RU31942U1 - DEVICE FOR DIAGNOSIS OF THE PATHOLOGY OF THE VISUAL NERVAL BEAMS - Google Patents

Description

DEVICE FOR DIAGNOSIS OF THE PATHOLOGY OF THE VISUAL NERVAL BEAMS

The present invention relates to medical equipment, and more specifically to a device for diagnosing the pathology of the bundles of the optic nerve.

The invention can be used in ophthalmology for the diagnosis of optic nerve pathology with atrophy of various genesis, in particular glaucoma, as well as for the diagnosis of organic changes in the field of chiasm.

A device for diagnosing a field of view (see, for example, US Pat. No. 5,220,362) is interactive when automatically installing test lenses used to correct the focal length for a hemispherical projection screen tester and to automatically determine the direction of view during automatic video observation of a patient’s eyes. A movable test lens holder is provided that can be moved horizontally and vertically, and light sources are placed therein to illuminate the eye, preferably with an infrared spectrum at an oblique angle, preferably to the center of the eye from the periphery of the test lens holder. In the specified device, an infrared color source, preferably mounted on the surface of the screen near the center of the screen, forms a reflection of the determination of the direction of view of the cornea of the eye. This reflection is near the top of the normal spherical shell. In this case, you can define an automatic video measurement of the center of the patient’s eye, which includes measuring the horizontal eye chord of the eye, dividing the horizontal chord, placing the lower part of the eye along the chord, and then finding the center. You need to know the relative position of the reflection of the direction of view from the cornea and the center of the eye with respect to direction of view This relative position is compared with

the relative position that the patient had during initial fixation. A change in this compared value is used to indicate a change in gaze direction.

The specified invention cannot be used in ophthalmology for the diagnosis of optic nerve pathology with atrophy of various genesis, in particular glaucoma, as well as for the diagnosis of organic changes in the field of chiasm.

A known method for diagnosing the pathology of the optic bundles of the optic nerve (see, for example, RF patent 1734682), which consists in determining the threshold of sensitivity of the retina to electrical impulses at two opposite points of the eyeball, determining the difference in the results, in the case of a code, the specified difference is more than 15 μa, diagnosed with pathology of the optic nerve at the level of the retina.

The specified invention also cannot be used in ophthalmology for the diagnosis of optic nerve pathology, in particular glaucoma, as well as for the diagnosis of organic changes in the field of chiasm.

A device for diagnosing the pathology of optic bundles of the optic nerve, comprising a housing in which a pulse generator is located, connected with a pulse shaper, to the output of which LEDs are connected, and a digital display for indicating the critical flicker fusion frequency associated with a pulse generator (see, for example, German patent application 3831947, 1991).

The specified device does not provide reliable results in the diagnosis of pathology of the optic nerve. In addition, there is no possibility of separate diagnostics of the optic nerve fibers emanating from the nasal and temporal parts of the retina.

The basis of the present invention is the task of creating a device for the diagnosis of pathology of the bundles of the optic nerve, the constructive implementation of which will improve the accuracy of diagnosis in identifying the pathology of the optic nerves coming from the temporal and nasal parts of the retina of the human eye, improve the diagnosis of pathology of the optic nerve with atrophy of various genesis, in particular , glaucoma, as well as detect organic changes in the area of chiasm and diagnose retinal detachment.

The problem is solved in that a device for diagnosing pathology of the optic nerve bundles, comprising a housing in which a pulse generator is located, connected to a pulse shaper, LEDs are connected to its output, and a digital display for indicating the critical flicker fusion frequency associated with the pulse generator, according to the invention, contains a trial spectacle frame, two

opaque lens hoods fixed to the right and left eyeglass frames, two-color / three-color LEDs used as LEDs, their number is at least four and they are placed at least two in the right and left opaque lens hood on both sides of the optical the axis of the eye at an angle to this optical axis, a block of LEDs, which is a map of the directions of light stimulation, placed in the housing and containing at least six two-color LEDs, four of which are are connected in parallel to the LEDs located in the hoods, the fifth LED is connected in parallel to two LEDs, one of which is located in the temporal part of the left lens hood and the other in the bow of the right lens hood, and the sixth LED is connected in parallel with two LEDs, one of which is located in the nose of the left lens hood and the other in the temporal part of the right lens hood, switch

connecting LEDs, the input connected to the output of the shaper pulse duration, and the output to the LEDs.

It is advisable that the device contains at least two additional two-color LEDs located in the central part of the right and left hoods, respectively, the second switch connected to the output of the pulse shaper by the output, and the output to additional LEDs, while the second input of the second switch is connected to the source direct current.

It is useful that in this device the axes of maximum radiation of the LEDs mounted in the hoods are placed at an angle a to the optical axis a - a and b - in the left and right eyes, respectively, and this angle is in the range from 10 to 80 degrees, angular .

