RU2674947C1 - Device for measuring intraocular pressure - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: device relates to medical technology, namely, a device for measuring intraocular pressure (IOP) through the eyelid. Device contains a movable sleeve installed in the housing to create a constant predetermined load with guides, a support with protrusions; rod with a metal limiter of its movement and a flat base; electromagnetic measuring coil; module of control of verticality of the device when measuring; vertical control indicator and battery. Stem is made with the possibility of elastic deformation of the eye through the eyelid. Electromagnetic measuring coil is connected to the control unit, processing and storage of IOP measurement results. Control unit, processing and storage of results is placed on a vertically installed printed circuit board and configured to convert the linear movement of the rod into an electrical signal proportional to the value of the IOP. Communication module with a transmitter is located on a printed circuit board with a control unit, processing and storage of IOP measurement results. Control unit for processing and storing the results of measuring IOP contains a series-connected high-frequency generator, in the loop of which a measuring electromagnetic coil, a frequency-code converter and a microcontroller are included. Second entrance is made in the form of the "WORK" button, and its third input, its second, third and fourth outputs are made with the possibility of connection with the output of the module for controlling the stem verticality during measurement and the inputs of the display, the Bluetooth module with the transmitter, and the indicator for controlling the verticality of the stem. Support is fixed in the lower part of the sleeve and is made with two wedge-shaped protrusions with rounded support ends equidistant 5–10 mm from the axis of movement of the rod, the protective cover and the housing are made with the possibility of their vertical reciprocating movement relative to the sleeve within specified limits.EFFECT: reduced time to record, storage of IOP results and, consequently, saving time of the doctor and patient, and also increases the accuracy of measurements.7 cl, 4 dwg

Description

The invention relates to medicine and can be used in ophthalmology, surgery, neurosurgery, neurotraumatology, neurology and other medical fields for measuring intraocular pressure through the eyelid using the express method for mass screenings of the population for glaucoma, monitoring the correctness of its treatment, individual monitoring of intraocular pressure (IOP ) without anesthesia of the eye, in remote monitoring systems and daily monitoring of IOP of the patient during treatment and diagnosis.

In ophthalmology, taking measurements to determine the IOP of a patient is a daily practice. IOP readings are especially important for the diagnosis and operational monitoring of glaucoma diseases. Known portable tonometers such as TGC-01 for measuring IOP through the eyelid, which are widely used by doctors and patients.

A device is known for measuring intraocular pressure through an eyelid, comprising a housing with a sleeve located therein with a possibility of limited reciprocating movement, provided with guides and a supporting part for creating a constant predetermined eye load through the eyelid, an eyeball deformation element through the eyelid in the form of a freely falling body mounted in the cavity of the sleeve with the possibility of its free fall in the guides under the action of its own weight to create an impact load, the holder of the defo element in the initial upper position, located in the upper part of the sleeve cavity, a linear displacement measuring transducer of the deformation element, the supporting part of the sleeve being made with two protrusions with rounded supporting ends equidistant to a distance of 7-10 mm from the axis of movement of the freely falling body, an elastic deformation element It is formed as a rod with an end portion for contact with the eyelid of no less than 3 mm with a flat base area of 1-7 mm ^2, the lower guide stopper bottom is laid I strain element in the cavity of the sleeve in the inoperative position (Russian patent 2123798, IPC A61V 3/16, publ. 1998).

To ensure the possibility of free fall of the deformation element, the orientation of the body along the normal is carried out immediately before manual measurement according to subjective visual criteria. The accuracy of measuring pressure in an internal organ by a known device is associated with the ability to vertically arrange it in the measurement process. The correct position of the device case is important both from the point of view of measurement accuracy and from the standpoint of the device’s normal operability, excluding unreliable measurements: normal operation of the device is possible only in the absence of deviations of the device case from the vertical by more than 6 degrees. The incorrect position of the housing during the measurement process is one of the main reasons for the low accuracy of the measurements, since the possibility of obtaining false results of pressure measurement is not ruled out. Thus, the disadvantages of the known device are the lack of accuracy, the duration of the measurement and the inconvenience of work due to the need to apply subjective criteria for assessing the correct installation of a measuring tonometer, for example, for measuring IOP. To develop skills for the proper operation of the device, medical personnel undergo training or special training, which requires time and money. This complicates the use of the device during mass examinations in institutions, lengthens the procedure and reduces the accuracy of the measurement. In addition, some people do not tolerate prolonged contact of the support of the device with the surface of the skin of the eyelid and such contact should be minimal in time. The lack of an alarm in them of the correct operating position of the measuring tonometer body requires constant attention to the orientation of the specified body or device, otherwise it is not possible to ensure the reliability of the measurement result, and this can be interpreted by the consumer as a malfunction. In this case, the user's discomfort and the need to perform several measurements are not excluded.

