Hg K = 0.7

Thus, the required measurement accuracy (at least 0.85) of the applanation-type tonometers is provided only at atmospheric pressure in the range of 740-760 mm Hg.

A study of atmospheric pressure by months in major cities of the Russian Federation and the CIS showed that the number of days suitable for measuring IOP with applanation-type tonometers is reduced by 20-30%, and in individual months to 80%.

The number of days that are not suitable for measuring IOP December 2009 January 2010 Cities Moscow four eleven St. Petersburg 17 19 Novorossiysk fifteen 17 Pskov 16 eighteen Ryazan 9 6 Tver 6 13 Murmansk 13 fifteen Arkhangelsk eighteen 24 Kiev 7 9 Kharkiv 3 8

In addition, it should be borne in mind that in the diurnal course of atmospheric pressure, 2 maxima are found: at 9-10 h and 21-22 h, and 2 minima: at 3-4 h and 15-16 h. It has an especially correct daily diurnal in tropical countries where the daily fluctuation reaches 2.4 mm Hg, and the night - 1.6 mm Hg.

This confirms the need to use a different type of tonometer on days that are not suitable for measuring IOP with an applanation type tonometer. Portable digital tonometers TGDts-02 or TGDts-03 are preferable in this case due to high speed, high accuracy, lack of need for anesthesia for IOP measurements, except for the risk of infection. Numerous IOP measurements (more than 8 thousand) with TGDts-02 and TGDts-03 tonometers, as well as IHD-03 indicator, performed over 2 years in a control group of 10 permanent patients of different ages (from 30 to 70 years), showed the independence of the measurement results from the value of atmospheric pressure.

The proposed method allows to increase the accuracy of measuring IOP with tonometers of applanation type, to exclude unreliable diagnostics, and also to conduct the correct treatment according to the results of accurate measurement of IOP.

Claims (3)

1. A method for measuring intraocular pressure based on the use of at least an applanation type tonometer, characterized in that the measurement of intraocular pressure with an applanation type tonometer is carried out at atmospheric pressure in the range from 740 to 760 mm Hg, and at atmospheric pressure less 740 mmHg and more than 760 mm Hg the measurement of intraocular pressure is carried out by a device of a different type. 2. The method according to claim 1, characterized in that a Maklakov or Goldman tonometer is used as the applanation type tonometer. 3. The method according to claim 1, characterized in that for measuring intraocular pressure at atmospheric pressure less than 740 mm Hg and more than 760 mm Hg a different type of device was used, including the TGDts-02 or TGDts-03 tonometer or the IGD-03 indicator.