The invention is further explained in the description of the preferred embodiments with reference to the accompanying drawings, in which:

FIG. 1 shows a general view of an apparatus for diagnosing pathology of optic nerve bundles according to the invention;

Figure 2 is a block diagram of a first embodiment of a device for diagnosing pathology of optic nerve bundles, according to the invention;

Fig. 3 is a block diagram of a second embodiment of a device for diagnosing pathology of optic nerve bundles, according to the invention;

4 is a diagram of the direction of light rays in the diagnosis of various pathologies, according to the invention.

A device for diagnosing the pathology of the optic nerve bundles contains a housing 1 (Fig. 1), in which a pulse generator 2 is placed, connected with a pulse shaper 3. The output 4 of the shaper 3 is electrically connected through a switch with the LEDs 5. Device

also contains a digital display 6 for indicating the critical fusion flicker frequency associated with the 2 pulse generator.

According to the invention, the device comprises a test eyeglass frame 7, in which two opaque lens hoods, left 8 and right 9, are fixed.

As the LEDs 5 (Fig. 2), two-color or three-color LEDs are used, their number is at least four and they are placed at least two in the right and left lightproof lens hoods 8, 9, respectively 10, I and 12, 13 on both sides from the optical axis of the axis a - a and b in the left and right eyes, respectively, at an angle a to this optical axis. The colors used are red, green and blue.

The device also contains a block 14 (Fig. 1) of two-color light-emitting diodes, which is a map of the directions of light stimulation, located in the housing 1 and containing at least six two-color LEDs 15, 16, 17, 18, 19,20. The LEDs 15,16 and 18, 19 (FIG. 2) are connected in parallel to the LEDs 10, 11 and 12, 13, respectively, located in the lens hoods 8 and 9. The fifth LED 17 is connected in parallel to the two LEDs 10, 11 in the right hood and 12, 13 in the left hood. Moreover, the LED 10 (Fig. 4) is located initially in the temporal part of the left lens hood 8, and the LED 12 is located initially in the nose of the right lens 9. The sixth LED 20 is connected in parallel with two LEDs 11, 13, and the LED And is initially located in the nose of the left lens hood 8, and the LED 13 is initially located in the temporal part of the right lens hood 9.

In the first embodiment, the device contains one switch 21 for connecting LEDs, the input 22 of which is connected to the output 4 of the frequency driver 3, and the output 23 to the LEDs 10-20.

output 26 - to additional LEDs 27, 28, which are located in the central part 29, 30 of the left and right hoods 8, 9, respectively.

In this case, the second input 31 of the second switch 24 is connected to a direct current source 32, which is also connected to a pulse generator 2.

The axis of the maximum radiation of the LEDs 10, 11, 12, 13 is placed at an angle a to the optical axis a - a and b - in the eye and this angle is in the range from 10 to 80 degrees.

A device for diagnosing the pathology of the bundles of the optic nerve works as follows.

The signal from the driver 3 (2) of a frequency with a frequency of 20-60 Hz through the switch 21 enters the LED 12, in the described embodiment, for example, red, located in the hood 9 for the right eye. The green LED 11, which is located in the lens hood 8 for the left eye, is connected to a direct current source 32 and glows continuously.

Depending on the pathology of the red, green or blue cones or color disturbance, various combinations of LED colors can be used, for example, green - red, green - blue, red - blue.

A patient with good vision sees that on the right side, a green light is constantly on, and a red light flickers on the left, i.e. a patient with healthy eyesight sees the opposite picture.

If the patient's vision is impaired, then the red light at a frequency of 40 Hz merges into a continuous glow. This indicates the pathology of the optic nerve fiber emanating from the nose of the retina of the right eye.

on the left, this indicates the pathology of the crossed fibers of the optic nerve coming from the nose of the retina of the left eye.

If the patient does not see the red flickering light on the right, but sees the green non-flickering light on the right, this indicates the pathology of the crossed fibers of the optic nerve coming from the nose of the retina of the right eye.

If the patient does not see the flickering red light on the left or sees it as constant, but sees the flickering green on the right, this indicates the pathology of the optic nerve of the non-crossed fibers of the left eye.

If the patient does not see the flickering light on the right, but sees the flickering light on the left, this indicates the pathology of the non-crossed fibers of the optic nerve of the right eye.

To check the fibers of the optic nerve emanating from the temporal part of the retina of the left eye, flickering light is supplied to a red or green LED 10, installed in the left lens hood 8, and non-flickering light is supplied to an LED 13 of the opposite color in the right lens hood 9, on which the patient fixes his gaze . LEDs 10, 12 do not turn on. At the same time, LEDs 15, 17 flash on the direction map.

If the patient stops seeing flickering light, digital indicators of the critical flicker fusion frequency (CFSM) are displayed on digital scoreboard 6. These readings are critical for the indicated part of the optic nerve. Moreover, the pathology is detected if the CSFM is at a level of 40 - 45 Hz. Normally, for a healthy eye, the CSFM is 60 + 5 Hz for the temporal part.

