CN114632318A - Subjective visual vertical perception rehabilitation evaluation and training system - Google Patents

Abstract

The application discloses a subjective visual vertical perception rehabilitation assessment and training system, which comprises a host, a display, a printer, a calibration device, a screen projection device, a voice device, a light-emitting device, a vibration shaking device and a rehabilitation assessment training system main module; the host, the printer, the calibration device, the screen projection device, the voice device and the vibration shaking device are respectively connected with the display; the light-emitting device and the vibration shaking device are respectively connected with the general module of the rehabilitation evaluation training system through Bluetooth; the rehabilitation evaluation training system main module is positioned in the host; based on the fixed perpendicular line of calibrating device, the patient is through throwing screen device and recovered aassessment training system, aassessment, training own perpendicular perception ability to through vibrations shake the device and increase the degree of difficulty, through illuminator and speech device, the result of feedback aassessment, training, and with result input display and printer. The subjective visual assessment ability of the patient can be assessed, trained and fed back in time, and the vertical perception function of the patient is enhanced.

Description

Subjective visual vertical perception rehabilitation assessment and training system

Technical Field

The application belongs to the field of vertical perception of rehabilitation medicine, and particularly relates to a subjective visual vertical perception rehabilitation evaluation and training system.

Background

When a patient suffers from diseases such as cerebral apoplexy and the fear of the forest, the gait of the lower limbs is often unstable. People usually suspect that the strength of the lower limbs of the patient is insufficient, and after a period of recovery, the strength of the lower limbs of the patient reaches 4 and 5 grades, but still walks badly; there is also a possibility that the vertical sensation of the patient himself may be problematic. In daily rehabilitation assessment and training, people mostly adopt a barrel experiment to assess and train. The head is buried in the barrel, the black pointer on the white disc at the bottom of the barrel is rotated by rotating the barrel, the rotation of the pointer is observed, and when the rotation is stopped, whether the pointer is vertical or not is judged. However, this method has significant drawbacks: 1. the black pointer can not be fixed and is often dropped; 2. the rotation of the wooden barrel is controlled by a therapist, and the rotation speed of the barrel cannot be unified; 3. the pointer stops rotating by the fact that the patient shouts to stop or raises hands, and the rehabilitation teacher stops according to the indication, so that errors exist; 4. the reading is a practical protractor measurement, which cannot be avoided; 5. the patient usually waits until the reading is readjusted when the wrong judgment occurs in the training process. In view of this, there is still much room for improvement and progress in subjective visual vertical perception rehabilitation assessment and training.

Disclosure of Invention

Aiming at the defects of the prior art, the application provides a subjective visual vertical perception rehabilitation evaluation and training system, which can evaluate and train the subjective visual evaluation ability (SVV) of a patient and feed back the SVV in time: whether or not to deviate and the direction and angle of the deviation can enhance the existing vertical perception function of the patient.

In order to achieve the above purpose, the present application provides the following solutions:

the rehabilitation evaluation and training system for subjective visual vertical perception comprises:

the device comprises a host, a display, a printer, a calibration device, a screen projection device, a voice device, a light-emitting device, a vibration and shake device and a rehabilitation evaluation training system main module;

the host, the printer, the calibration device, the screen projection device, the voice device and the vibration shaking device are respectively connected with the display; the light-emitting device and the vibration shaking device are respectively connected with the general rehabilitation assessment training system module through Bluetooth; the rehabilitation evaluation training system main module is positioned in the host;

the display is used for inputting, transferring, modifying and saving patient information;

the printer is used for printing required information of a patient;

the calibration device is used for fixing a vertical line;

the screen projection device is used for the evaluation and training of the patient;

the voice device is used for voice broadcasting of the angle between the perpendicular line and the pointer;

the light-emitting device is used for assisting the patient to judge;

the vibration shaking device is used for increasing the difficulty of the evaluation and training of the patient;

the rehabilitation evaluation training system general module is used for evaluating and training the vertical perception capability of the patient;

based on the fixed perpendicular line of calibrating device, the patient passes through throw the screen device with rehabilitation aassessment training system, aassessment, training own perpendicular perception ability to through vibrations shake the degree of difficulty that the device increases aassessment, training, through illuminator with speech device, feedback the result that the patient aassessment, trained, and will the result input display that the patient aassessment, trained with the printer.