The disadvantages of the known device for measuring IOP through the eyelid with a freely falling body are:

- low accuracy of the measurement result due to the lack of monitoring and signaling the correct position of the device during measurement;

- duration of measurement;

- the complexity of the application in the systems of daily monitoring of IOP;

- the complexity of the application in systems with automatic diagnosis of glaucoma with repeated measurement of IOP through the eyelid in the left and right eyes of the patient;

- the inability to use in systems of remote monitoring of the IOP parameters of the patient with various diagnostics and treatment.

Closest to the proposed device is a measuring tonometer for determining IOP through the eyelid, containing a movable sleeve with guides and a support installed in the housing, the contact surface of which is located at a distance of 7-10 millimeters from the axis of free fall of the body, made in the form of a rod with a flat base with an area of 1 -7 mm ² with the possibility of elastic deformation body through its skin, linear displacement transducer body connected to the microprocessor introduced angular sensor none the axis of the free fall of the body from the vertical, and the specified sensor is mounted horizontally on a board located perpendicular to the axis of the fall of the body, and connected through a microprocessor to means for generating an audio or light signal reminding the position of the body's fall axis during measurement (RF patent 2303943, IPC А61В 3/16, publ. 2007 - prototype).

The disadvantages of the known device for measuring IOP through the eyelid are:

- the difficulty of using IOP in daily monitoring systems due to the length of manual recording of IOP values for the left and right eyes, the inconvenience of storing and reading measured values, which lengthens the time for examination and diagnosis of diseases;

- the complexity of the application in systems with automatic diagnosis of glaucoma with repeated measurement of IOP through the eyelid in the left and right eyes of the patient;

- the impossibility of use in remote monitoring systems;

- the use of two printed circuit boards (for installing a sensor for the angular deviation of the axis of free fall of the body from the vertical and a measuring transducer for linear movement of the body with a microprocessor) increases the dimensions of the device, which complicates the visibility of the support when installed on the eye through the eyelid.

The problem solved by the invention is to simplify the operation, to improve its consumer properties (comfort and convenience of use, accounting, storage and transmission of IOP measurement results due to the compactness of the device), reducing the total duration of a patient’s appointment with a doctor for repeated measurements of IOP through the eyelid in the left and right eyes of the patient, the possibility of using the device in modern medical systems, including automatic systems of daily and / or remote monitoring and IOP (automatic and / or remote diagnosis of glaucoma), in ensuring the comfort of the IOP measurement without wires for the patient and the efficiency of the doctor’s work when taking into account, storing and remotely transmitting data on the measurement of IOP and / or diagnosis of glaucoma, in the universality of the use of the device by the doctor and patient .

The technical result achieved by the invention is to reduce the time for accounting, storage of IOP results and, therefore, saves the time of the doctor and patient, as well as to increase the accuracy of measurements.

The essence of the invention is to equip the device with a channel with a transmitter while maintaining the dimensions of the housing, providing the necessary good visibility of the installation of support on the eye through the eyelid.

The technical result of the invention of the device is achieved by the fact that in the IOP measurement device through the eyelid containing a movable sleeve installed in the housing to create a constant predetermined eye load through the eyelid with guides and a support with two wedge-shaped protrusions and rounded supporting ends equidistant to a distance of 5-10 millimeters from the axis of free fall of the rod with a metal limiter of its movement and a flat base, made with the possibility of elastic deformation of the eye through the eyelid, electromagnetic measuring coil connected to a control unit for processing and storing the IOP measurement results placed on a vertically mounted printed circuit board and configured to convert the linear displacement of the rod into an electrical signal proportional to the IOP value, the device’s vertical control module during measurement, the vertical control signaling device, a battery , a communication module with a transmitter was introduced, and the specified module is placed on a printed circuit board with a control, processing and storage unit Performan measuring IOP.

Preferably, the communication module is implemented as a Bluetooth module with the possibility of transmitting the measured IOP value to an electronic device with a Bluetooth channel adapter, including a computer.

It is advisable to make the printed circuit board with the possibility of mounting the vertical control signaling device and installing the vertical control module in a horizontal position.

The vertical control signaling device is preferably implemented as an audio signaling device.

The control unit for processing and storing the IOP measurement results is configured to display the measured IOP value on a display.

