SU762849A1 - Device for measuring internal eye pressure - Google Patents

Description

The invention relates to medicine, namely, ophthalmology, and is intended to measure intraocular pressure. In addition, the invention can be used to measure the turgor of various biological tissues.

A device for measuring intraocular pressure, containing a capsule in the form of a glass, connected 10 with a pressure gauge, and a device for forcing air [1].

A disadvantage of the known device is that it does not allow to measure intraocular pressure on the head ~ ~ 5 ZA with pathological changes in the anterior part of the eye.

The aim of the invention is the determination of intraocular pressure in case of pathological changes in the anterior from-20 of the eye case, accompanied by persistent deformities of the cornea.

This goal is achieved by the fact that a device for measuring intraocular pressure, containing a capsule 25 in the form of a glass, connected to a manometer and a device for forcing air, is equipped with a cuff tube installed inside the capsule to move along its axis

communicating with the atmosphere, with the bottom of the capsule in contact with the eye made in the form of a membrane of elastic material, and the cuff of the tube is in contact with the membrane.

The drawing shows a diagram of the device.

The device contains a capsule 1, made in the form of a glass, which is connected with the help of the pipeline 2; with a device for air discharge (rubber bulb) and a pressure gauge 4. Inside the capsule 1 along its axis the tube 6 with the cuff 7 is mounted for movement using a micrometric screw 5. The bottom of the capsule 1, in contact with the eye, is made in the form of a membrane 8. When this cuff 7 is in contact with the membrane 8.

The device works as follows.

The capsule 1 is placed in the holder 9, which is installed in the ring 10 of the bracket 11 and fixed with a screw 12 in the position when the membrane 8 is in contact with the eye.

Through the groove 13 of the holder 9 with the help of the micrometric screw 5, the tube 6 is lowered until it comes into contact with the membrane 8 so that the herme is formed762849

four

3

Quiet contact between the bottom of the capsule and the cuff. In this position, with the help of the pear 3, through the hose 2, compressed air is supplied to the capsule. When the pressure in the capsule rises to the level exceeding the intraocular pressure, cornea deflection occurs. The deformation of the horn- ³ vitsy repeats the bottom of the capsule} and. as a result of its sagging, a capsule is depressurized through the formed gap between the edges of the cuff and the elastic bottom. The release of pressure ^ of compressed air from the capsule through the tube b occurs until it is equalized with true intraocular pressure. The value of this pressure is determined by the pressure gauge 4. 15

In the same way, one can make a measurement of the turgor of any biological tissue, for example, skin. The device is simple in design, reliable in operation, and allows measurement control to be made. - · - ..... .. ..

The device allows to measure intraocular pressure with accuracy commensurate with the readings of a Filatov-Kalf tanometer. At the same time, the proposed tonometer makes it possible to measure intraocular pressure in cases inaccessible to the Filatov-Kalf or

Other famous tonometers. It allows you to measure pressure on the eyes with deformation of the cornea, through the sclera, or even through the eyelids, for example, when ankyloblepharone.

Claims (1)

Claim Device for measuring intraocular pressure, containing a capsule in the form of a glass, connected to a pressure gauge and air injection device, characterized in that, to determine intraocular pressure during pathological changes of the anterior eye, accompanied by persistent deformities of the cornea, it is equipped with the ability to move along its tube axis with a cuff that communicates with the atmosphere, while the bottom of the capsule in contact with glas is made in the form of an elas membrane egg material and the sleeve tube is in contact with the membrane.