RU2539163C1 - Individual ocular pressure sensor - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: individual ocular pressure sensor comprises a body, an element of eyeball deformity through an eyelid, a measuring element, and a scale. It is additionally equipped with a contact sleeve, a sleeve holder, a fixative and light and sound signalling units. The measuring element represents an electronic assembly, and the scale is a digital display. The body is L-shaped a horizontal portion of which comprises the contact sleeve reciprocated by the sleeve holder configured to pass through a vertical portion of the body and provided with a fixing plate in its back side. The fixative is arranged inside the horizontal portion of the body and is connected to the light and sound signalling units arranged at the opposite ends of the vertical body, and the electronic assembly. The element of eyeball deformity through the eyelid represents L-shaped contact lever rigidly mounted inside the fixative an upper end of which is flat, while a lower end is connected to the electronic assembly.

EFFECT: using the given apparatus enables measuring pressure accurately and allows for the unassisted intraocular pressure measurement by the patient.

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Description

FIELD OF THE INVENTION

The invention relates to medical equipment for ophthalmology, in particular to an individual eye tonometer, and can be used to measure and display intraocular pressure for prophylactic purposes for the diagnosis of glaucoma, as well as for individual use in everyday life when monitoring intraocular pressure.

State of the art

Known eye tonometer indicator comprising a cylindrical transparent body, a freely falling ball, a device for holding the ball in its original position and a scale, while the device for holding the ball is made in the form of a cylindrical cover, under which there is a clip rigidly connected to the cylindrical body, permanent magnets mounted in a cage with the ability to interact with the ball, and a pusher, one end of which is rigidly connected to the cylindrical cover, and the other is equipped with a tip, inside which the ball is located k, while the cylindrical cover and the pusher are made to move along the longitudinal axis of the cylindrical body, and the cylindrical cover is equipped with a ring made with the possibility of oscillatory motion relative to the longitudinal axis of the cylindrical body (see US Pat. RU No. 2043070, IPC A61B 3/16, publ. 10.09.1995).

The disadvantage of this eye tonometer indicator is the low accuracy of measuring intraocular pressure, the complexity of the design.

A device is known for measuring intraocular pressure through an eyelid, comprising a housing, a movable sleeve with a support installed in the housing with the possibility of limited reciprocating movement to create a static load on the eyeball through the eyelid, a rod with a flat base mounted in the cavity of the sleeve with the possibility of movement relative to supporting and creating a shock for deformation of the eyeball through the eyelid, at least one measuring winding placed in a movable sleeve, constant the magnet is mounted on the rod, and the measuring winding is located relative to the permanent magnet with the ability to control the direction and speed of movement of the rod and is connected to a control, processing and indication unit, configured to create voltage of opposite polarities on the measuring winding to divert the rod to its original position and then generate a pulse the movement of the rod towards the support with the possibility of converting the signal from the measuring winding and displaying the results obtained (see US Pat. RU No. 2308217, IPC A61B 3/16, publ. October 20, 2007).

The disadvantage of this device is the design complexity, a long time to measure intraocular pressure.

A known method for determining intraocular pressure with a Maklakov tonometer, based on the installation on the cornea of the eye of a certain load with a flat surface, while the value of intraocular pressure is determined by the area of contact of the load with the surface of the eye, the size of the burst.

The disadvantage of this method is that the measurements are carried out on an unprotected eye and the initial stiffness of the sclera of the eye is not taken into account, the measurement result also depends on establishing the verticality of the device in the patient’s eye, while installing the device in an inclined position significantly affects the accuracy of the measurement result.

The closest in technical essence and the achieved positive result and adopted by the author for the prototype is a device for measuring intraocular pressure through the eyelid, containing a body, an element of the eyeball deformation through the eyelid in the form of a rod and a rod displacement sensor, while the rod is connected to the body by two springs, it is used external pressure sensor and block of additional pressure of the rod.

The device additionally uses a static support connected to the housing by a damper.