To check the optic nerve fibers emanating from the nose of the retina of the left eye, flickering light is supplied to a red or green LED 11 installed in the left lens hood 8 and non-flickering light is supplied to an LED of the opposite color 12 in the right lens 9, on which the patient

captures the look. LEDs 10, 13 do not turn on. At the same time, LEDs 16, 20 flash on the map of directions.

If the patient stops seeing flickering light, digital indicators of the critical flicker fusion frequency (CFSM) are displayed on digital scoreboard 6. These readings are critical for the indicated part of the optic nerve. Moreover, the pathology is detected if the CSFM is at a level of 40 - 45 Hz. Normally, for a healthy eye, the CSFM is 52 + 5 Hz for the nasal part.

To check the fibers of the optic nerve emanating from the nose of the retina of the right eye, flickering light is supplied to a red or green LED 12 installed in the right lens 9, and non-flickering light is supplied to an LED 11 of the opposite color in the left lens hood 8, or to the LED 27. mounted in the center of the left lens hood 8, on which the patient fixes his gaze. LEDs 10, 13 do not turn on. At the same time, LEDs 18, 17 flash on the map of directions.

If the patient stops seeing flickering light, digital indicators of the critical flicker fusion frequency (CFSM) are displayed on digital scoreboard 6. These readings are critical for the indicated part of the optic nerve. Moreover, the pathology is detected if the CSFM is at a level of 40 - 45 Hz. Normally, for a healthy eye, the CSFM is 52 + 5 Hz for the nasal part.

To check the fibers of the optic nerve emanating from the temporal part of the retina of the right eye, flickering light is supplied to a red or green LED 13 installed in the right lens hood 9 and non-flickering light is supplied to an LED 10 of the opposite color in the left lens hood 8 or LED 27, on which the patient fixes his gaze. LEDs 11, 12 do not turn on. At the same time, LEDs 19, 20 flash on the direction map.

If the patient stops seeing flickering light, digital indicators of the critical flicker fusion frequency (CFSM) are displayed on digital scoreboard 6. These readings are critical for the indicated part of the optic nerve. Moreover, the pathology is detected if the CSFM is at a level of 40 - 45 Hz. Normally, for a healthy eye, the CSFM is 60 + 5 Hz for the temporal part.

LEDs 27 and 28 (FIG. 3) are also used to diagnose the macular part of the retina. To diagnose the retina of the right eye, flickering light is supplied to the LED 28, while the LED 27 is not turned on. To diagnose the retina of the left eye, flickering light is supplied to LED 27, while LED 2 is not turned on.

The claimed device allows you to detect organic changes in the field of chiasm and diagnose retinal detachment.

.For this, when fixing the gaze on the LEDs 27, 28, to which non-flickering light is supplied, the flickering light is supplied to the LEDs 10, 11, 12, 13 sequentially. The frequency of the pulses is increased from 5 to 10 Hz until the flicker of light flickers, which appears according to the subjective feeling of the patient. The lens hood is rotated to diagnose the entire field of view. With a decrease in the CSFM values at some points of the eye by more than 5 Hz, local disturbance of the visual system is diagnosed.

No. ШЖ

Claims (3)

1. A device for diagnosing pathology of the optic nerve bundles, comprising a housing in which a pulse generator is located, connected to a pulse shaper, LEDs, and a digital display for indicating the critical flicker fusion frequency associated with a pulse generator, characterized in that it contains a test eyeglass frame , two opaque lens hoods fixed in the specified test spectacle frames on the right and left, while two-color / three-color LEDs are used as LEDs, their number equal to at least four and they are placed at least two in the right and left opaque hood on two sides of the optical axis of the eye at an angle to this optical axis, the LED block, which is a map of the directions of light stimulation, placed in the housing and containing at least six two-color LEDs, four of which are connected in parallel with the LEDs located in the right and left hoods, the fifth LED is connected in parallel with two LEDs, one of which is located in the temporal part of the left bl NDA, and the other in the bow of the right hood, and the sixth LED is connected in parallel to two LEDs, one of which is located in the bow of the left hood, and the other in the temporal part of the right hood, a LED connection switch connected to the output of the frequency driver by the output, and by the output - to the LEDs. 2. The device according to claim 1, characterized in that it contains at least two additional two-color LEDs located in the central part of the right and left hoods, respectively, a second switch connected to the output of the shaper by the input and the output to additional LEDs, while the second the input of the second switch is connected to a DC source. 3. The device according to claim 1, characterized in that the axis of maximum radiation of the LEDs installed in the hoods are placed at an angle α to the optical axis a - a and b - in the left and right eyes, respectively, and this angle is in the range from 10 to 80 ° angular.