RU2480142C2 - Device and method of remote evaluation of human visual analyser characteristics and carrying out training exercises for development of binocular and higher visual functions - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medical equipment. Device contains connected with first computer fundus-camera, slitlamp, automatic refractometer, tonometer, biomicroscope, keratometer, first technical system for video conference provision, device of voice introduction, device of text document introduction based on active sensor screen, as well as second computer, connected with first computer. Device contains diagnostic centre, which includes connected with second computer second technical system for providing video conference, display for demonstration of data of performed examination results and database of results of performed examinations. Device additionally contains unit of formation of multi-window information about parameters of remote testing performance, connected with second computer, as well as unit of remote checking and correction of visual functions, connected with first computer and including: test monitor for formation of test tasks, unit for control of test monitor parameters, device for measuring patient-monitor distance, device for fixation of patient's eye movements, interactive panel for fixation of answers of tested person and device for separation of vision fields of left and right eyes.

EFFECT: remote examination of human vision organ is realised both by means of device diagnostics and by means of testing visual functions and/or training exercises.

3 dwg

Description

In many countries of the world there are regions in which, in the presence of a permanently resident local population, there are no highly qualified ophthalmologists who are capable of conducting high-quality diagnostic test ophthalmological procedures. Similar problems are also possible within the framework of one large settlement, when examining patients in closed institutions, etc. The proposed technical solution allows to provide high-quality remote instrumented examination of the human organ of vision, testing of visual functions by a specialist of the required qualifications, conducting and remote monitoring of specialized ophthalmic developmental and corrective exercises.

The problems associated with the complexity of remote examination, including testing of visual functions, are associated with the following circumstances:

- The need for high-quality voice and video communication of an ophthalmologist with objects of remotely conducted examinations, including for remote influence on the testing procedure,

- The need to observe the conditions and current data of the surveys in real time or as close to it as possible,

- The need for remote monitoring of compliance with standard and / or optimal conditions for testing, including the observance of the correct distance from the test patient to the test monitor, the brightness of the test monitor, etc.

- The need, in many cases, for remote monitoring of the subject’s behavior, including the features of his eye movements,

- The need for remote viewing of the patient’s card and the results obtained, as well as the results obtained during previous examinations,

- The need for prompt formation of recommendations (report) for the patient remote from the specialist directly during his visit to the test and diagnostic center,

- The need for simultaneous remote monitoring of compliance with the complex of the above conditions.

To date, there was no device or technical complex that systematically solves these problems. Their solution will ensure the provision of high-quality ophthalmologic services by people in regions and institutions that do not have specialists of the required qualifications, by connecting ophthalmological testing and training of specialists of the required qualifications located far from the site of the examination. The invention will create a new generation of specialized technical equipment, the implementation of which will be in demand by various medical institutions.

Samples of devices for testing visual functions by presenting specialized patterns on a monitor screen are known. Known patents "Optometric chart presenting apparatus", US 6,244,713 B1 dated June 12, 2001; "Visual acuity examination apparatus", US 6,425,665 B2 of June 30, 2002; “Optotype presenting apparatus”, US 7549751 dated January 31, 2008, and others, containing modern technical solutions for the qualitative presentation of optotypes in the process of testing visual functions, but they are not designed to conduct remote examinations of the human organ of vision, including testing.

A significant number of patents for remote surveys were obtained using the so-called technology. telemedicines, for example, U.S. Patent Nos. 4,706,071; 5,617,157; 5,912,720; 5,943,116; 5993001; 6,022,315; 6027217. However, the technical solutions of these patents simply use a video / verbal feedback mechanism as a source of information about the operation of diagnostic equipment. Thus, technical solutions of patents do not allow to obtain in an automated mode complex, including digital information about the state of the human organ of vision, including indicators such as tonometry, refraction, condition of the cornea, etc. In addition, devices of this type are not intended for remote assessments of visual functions such as visual acuity, binocular vision, etc.

As a prototype selected US patent US 7,520,611 B2 (04/21/2009) "System for vision examination utilizing telemedicine". The method and system presuppose joint coordinated work of the diagnostic medical center and a remote diagnostic module equipped with equipment sufficient to carry out a number of diagnostic studies and transmit the received information via communication channels to the diagnostic center for the qualified processing of the results and the formation of a database on their basis. In addition, the proposed solution assumes the presence of an appropriate interface, which provides, inter alia, the formation of a database and the possibility of obtaining the results of the examination by the patient. The claimed technical solution allows you to create conditions for remote conducting a number of diagnostic instrument examinations in regions and institutions that do not have specialists of the required qualifications.