In the device for measuring intraocular pressure through the eyelid containing the body, an eyeball deformation element through the eyelid in the form of a rod and a rod displacement sensor, the rod being connected to the body by an elastic spring working to bend a rectangular or circular cross section, an external pressure sensor and an additional block are used the pressure of the rod, while the device additionally uses a static support associated with the damper body (see US Pat. RU No. 2335234, IPC A61B 3/16, A61F 9/00, publ. 10.10.2008).

The disadvantage of this device is the design complexity, and the fact that the rigidity of the sclera of the eye, which changes with age, the value of intraocular pressure, affects the accuracy of the measurement result, since with an increase in intraocular pressure, the error of the method increases, the perpendicularity of the axis of incidence of the rod to the surface of the eyes, reaction the muscles of the eye to strike with a falling rod, the thickness of the eyelid, since the speed of the rod, at which pressure begins to deform the sclera, depends on the properties of the eyelid.

Disclosure of invention

The objective of the invention is to develop an individual eye tonometer with a simplified design, accuracy of pressure measurement, due to the execution of the body of the device L-shaped, which allows you to accurately, horizontally install the tonometer in the eye, as well as the ability of the patient to measure intraocular pressure on their own.

The technical result that can be obtained using the proposed device is to simplify the design, accuracy of pressure measurement and the ability of the patient to measure intraocular pressure on their own.

The technical result is achieved using an individual eye tonometer containing a body, an element of deformation of the eyeball through the eyelid, a measurement sensor, a scale, while it is additionally equipped with a contact sleeve, sleeve holder, retainer, light and sound alarm units, the measurement sensor made in the form of an electronic unit and the scale is in the form of a digital display, while the case is made of an L-shaped form, in the horizontal part of which a contact sleeve is installed on the case with the possibility of a reciprocating post movement through a sleeve holder installed with the possibility of passing through the vertical part of the housing and provided with a fixing plate at the rear, and the latch is located inside the horizontal part of the housing and is connected to the light and sound signaling units located at opposite ends of the vertical housing and the electronic unit, the element of deformation of the eyeball through the eyelid is made in the form of a L-shaped contact lever mounted motionless inside the latch, the upper end otorrhea is flat, while the lower end is connected to the electronic unit.

Thus, the execution of the housing is L-shaped, in the horizontal part of which a contact sleeve is installed on the housing with the possibility of reciprocating motion by means of a sleeve holder, the location of the latch inside the horizontal part of the housing and connected to the light and sound signal units located at opposite ends of the vertical housing, and an electronic unit, also located in the vertical part of the body, while performing the element of deformation of the eyeball through the eyelid in the form of the contact arm mounted fixedly inside the latch, the upper end of which is flat and the lower end is connected to the electronic unit, with a scale in the form of a digital display, make it possible to set the tonometer accurately, horizontally, to the surface of the eye, with the eyeball deforming element through the eyelid made in the form of a L-shaped contact lever mounted stationary inside the latch, the upper end of which is made flat, and the lower end is connected to the electronic unit, allow you to accurately produce measurement, and patients independently measure intraocular pressure, and patients with disabilities to record the pressure in the form of light and sound alarms.

Brief Description of the Drawings

The figure shows an individual eye tonometer, a general view.

The implementation of the invention

The individual eye tonometer comprises a housing 1 made of an L-shaped form, in the horizontal part of which a contact sleeve 2 is mounted on the housing 1 with the possibility of reciprocating movement by means of a sleeve holder 3 mounted with the possibility of passing through the vertical part of the housing 1 and provided with a fixing plate in the rear part 4, the latch 5, located inside the horizontal part of the housing 1 and connected to the blocks 6 and 7 of the light and sound alarm, respectively, located opposite at the ends of the vertical housing 1, and the electronic unit 8, containing a scale made in the form of a digital display 9, and a button 10 for turning on / off the tonometer, a power source (not shown in Fig.), for example, a lithium battery CR 2032, also located in the vertical part case 1, while the element of deformation of the eyeball through the eyelid is made in the form of a L-shaped contact lever 11 mounted motionlessly inside the latch 5, the upper end of which is made flat, and the lower end is connected to the electronic unit 8.