Optionally, the general rehabilitation assessment training system module includes: the system comprises a patient information input module, an evaluation module, a training module and a setting module;

one end of the evaluation module is connected with the patient information input module, and the other end of the evaluation module is connected with the setting module;

the patient information input module, the training module and the evaluation module are respectively connected with the display;

the patient information input module is used for inputting the patient information;

the evaluation module is used for evaluating the existing vision and visual vertical perception capability of the patient;

the training module is used for making a training scheme for the patient;

the setting module is used for setting the training parameters of the patient.

Optionally, the patient information includes: the patient is in the ward, the patient number, the past medical history, whether to operate, the reason for this admission, whether to have a vision problem, whether to wear glasses and how many myopia or hyperopia readings.

Optionally, the method of assessing the patient's existing vision comprises:

detecting the patient's real vision;

comparing the real vision of the patient with the entered patient information;

if the real vision of the patient is consistent with the input patient information, and the vision of the patient is not affected by wearing corresponding glasses or needing no glasses, the existing vision of the patient is normal;

and if the real vision of the patient is inconsistent with the input patient information, the existing vision of the patient is abnormal.

Optionally, the method for evaluating the visual vertical perception capability includes: and evaluating the visual vertical perception capability by measuring the angle between the vertical line and the pointer.

Optionally, the rating for evaluating the visual vertical perception capability is 9.

Optionally, the training scheme includes: training content, training frequency, training time, notes, and historical training information.

Optionally, the training parameters of the patient include: speed, direction, vibration, jitter, protractor reading, and color of illumination.

The beneficial effect of this application does:

the application provides a subjective visual vertical perception rehabilitation evaluation and training system, and aims at the problem that a black pointer cannot be fixed, the system is directly controlled by a host and then projected onto a corresponding screen; aiming at the problem that the rotation speed of the barrel cannot be unified, the method is set to set parameters in the host; aiming at the problem that the error of stopping the rotation of the pointer is too large, the voice control can be realized; aiming at the situation that errors occur in measurement of the reading protractor, machine reading is set and reported in a voice mode; when wrong judgement appears in the training process to the patient, this application has set up pronunciation or has sent suggestion such as ruddiness. The application can evaluate, train and timely feed back the subjective visual assessment ability (SVV) of the patient: whether the human body deviates or not and the deviating direction and angle can enhance the existing vertical perception function of the patient, improve the self-care ability of the patient and improve the life quality.

Drawings

In order to more clearly illustrate the technical solutions of the present application, the drawings required to be used in the embodiments are briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive labor.

FIG. 1 is a schematic diagram of a subjective visual vertical perception rehabilitation assessment and training system according to an embodiment of the present application;

FIG. 2 is a schematic view of a display screen and a patient's view in an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, the present application is described in further detail with reference to the accompanying drawings and the detailed description.

As shown in fig. 1, a subjective visual vertical perception rehabilitation assessment and training system according to an embodiment of the present application mainly includes:

the device comprises a host, a display, a printer, a calibration device, a screen projection device, a voice device, a light-emitting device, a vibration and shake device and a rehabilitation evaluation training system main module;

relation connection: the host, the printer, the calibrating device, the screen projecting device, the light-emitting device and the vibration shaking device are connected with the display; the light-emitting device and the vibration shaking device are connected with a general module (subjective visual vertical perception training instrument) of a rehabilitation assessment training system through Bluetooth, the display is connected with a rehabilitation teacher to set difficulty levels, and the subjective visual vertical perception training instrument is connected with a prompt and plays a role of corresponding levels (total 8 levels).

Based on the fixed perpendicular line of calibrating device, the patient is through throwing screen device and recovered aassessment training system, aassessment, training own perpendicular perception ability to through vibrations shake the degree of difficulty that the device increases aassessment, training, through illuminator and speech device, feedback patient aassessment, the result of training, and with patient aassessment, the result input display and the printer of training.

Specifically, the display is connected with the host computer, and can input, transfer, modify, store and acquire all the information of the required patients (1-5 modules); clicking a setting module to set parameters; is connected with a screen projecting device, and the left picture in the screen projecting computer is used for the evaluation and training of patients.

Specifically, the printer is connected to the display (since the display is already connected to the host computer) and prints all the data for the patient.