However, the proposed technical solution does not allow remote testing of human visual functions, including visual acuity and binocular visual functions, such as binocular installation of eyes, phoria, fusion reserves, visual acuity, aniseikoniya, as well as frequency-contrast characteristics, color vision , astigmatism, etc., which are one of the main indicators of the quality of vision and without which the correct conclusion of a specialist is impossible.

The present invention is directed to solving the following technical problem:

- Providing conditions for high-quality remote instrument ophthalmic diagnostics,

- Improving the accuracy and reliability of testing by providing a remote patient testing mode at an unlimited distance for the possibility of remote monitoring of visual functions by a specialist of the required level of training,

- Expanding the possibilities of distance research of indicators of human visual health by assessing visual functions, including visual acuity, binocular vision, color vision, higher visual functions, etc. At the same time, the possibility of remote testing of visual functions is ensured due to the integrated presentation to the specialist of the most important parameters and testing conditions in real time,

- Improving the accuracy and reliability of the results of remote testing of individuals of various ages due to the automated provision of the correct choice of test distance and brightness of the test monitor,

- Improving the accuracy and reliability of remote testing due to observation and automated fixation of the features of the patient’s eye movements during testing in a mode close to real-time,

- Ensuring control of the correct implementation of developmental and corrective exercises through remote monitoring of eye movements of the patient.

The solution of the problem is as follows:

A device and method for remote assessment of the quality of the human visual analyzer and conducting training exercises for the development of binocular and higher visual functions, all of whose constituent elements can work in combination or individually, including a power supply, as well as

- Remote diagnostic module as follows:

- Fundus camera, slit lamp, autorefractometer, tonometer, biomicroscope, keratometer, functionally connected to the first control computer,

- the first technical system for video conferencing, functionally connected to the first control computer,

- a voice input device and a device based on an active touch screen, designed to enter patient information, functionally connected to the first control computer,

- the first control computer connected via the Internet interface to the second control computer,

- Diagnostic center as follows:

- a second technical system for providing video conferencing, functionally connected to a second control computer,

- database of the results of the surveys, functionally connected to the second control computer,

- a display for demonstrating data of the results of ongoing surveys in real time, functionally connected to a second control computer,

- a second control computer connected via the Internet interface to the first control computer,

according to the invention further comprises

- a unit for remote verification and correction of visual functions, including visual acuity and binocular vision functions, etc., functionally connected to the first computer control unit, in the following composition:

- a test monitor for generating the necessary test tasks for checking visual acuity and binocular functions of vision, as well as for forming exercise patterns for the development and correction of binocular and higher visual functions,

- control unit for the parameters of the test monitor,

- a device for measuring the distance of the patient monitor,

- a device for monitoring and recording the movements of the eyes of the patient,

- an interactive remote control for fixing the answers of the subject,

- a device for separating the visual fields of the left and right eyes to ensure testing of binocular functions of vision,

- a unit for generating multi-window information on the parameters of conducting remote testing and exercises for the development of binocular and higher visual functions on the display to demonstrate the most important parameters of testing or exercises in real time, functionally connected to the second computer control unit.

At the same time, the unit for remote verification and correction of visual functions provides the presentation of test optotypes necessary for assessing the visual functions of a person, generates a video sequence of the patterns necessary for conducting exercises for the development of binocular and higher visual functions, controls the brightness and uniformity of brightness of the test monitor, provides measurement and indication of the distance between test monitor and patient, changing, if necessary, in accordance with measurements of distance, angular sizes of optotypes and other their test objects. The unit also provides a fixation of patient responses to test tasks carried out using an interactive remote control with the necessary controls connected to the first control computer via wired or wireless communication. In addition, the unit provides video recording of the patient’s eye movements during testing. In many cases, observation of the patient’s eye movements allows you to clarify the diagnosis, exclude incorrect results when, for example, the patient gaze is deviated, and in some cases provides simple testing (for example, the so-called “cover-test”).

The device for separating the visual fields of the left and right eyes provides diplopia conditions necessary for testing and, if necessary, training binocular functions of vision.

The unit for generating multi-window information on the parameters of conducting remote testing on the display is designed to form on the remote information display observed by a specialist during remote testing in real time, everything necessary for the correct assessment of the information being tested: the current test or training pattern, its parameters, the distance to the patient, the location of his eyes.