An individual eye tonometer is operated as follows.

Before switching on, the individual eye tonometer is placed horizontally on the table (not shown in FIG.), Then the tonometer is turned on with the button 10, and with the appearance of the number “0” on the digital display 9 of the electronic unit 8, the tonometer is taken into the hand (not shown) for the vertical part, and on the eye, protected by the eyelid, a contact sleeve 2 is installed, mounted on the housing 1, with the index finger of the hand holding the fixing plate 4 of the sleeve 3, after fixing the contact sleeve 2 perpendicularly conveniently release the fix the lamellar plate 4 with simultaneous pressure on the vertical part of the housing 1, while the L-shaped contact lever 11, which is mounted motionlessly inside the latch 5, exerts static pressure on the eyelid and eye, lower than the intraocular pressure, with the upper flat end, deformation of the eyelid due to external exposure to the hands, and the pressure is stopped when the sound and light signaling appear by blocks 6 and 7, respectively, located at opposite ends of the vertical housing 1, while the electronic unit 8 is numbered the whole display 9 displays the pressure of the eyeball on the L-shaped contact lever 11, with a constant depth of action on the eyeball of the lever 11, which provides the lock 5, then the tonometer is returned to the table in a horizontal position, and a digital value appears on the digital display 9 of the electronic unit 8 intraocular pressure, the tonometer is turned off by button 10, which is again turned on, and repeat the measurement on the other eye.

Example.

A prototype of an individual eye tonometer, manufactured according to the invention, has passed the test in comparison with the Maklakov tonometer. Tonometry of intraocular pressure (IOP) was performed using a Maklakov tonometer, then a tonometer according to the invention of fifty recruits in the military enlistment office (100 eyes) with anomalous visual acuity.

Result: in 97% of cases, the indicators were identical.

Thus, the implementation in the present invention of the housing 1, L-shaped, that is, the combination of horizontal and vertical forms, in the horizontal part of which on the housing 1 is installed a contact sleeve 2 with the possibility of reciprocating motion through the sleeve 3, installed with the possibility of passage through the vertical part of the housing 1 and provided with a fixing plate 4 at the rear, a latch 5 located inside the horizontal part of the housing 1 and connected to the light and sound systems 6 and 7 positioning, respectively, located at opposite ends of the vertical housing 1, and the electronic unit 8 with a digital display 9 and the tonometer on / off button 10, the power supply, also located in the vertical part of the housing 1, makes it possible to produce accurate IOP measurements with minimal time , eliminate the risk of infection during measurement, due to the lack of direct contact with the mucous membrane of the eye while simplicity of design and use as in clinical conditions x and at home.

The invention in comparison with the prototype and other known technical solutions has the following advantages:

- high accuracy of measurement of intraocular pressure;

- simplification of the design and operation of the tonometer;

- the possibility of use in a clinical setting without special staff training;

- the ability for the patient to measure IOP on his own;

- Measurement of IOP with minimal time.

Claims (1)

An individual eye tonometer comprising a body, an eyeball deformation element through the eyelid, a measurement sensor, a scale, characterized in that it is additionally equipped with a contact sleeve, a sleeve holder, a latch, light and sound alarm units, the measurement sensor being made in the form of an electronic unit, and the scale in the form of a digital display, while the body is made of an L-shaped form, in the horizontal part of which a contact sleeve is installed on the body with the possibility of reciprocating motion by means of the holder installed with the possibility of passing through the vertical part of the housing and provided with a fixing plate at the rear, and the retainer is located inside the horizontal part of the housing and is connected to light and sound signaling units located at opposite ends of the vertical housing and the electronic unit, while the eyeball deformation element through the eyelid, it is made in the form of a L-shaped contact lever mounted motionlessly inside the latch, the upper end of which is made flat and the lower ec connected to the electronic unit.