Specifically, the calibration device is connected with the display and used for fixing the vertical line so as to ensure the accuracy of the measurement result.

Specifically, the screen projection device is connected with a display, and a left picture of a screen projection computer is used for patient evaluation and training; after the patient presses the confirmation button, the pointer on the LED screen in front of the patient freezes, and a picture of the patient's freezing may also appear on the display screen of the rehabilitee, and the data is saved.

Specifically, the voice device is connected with the display, and during evaluation and training, after the patient presses the confirmation button, the angle between the vertical line and the pointer is measured, and the result of voice reading, such as error, left (right) degree or right, of the vertical state is read, so you can like you.

Specifically, the light-emitting device is used for assisting the judgment of the patient in daily training, and the red light is wrong and the green light is correct after the patient presses the confirmation button;

in particular, the vibration shaking device is used for increasing the difficulty of the evaluation and training of the patient.

Specifically, the rehabilitation assessment and training system is used for assessing and training the vertical perception capability of a patient and comprises a patient information input module, an assessment module, a training information module and a setting module, wherein the patient information input module comprises a patient information module and a newly-built patient information module; the training module comprises a training information module and a newly-built training information module.

The patient information input module is used for inputting patient information, transmitting the patient information to the evaluation module, and transmitting the patient information to the display to be convenient for looking up, modifying and storing.

1. Patient information module, the effect is consulted, changes, preserves, prints, and it is specifically that the patient is in which ward, patient number how much, the past medical history has which, whether operate, this reason of admitting to the hospital, whether have the eyesight problem, whether wear glasses (wear glasses then under the circumstances, wear always, still read a book, play the cell-phone), myopia (hyperopia) reading how much.

2. The newly-built patient information module is used for looking up patient data and establishing patient file information so as to make assessment and training plans in the later period, and the specific content is the same as the patient information module.

3. The evaluation module is used for evaluating the prior vision and the visual vertical perception ability of the patient in the early stage, knowing which stage the patient is in, preparing for training plan, comparing whether the patient has progress in the middle stage (for example, after one month), and comparing the current ability to which stage the patient has progress in the middle stage, and comparing the progress of the patient in the later stage (evaluation before discharge) with that in the early stage and the middle stage, and determining which patients are bad. After detection, the actual vision of the patient is consistent with that of the patient, and the vision is not affected by wearing corresponding glasses or needing no glasses, the final result is normal, and the result is transmitted to the setting module if the result is normal; if the patient actually has a vision problem, but the inconsistency between the entered data and the patient is abnormal, the data are divided into several categories: myopia, hyperopia, astigmatism, hemianopia, achromatopsia; if the abnormal condition happens, the vision correction is needed, if corresponding glasses are worn, if the abnormal condition happens, the posture of the patient needs to be corrected if the patient is partially blind (taking the right-side partially blind as an example, the body of the patient needs to be moved to the right, and the LED screen is ensured to be on the left side of the sight), after the correction is finished, information is transmitted to the parameter setting module on one side, and is transmitted to the display by means of the screen projection device on the other side, so that the information can be conveniently looked up, modified and stored.

The specific content of the evaluation is as follows: (1) the vision assessment module is used for reading information whether the patient wears glasses or not, so that the condition that some patients have slight myopia, hyperopia and astigmatism is avoided, the patients do not wear glasses, and finally the real information detected by the patients is recorded; hemianopsia refers to: after the patient is ill, one side is easy to ignore other normality, such as: the right-side hemianopia mobile phone cannot be seen when placed in the right-side blind area of the patient, and the subjective visual vertical perception rehabilitation assessment can be seen on the left side (2), and the angle between the vertical line and the pointer is measured by taking the patient to press the confirmation button as the standard. The 0 grade is that the patient rotates the pointer at a first-grade rotating speed (0.1 degree per second) under the condition of no reference object, and the measured final data does not belong to the vertical state; level 1 is that the patient rotates the pointer (0.1 degree per second) at a first-level rotating speed without a reference object, and the measured final data belongs to a vertical state; level 2 is that the patient rotates the pointer (0.5 degree per second) at a second-level speed without a reference object, and the measured final data belongs to a vertical state; grade 3 is that the patient rotates the pointer at a second-level rotation speed without a reference object (0.5 degrees per second) and in the presence of slight vibration, the measured final data belongs to a vertical state; level 4 is that the patient rotates the pointer at a second-level speed without a reference object (0.5 degrees per second) and in the presence of moderate vibration, the final data measured belongs to a vertical state; grade 5 is that the patient turns the pointer at a second rotational speed (0.5 degrees per second) without a reference and in the presence of heavy vibration, the final data measured belongs to the vertical state. Grade 6 is that the patient adds slight shake under the condition that the pointer is rotated at a second-level rotating speed (0.5 degrees per second) without a reference object and heavy vibration is carried out, and the measured final data belongs to a vertical state; grade 7 is that the patient adds moderate jitter under the condition that the pointer is not rotated by the reference object at the second-level rotating speed (0.5 degrees per second) and the patient is severely vibrated, and the measured final data belongs to the vertical state; the 8-level is that the patient is added with heavy jitter under the condition that a reference object does not rotate the pointer at the second-level rotating speed (0.5 degrees per second) and the heavy vibration is generated, and the measured final data belongs to a vertical state and is the highest level; (special cases show that if the patient does not reach grade 5, grade 4 needs to be measured, if grade 4 is correct, the final result is grade 4, if wrong, grade 3 is measured, and so on).