It is significant that the modernized device (and method) for remote evaluation of the characteristics of the human visual analyzer and for conducting training exercises for the development of binocular and higher visual functions can be implemented on the existing electronic element base. So, a test monitor for generating the necessary test tasks for checking visual acuity and binocular vision functions, the control unit for the test monitor parameters can be implemented on the basis of standard monitors, for example, a monitor from NEC MultiSync, MD series.,

a patient-monitor distance measuring device can be implemented, for example, on the basis of an ultrasonic distance meter using ultrasonic sensors, for example, the Parsonics Corp 4012 series. and a control microcontroller based on the Microchip line of flash controllers, (see, for example, Microchip 2011 Product Selector Guide),

the patient’s eye movement recording device can be implemented on the basis of a standard computer web-camera (cameras) mounted on a test monitor or in another way and oriented in such a way as to fix the patient’s eye movements, including taking into account possible head movements, or complex observation of behavioral patient features

a device for separating the visual fields of the left and right eyes can be implemented, for example, on the basis of polarizing glasses (when using a test monitor with a polarizing screen to observe the so-called 3D images), glasses based on liquid crystal shutters or anaglyphic glasses,

an interactive remote control for recording the testee’s answers can be implemented on the basis of the following components: control controller - one of the modern controllers from Microchip, (see, for example, Microchip 2009 Product Selector Guide); providing wireless communication via the BLUETOOTH protocol based on standard modules of the type WT-12-A from Bluegiga. An embodiment of the test console is shown in FIG. 2.

The technical result of the present invention is to provide the ability to conduct a comprehensive remote examination of the human organ of vision, both using instrumental diagnostics of the human organ of vision, and testing visual functions and ophthalmic training exercises using the skills of a remote specialist. At the same time, the unit for remote verification and correction of visual functions allows testing visual acuity in various modes, including when studying the crowding effect, when assessing the effect of a limited exposure of optotypes, the perception of optotypes with reduced contrast and / or brightness, various color combinations of the optotype and background, etc., remote testing of binocular functions, (including binocular installation of eyes, phoria, fusional reserves, visual acuity, aniseikonia in various modifications and p.), astigmatism, frequency-contrast characteristics, as well as exercises for the development and correction of the binocular visual function and higher man.

The invention is illustrated by an example of a specific implementation of the device by the following drawings:

Figure 1. The structural diagram of the device, where (1) is a remote diagnostic module in the following setting: fundus camera, slit lamp, autorefractometer, tonometer, biomicroscope, keratometer (2); the first technical system for video conferencing (3), a voice input device (4), a text documentation input device based on an active touch screen (5), a first control computer (6); unit for remote checking and correction of visual functions (12) as follows: test monitor for generating test tasks (13), control unit for test monitor parameters (14), patient-monitor distance measuring device (15), patient eye movement recording device (16) ), an interactive remote control for fixing the answers of the subject (17), a device for separating the visual fields of the left and right eyes (18),

(7) - a diagnostic center as follows: a second technical system for ensuring video conferencing (8), a display for demonstrating data from the results of the surveys (9), a database of the results of the surveys (10), a second control computer (11), a unit for generating multi-window information on the parameters of remote testing (19). 20 - Internet environment.

Figure 2. Image of a constructive version of the test console -adapted children's option. The figure shows the remote control with buttons similar to the optotypes presented on the test monitor (Fig.2a.) And these optotypes themselves (Fig.2b).

Figure 3. An example of a working window for preliminary evaluation of test results.

The patented device (Figure 1) contains several coordinated functional blocks interconnected by bidirectional multi-bit tires:

remote diagnostic module (1) in the following setting: fundus camera, slit lamp, autorefractometer, tonometer, biomicroscope, keratometer (2): the first technical system for video conferencing (3), voice input device (4), text input device based on the active touch screen (5), the first control computer (6); unit for remote checking and correction of visual functions (12) as follows: test monitor for generating test tasks (13), control unit for test monitor parameters (14), patient-monitor distance measuring device (15), patient eye movement recording device (16) ), an interactive remote control for fixing the answers of the subject (17), a device for separating the visual fields of the left and right eyes (18),

diagnostic center (7) as follows: a second technical system for video conferencing (8), a display for demonstrating data from the results of surveys (9), a database of the results of surveys (10), a second control computer (11), a multi-window generation unit information on the parameters of remote testing (19).

All units of the device are connected to the corresponding terminals of the power supply.

Due to the advanced features, the device can operate in various functional modes, as well as in a combination of these modes, the main of which are described below:

- control mode of the testing process of visual functions,

- The process control mode of training exercises for the development of binocular and higher visual functions.

- distance control mode test display - patient,

- control mode of brightness conditions of the testing,

- the mode of observation of the position of the patient’s eyes,

- mode control parameters presented test tasks,

- a mode of comprehensive monitoring of the testing process,

- interactive testing mode of visual functions at given distances,

- The mode of conducting training exercises for the development of binocular and higher visual functions.

- modes of instrumental diagnostics of vision, similar to the prototype,

- mode of forming a database of results.

The main modes of operation of the device are described below.