It is advisable to have a control unit for processing and storing the IOP measurement results, containing a high-frequency generator connected in series, the loop of which includes a measuring electromagnetic coil, a frequency-code converter and a microcontroller, the second input of which is made in the form of the “OPERATION” button, and its third input, the second , its third and fourth outputs are made with the possibility of connecting, respectively, with the output of the rod vertical control module during measurement and the inputs of the display, the Bluetooth radio module with the transmitter Ohm and a signal of control of verticality of a rod.

It is advisable to carry out the supporting part to create a constant predetermined load with two protrusions with rounded supporting ends.

When conducting patent research, no solutions were found that are identical to the declared one, and, therefore, the claimed invention meets the criterion of "novelty."

In FIG. 1 shows a device for measuring IOP through the eyelid with a cut on a fragment A of the input part of the device; In FIG. 2 shows an enlarged fragment A of the input part of the IOP measuring device through the eyelid, in section; in FIG. 3 presents a block diagram of the proposed device; in FIG. 4 shows the device from the side with a part of the protective casing and a view of the printed circuit board.

In FIG. 1, 2, 3, 4 the following notation is accepted:

1 - housing;

2 - movable sleeve;

3 - the first guide;

4 - the second guide;

5 - support;

6 - contact surface (supports 5);

7 - axis;

8 - stock;

9 - means for restricting the movement of the rod 8;

10 - the final part of the rod 8;

11 - flat base of the rod 8;

12 - ledges (supports 5);

13 - the upper end of the rod 8;

14 - module control the verticality of the device;

15 - control unit, processing and storage of IOP measurement results;

16 - Bluetooth radio module (with transmitter);

17 - a sound signaling device;

18 - battery;

19 - printed circuit board;

20 - display;

21 - high-frequency generator;

22 - measuring electromagnetic coil;

23 - frequency-code converter;

24 - microcontroller;

25 - button “WORK”;

26 - Bluetooth radio channel adapter (with receiver);

27 - computer;

28 - a protective casing;

29 - protective outer sleeve (in a decorative version).

The IOP measurement device through the eyelid (Fig. 1) is an upgrade of the manufactured TGDc-01 tonometer (TGDts-01 "PRA") and its input part (Fig. 2) includes a movable sleeve 2 installed in the housing 1 (made with the possibility of limited vertical return translational movement) with the first guide 3 and the second guide 4. The support 5 is fixed in the lower part of the sleeve 2, for example, by means of a spring-clip connection, and is made with two wedge-shaped protrusions 12 with rounded supporting ends 6, equally spaced oyanie L, from the axis 7 of rod 8. The distance L to the universality of application of the device it is advisable to select in the range of 5-10 mm, since in this case it is possible to measure intraocular pressure with the required accuracy. The rod 8 has a means 9 of restricting its movement and an end part 10 of a length (S) of at least 2 mm with a flat base of 1-7 mm in area for contact with the eyelid under shock loading.

The rod 8 is installed in the holes of the guides 3 and 4 with a gap of 0.05-0.1 mm to allow the rod to fall under the action of its own weight in the cavity of the sleeve 2 when the device is oriented along the vertical axis in one direction in the initial position and in the other direction when return rod 8 after measurement to its original position. The rod 8 is in the initial position when the support 5 of the sleeve 2 is at the bottom, and the rod 8 is fixed to the upper end 13 in the holder (not shown in Fig.). The rod holder 8 also provides for the capture of the upper end 13 of the rod 8 when it returns to its original position after measurement. The holder may have a structure known from the prototype (RF patent No. 2303943) or any other structure (for example, as in the utility model of the Russian Federation No. 74791).

The IOP measurement device through the eyelid (Fig. 3) also includes a module 8 for controlling the verticality of the rod 8 (with a sensor for the angular deviation of the axis 7 of the free fall of the rod 8 from the vertical), a block 15 for controlling, processing and storing the results of measuring the IOP, a communication module with a transmitter, made in the form of a Bluetooth radio module 16 with a transmitter, a rod vertical control signaling device 8, made in the form of an audio signaling device 17, a power element 18 (battery). The module 14 for vertical control, the block 15 for controlling, processing and storing the results of measuring the IOP, the Bluetooth radio module 16 with a transmitter and an audible signaling device 17 are located on one printed circuit board 19 (Fig. 4), vertically mounted on the axis 7. The module 14 for controlling the verticality is mounted on a printed circuit the board 19 in a horizontal position (perpendicular to the axis 7 of the fall of the rod 8).

The unit 15 for controlling, processing and storing the IOP measurement results is configured to display the measured IOP value on the display 20.