4. The function of the training information module is as follows: the patient can be made a scheme suitable for the patient, and the scheme can be transversely compared (where the training is advanced and has no effect when the training is carried out for one month and is not trained; whether the training is carried out in the next stage is considered), printed, stored and newly built; the concrete contents are as follows: training content (0-8 level), training frequency (several times a week), training time (20-30 minutes once) attention (whether the face is abnormal after 5 times of training, the heart rate increase amplitude is not more than 20%, whether the patient feels good or not, whether the patient needs to rest, the first evaluation is from 0 level in the early stage), historical training information (the previous training record can be printed and consulted, whether the next stage of evaluation and training needs to be carried out or not is compared), training is carried out according to the evaluation result during training, and all data are finally transmitted to a display by means of a screen projection device.

5. The newly-built training information module has the function and the content as well as the training information module, and the difference is that the former is a new patient, and the latter is trained for a period of time.

6. The setting module is used for establishing a uniform reference system, and measuring the capability of a patient by using the same reference target so as to reduce human factor interference; the specific content is that the set rotating speed (first-level: 0.1 degree per second, second-level: 0,5 degree per second) is set (1); (2) vibrating: the difficulty of evaluation and training is increased by means of a vibration device, the vibration which is just visible to the naked eyes of a patient is slightly vibrated, and the device vibrates every 10 seconds; moderate patients have increased amplitude but can still maintain training during shaking, shaking every 5 seconds; shaking heavily for two times every 5 seconds; (3) dithering: by means of a shaking device, the difficulty of evaluation and training is increased, and the shaking is slightly carried out every 10 seconds; moderate amplitude increases but training can still be maintained in jitter, jittering every 5 seconds; severe patients, shivering twice every 5 seconds; (4) reading by a protractor: the accuracy is one digit behind the decimal point, and the result is broadcasted by voice with the help of a voice device; (5) by means of the light emitting device, red light is wrong and green light is correct; and finally, transmitting data to the subjective visual vertical perception evaluation and training module on one side, and transmitting data to the display on the other side.

The difference of the subjective visual vertical perception assessment and training module is as follows: belongs to two modules, but in actual daily rehabilitation, the selection is needed according to actual conditions. If the rehabilitation in the aspect of subjective vision is just started, the evaluation is needed first and then the daily training is needed; if the evaluation time is not up, only training is needed; if it is only necessary to identify the diagnostic confounding factor, it is simply assessed.

The calibration device is used for detecting whether the vision is abnormal or not and whether the reading front perpendicular line is in the correct position or not.

The reading of the protractor in the parameter setting module is accurate to 0.5 degree or 0.1 degree.

The voice module carries out voice prompt during vision calibration and protractor reading, and helps patients to better carry out subjective visual vertical perception assessment and training.

This application can be audio-visual knows: the patient's area of illness, past medical history, present vision condition, vertical sensory ability, how many training goals are, whether the patient's present stage vertical sensory ability is shifted, how much left (right) is shifted compared to the correct value, how long it was previously trained; and after a period of training, whether the user changes the record or not and printing the record.