- the control mode of the testing process and / or the process of training exercises for the development of binocular and higher visual functions is carried out, if necessary, in two ways: the first - by video conferencing when explaining tasks, behavioral recommendations and in cases when the specialist is not satisfied with the testing procedure, information about which he receives from the display to demonstrate the data of the results of the surveys (9): compliance with the required test distance (provided by the measuring device the patient’s monitor position (15)), the level of attention to tasks (provided by the device for fixing the patient’s eye movements (16)), etc., the second - by remotely adjusting test modes and / or training exercises for the development of binocular and higher visual functions, beginning and end of test and / or training procedures, etc. according to standard or original remote control algorithms of the first control computer (6) from the second control computer (11).

- distance control mode test display - patient (distance measurement is provided by the patient-monitor distance measuring device (15)). The obtained data on the patient-display distance are shown on the display to demonstrate the data of the results of the examinations (9). The measured data automatically upgrade the linear sizes of optotypes to preserve their angular magnitude in those test tasks where it is necessary (for example, when testing visual acuity). The specialist can use this information in accordance with the testing strategy, indicating the need for distance correction via video conferencing.

- the monitoring mode of the brightness conditions of the conducted testing is ensured thanks to the operation of the control unit for the parameters of the test monitor. The indicated unit monitors the optimization of the brightness of the test screen by standard methods according to the currently existing optimality criteria (currently, the desired brightness parameters of the test monitor for the correct testing of ophthalmic focus procedures are described, for example, in ISO 8596, second edition, (Ophthalmic optics - Visual acuity testing - Standard optotype and its presentation).

- the observation mode of the position of the patient’s eyes is provided by the device for recording the movements of the patient’s eyes (16). A real-time image of the eyes is displayed on the display to demonstrate data from the results of the examinations (9). The specialist can use this information in accordance with the testing strategy.

- the control mode of the parameters of the presented test items is as follows: on the display to demonstrate the data of the results of the surveys (9), an image of the test item being demonstrated at the moment is shown with an indication of its parameters.

- the mode of comprehensive control of the testing process is to simultaneously monitor in real time on a display to demonstrate data on the results of ongoing examinations (9) data on the distance the monitor is being tested, the type and parameters of the test task currently being presented, the eye position of the person being tested, and the general situation in room. Such an information image is formed due to the presence of a multi-window information generation unit about the parameters of remote testing (19).

- the interactive testing mode at given distances is carried out using an interactive remote control for recording the testee's answers (17), which can work both in wired and wireless modes. On the front panel of the remote control there is a group of buttons with printed optotype images (for example, as in the embodiment shown in FIG. 2).

In the process of testing on the test monitor to form test tasks (13), optotypes are formed that are convenient for interactive testing. The formed optotypes are either similar to those applied to the buttons of the remote control, or have a changing orientation or other variable parameter, the change of which can be fixed by pressing a specific button on the remote control (for example, when presenting classic Landolt optotypes, buttons with the image of left-right-top-bottom arrows can be used ) The task is to correctly recognize the optotype or its location and press the corresponding button on the remote control. Information about the pressed button is transmitted wirelessly (or wired) from the interactive remote control to record the test subject's answers (17) to the first control computer (6), which uses this information to advance the operation of the testing algorithm.

- the mode of conducting training exercises for the development of binocular and higher visual functions is functionally similar to the interactive testing mode with a difference in the structure of the generated task for the patient (providing a training algorithm).

- modes of instrumental diagnostics of vision are similar to the prototype,

- The mode of forming the database can be formed on the basis of modern technologies in accordance with the wishes of the user.

Claims (1)

A device for remote evaluation of a human visual analyzer, including coordinated functional blocks interconnected by bidirectional multi-bit buses, connected to a power supply, namely a remote diagnostic module (1) as follows:
- fundus camera, slit lamp, autorefractometer, tonometer, biomicroscope, keratometer (2), functionally connected to the first control computer,
- the first technical system for video conferencing (3), functionally connected to the first control computer
- voice input device (4), functionally connected to the first control computer
- an input device for textual documentation based on an active touch screen (5), functionally connected to the first control computer
- the first control computer (6), functionally connected to the second control computer,
diagnostic center (7) as follows:
- the second technical system for providing video conferencing (8), functionally connected to the second control computer
- a display for demonstrating data from the results of surveys (9), functionally connected to a second control computer
- database of the results of the surveys (10), functionally connected to the second control computer
- a second control computer (11), characterized in that it further comprises
- a unit for generating multi-window information about the parameters of remote testing (19) functionally connected to the second control computer of the diagnostic center (7),
- block remote verification and correction of visual functions (12) functionally connected to the first control computer and including:
- test monitor for the formation of test tasks (13),
- unit for monitoring the parameters of the test monitor (14),
- a device for measuring the distance of the patient-monitor (15),
- device for fixing the movements of the eyes of the patient (16),
- an interactive remote control for fixing the testee's answers (17),
- a device for separating the visual fields of the left and right eyes (18).

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