The unit 15 for controlling, processing and storing the IOP measurement results (Fig. 3) includes a series-connected high-frequency generator 21, the loop of which includes a measuring electromagnetic coil 22, a frequency-code converter 23, a microcontroller 24, the second input of which is made in the form of a 25 "OPERATION button 25 ", And the third input, the second, third and fourth outputs are made with the possibility of connection, respectively, with the output of the module 14 for controlling the vertical position of the device during measurement and the inputs of the display 20, the radio module 16 Bluetooth with the transmitter and the buzzer 17. The measuring electromagnetic coil 22 connected to the high-frequency generator 21 is fixed (Fig. 2) in the movable sleeve 2 between the first and second guides 3 and 4. The means 9 for restricting the movement of the rod 8 are made of metal, for example, of ferrite material or brass, is located in the cavity of the sleeve 2 in the initial position above the specified electromagnetic coil 21 and is its core.

Bluetooth module 16 with a transmitter is mounted on a printed circuit board 19 (Fig. 4) with the possibility of transmitting the measured IOP value to the adapter 26 of the Bluetooth channel with the receiver, for example, in computer 27.

The housing 1 can be placed in a removable protective casing 28, rigidly connected to the housing 1 by means of a protective outer sleeve 29 in a decorative embodiment. In this case, the protective casing 28 and the housing 1 are installed with the possibility of their vertical reciprocal movement relative to the sleeve 2 within the specified limits.

IOP measurements are carried out by the above device, and the IOP measurement result is displayed on display 20 and simultaneously transmitted via Bluetooth module 16 with a transmitter to a Bluetooth adapter 26 with a receiver, built-in, for example, into computer 27, located at a distance of 1 to 10 meters from the device IOP measurement through the eyelid.

Conducting on one patient multiple measurements of IOP during the day with minimal time spent on recording, storing the results of IOP in a computer is very important for monitoring the correctness of the chosen treatment method and can significantly increase its effectiveness.

The simplicity of the design of the claimed device allows it to be manufactured at affordable prices, and the ease of use allows it to be used not only in clinical conditions, but also at home, as well as in remote systems for diagnosing and monitoring the treatment of diseases. The proposed technical solution provides higher accuracy of IOP measurement and makes it possible to track changes in IOP during treatment. The advantages of the device are:

- reduction of time for recording, storage of IOP results and, therefore, saves the time of the doctor and patient;

- application in any conditions without special staff training, that is, increasing the comfort of use;

- improving the consumer properties of the device (comfort, ease of use, accounting and storage of IOP measurement results) due to the presence of a radio channel for transmitting measurement results;

- simplification and operational efficiency of the device.

Claims (7)

1. A device for measuring intraocular pressure through the eyelid, containing a movable sleeve mounted in the housing to create a constant predetermined load with guides, a support with protrusions; a rod with a metal limiter for its movement and a flat base, made with the possibility of elastic deformation of the eye through the eyelid; an electromagnetic measuring coil connected to a control unit for processing and storing the IOP measurement results, which is located on a vertically mounted printed circuit board and is configured to convert the linear movement of the rod into an electrical signal proportional to the IOP value; module for controlling the verticality of the device during measurement; a vertical control signaling device and a battery, characterized in that a communication module with a transmitter is placed on a printed circuit board with a control unit for processing and storing the IOP measurement results, the control unit for processing, storing and storing the IOP measurement results contains a high-frequency generator connected in series, the circuit of which includes measuring electromagnetic coil, frequency-code converter and microcontroller, the second input of which is made in the form of the “OPERATION” button, and its third input, the second , its third and fourth outputs are made with the possibility of connecting, respectively, with the output of the rod vertical control module during measurement and display inputs, the Bluetooth module with a transmitter and the rod vertical control signaling device, and the support is fixed at the bottom of the sleeve and made with two wedge-shaped protrusions with rounded supporting ends equidistant to a distance of 5-10 mm from the axis of movement of the rod, the protective casing and the housing are made with the possibility of their vertical reciprocal movement from relative to the sleeve within the specified limits. 2. The device according to claim 1, characterized in that the communication module is made in the form of a Bluetooth module with a transmitter for transmitting the measured IOP value to the Bluetooth channel adapter with the receiver, including in the computer. 3. The device according to p. 1, characterized in that the support is fixed using a spring-clip connection. 4. The device according to p. 1, characterized in that the printed circuit board is made with the possibility of attaching a signaling device for vertical control and installing the vertical control module in a horizontal position. 5. The device according to p. 1, characterized in that the signaling device for controlling the verticality of the rod is made in the form of an audio signaling device. 6. The device according to p. 3, characterized in that the control unit, processing and storage of the IOP measurement results is configured to display the measured IOP value on the display. 7. The device according to claim 1, characterized in that the supporting part for creating a constant predetermined load is made with two protrusions with rounded supporting ends.

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