As shown in fig. 2, in the present application, a picture on the left side of the display may be projected, and a rehabilitee may set parameters such as a rotation speed and an angle on the right side of the display; once the patient confirms the position, the patient can directly say that the position is vertical, the computer end immediately generates whether the position is correct or not, and immediately feeds back a normal value and broadcasts the normal value by voice (for example, the normal angle is marked with red), if the position is wrong, the deviation from the normal value is indicated, the deviation is left (right), and the angle is accurate to 0.5 degree. In the evaluation and training process, once the patient makes an error judgment, the voice prompt or the red light prompt appears, and if the error judgment is correct, the green light is displayed; the software can also set the speed at which the pointer is moved (e.g., 0.5 degrees per second, 0.1 degrees per second), angular velocity, direction (visual: clockwise, counterclockwise; direction or pose: sagittal, frontal, horizontal, circumflex).

The above-described embodiments are merely illustrative of the preferred embodiments of the present application, and do not limit the scope of the present application, and various modifications and improvements made to the technical solutions of the present application by those skilled in the art without departing from the spirit of the present application should fall within the protection scope defined by the claims of the present application.

Claims (8)

1. The rehabilitation evaluation and training system for subjective visual vertical perception is characterized by comprising:

the device comprises a host, a display, a printer, a calibration device, a screen projection device, a voice device, a light-emitting device, a vibration and shake device and a rehabilitation evaluation training system main module;

the host, the printer, the calibration device, the screen projection device, the voice device and the vibration shaking device are respectively connected with the display; the light-emitting device and the vibration shaking device are respectively connected with the general rehabilitation assessment training system module through Bluetooth; the rehabilitation evaluation training system main module is positioned in the host;

the display is used for inputting, transferring, modifying and saving patient information;

the printer is used for printing required information of a patient;

the calibration device is used for fixing a vertical line;

the screen projection device is used for the evaluation and training of the patient;

the voice device is used for voice broadcasting of the angle between the perpendicular line and the pointer;

the light-emitting device is used for assisting the patient to judge;

the vibration shaking device is used for increasing the difficulty of the evaluation and training of the patient;

the rehabilitation evaluation training system general module is used for evaluating and training the vertical perception capability of the patient;

based on the fixed perpendicular line of calibrating device, the patient passes through throw the screen device with rehabilitation aassessment training system, aassessment, training own perpendicular perception ability to through vibrations shake the degree of difficulty that the device increases aassessment, training, through illuminator with speech device, feedback the result that the patient aassessment, trained, and will the result input display that the patient aassessment, trained with the printer.

2. The system of claim 1, wherein the overall modules of the system comprise: the system comprises a patient information input module, an evaluation module, a training module and a setting module;

one end of the evaluation module is connected with the patient information input module, and the other end of the evaluation module is connected with the setting module;

the patient information input module, the training module and the evaluation module are respectively connected with the display;

the patient information input module is used for inputting the patient information;

the evaluation module is used for evaluating the existing vision and visual vertical perception capability of the patient;

the training module is used for making a training scheme for the patient;

the setting module is used for setting the training parameters of the patient.

3. The system of claim 2, wherein the patient information comprises: the patient is in the ward, the patient number, the past medical history, whether to operate, the reason for this admission, whether to have a vision problem, whether to wear glasses and how many myopia or hyperopia readings.

4. The system of claim 2, wherein the method of assessing the patient's existing vision comprises:

detecting the patient's real vision;

comparing the real vision of the patient with the entered patient information;

if the real vision of the patient is consistent with the input patient information, and the vision of the patient is not affected by wearing corresponding glasses or needing no glasses, the existing vision of the patient is normal;

and if the real vision of the patient is inconsistent with the input patient information, the existing vision of the patient is abnormal.

5. The system for subjective visual vertical perception rehabilitation assessment and training according to claim 2, wherein the method for assessing visual vertical perception capability comprises: and evaluating the visual vertical perception capability by measuring the angle between the vertical line and the pointer.

6. The system for rehabilitation assessment and training of subjective visual vertical perception according to claim 5, wherein the rating for assessing visual vertical perception is 9.

7. The system of claim 2, wherein the training protocol comprises: training content, training frequency, training time, notes, and historical training information.

8. The system of claim 1, wherein the training parameters of the patient comprise: speed, direction, vibration, jitter, protractor reading, and lighting color.

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