RU2698861C1 - Posture correction method - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to orthopedics, and can be used for posture correction. For this purpose, sensor is fixed on user's body and correct vertical position of user's body in space is fixed. Deflection angles of the fixed vertical body position are established. Alarm is set to receive correct position, visualization of deviation parameters on screen of sensor device. At the same time daily allowable deviation angles from fixed correct position of body in space within 30 degrees in sagittal plane and in frontal plane are set. Vertical correct position of the body in space is set for 1 to 60 minutes per hour. Time for notification of deviation from the permitted deviation angles from the fixed correct position is up to 180 seconds. When deviating by more than 0.5 degrees from the correct position, the user is given a signal for the user to take the correct position by reorientation of proper position of body in space from beyond specified limits of deviation in sagittal and frontal planes in boundaries of established maximum permissible deviation angles from fixed correct position of body in space. Permissible angles of deviation from the fixed correct position of the body in space are daily reduced with pitch of 1 degree to 0 degrees in both planes over time. Time of correct body position in space is increased to 60 minutes for an hour. Discrimination parameter visualization is reflected on the screen of the sensor device in all planes and projections of the top view. Sensory device memory is used to accumulate correction parameters data to estimate dynamics of correct posture formation.

EFFECT: method provides effective correction of posture due to individual adjustment of settings.

1 cl, 6 dwg

Description

FIELD OF THE INVENTION

The invention relates to medical equipment and can be used to develop the skill of correct posture, prevention and correction of functional disorders of posture and the treatment of orthopedic diseases.

Technical level

A known method of correcting posture (Patent RU No. 2504350 publ. 01.20.2014), which consists in the fact that elements of an interactive device for correcting human posture are fixed on the patient. In the control and information processing system, the maximum permissible values of the bend of the spine are set. Choose the type of warning signal: vibration of the sensor on the body and / or LED visualization of the angle of inclination. Then, the values of the bend of the spine are recorded using an optical deformation sensor, the registered values of the bend of the spine are compared with the maximum permissible values, and in case of exceeding the recorded values of the bends of the spine over the maximum permissible values, an alert signal is generated and sent. The registration of the values of the bend of the spine, performed by one deformation sensor, should be carried out on a site with a length of not less than the length of three adjacent vertebrae in a controlled area, but not more than the length of a unidirectional bend.

The disadvantages of this solution are the low degree of effectiveness of posture correction, since it is not possible to establish the exact degree of deviation in the sagittal plane, in this solution the indication and fixation of the angle of deviation is the on / off of a number of LEDs. In addition, the known solution does not solve the problem of the ability to control the deviation of the bend of the spine in the frontal plane, and there is no way to adjust the holding time of the correct posture for an hour and the time of notification of violation of the correct position (in this solution, notification is made at the time of rejection), which forces the user keep your back straight in static tension, without the ability to take a break and move, which is stressful for the body and not physiological.

A known method and system for determining the position of a person in space in real time (Patent US 9128521 publ. 08.09.2015), which consists in determining the position and dynamics of the user's position in space and signaling the user about a change in position through the sensor on the body through, for example, sound or vibration, alarm for correct position visualization of deviation parameters on the screen of the touch device.

The disadvantage of this technical solution is the low degree of effectiveness of posture correction, since the deviation angles from the fixed correct vertically oriented body position are constant in both planes and cannot be adjusted by the user, which does not allow to reduce the deviation angles in the sagittal and frontal planes and thereby increase the level of physical loads of preverbal muscles.

SUMMARY OF THE INVENTION

The technical task is aimed at creating a method that allows you to diagnose, visualize, individually adjust settings, as well as conduct remote online monitoring and analyze the process of forming correct posture.

The technical result consists in increasing the effectiveness of the correction of all types of posture disorders, including scoliotic posture and scoliosis with regular use.

The technical result is achieved by the fact that in the posture correction method, including fixing the sensor to the user's body, fixing the correct vertically oriented position of the user's body in space, setting the deviation angles from the fixed correct vertically oriented body position, signaling to take the correct position, visualizing the deviation parameters on the screen sensor device, according to the proposed solution, daily allow acceptable angles of deviation from the fix correct body position in space within 30 degrees in the sagittal plane and in the frontal plane, set the retention time of the vertical correct body position in space from 1 to 60 minutes per hour and the time of notification of deviation from the permissible deviation angles from the fixed correct position is up to 180 seconds, when the deviation is more than 0.5 degrees from the correct position, the user is given a signal for the user to take the correct position, by reorienting his the body position in space due to the limits of the set boundaries of deviations in the sagittal and frontal planes to the boundaries of the set maximum allowable angles of deviation from the fixed correct position of the body in space, the allowable angles of deviation from the fixed correct position of the body in space are daily reduced in increments of 1 degree to 0 degrees in both planes over time, and the retention time of the correct body position in space is increased to 60 minutes in an hour, visual The parameters of deviations are reflected on the screen of the sensor device in all planes and projections from above, while the data of the results of parameter correction are accumulated in the memory of the sensor device to assess the dynamics of the formation of the correct posture. It is advisable to additionally transmit data on the visualization of fixation of the correct position, individual settings and parameters deviations to external third-party observers on their sensor devices, for monitoring the sensor user, parameter correction a deviation remote evaluation of the dynamics of forming a correct posture.

Brief Description of the Drawings

In FIG. 1 is a diagram of a fixed correct vertically oriented body position in a projection of a plan view, in FIG. 2 is a diagram for visualizing a body position in space when deviating from a fixed correct vertically oriented body position by 0 degrees in the sagittal and frontal planes, FIG. 3 is a diagram for visualizing a body position in space when deviating from a fixed correct vertically oriented body position by 0 degrees in a projection of a plan view; FIG. 4 is a diagram for visualizing a body position in space when deviating from a fixed correct vertically oriented body position by 16 degrees in the sagittal and frontal planes, FIG. 5 is a visualization diagram of an incorrect body position in space when deviating from a fixed correct vertically oriented body position beyond the established boundaries of the body deflection in a projection of a plan view, FIG. Figure 6 shows the visualization of data on the results of wearing the sensor (total wearing time, wearing time in the correct position with the ability to analyze each day of wearing separately).

The implementation of the invention

The system for implementing the method includes a sensor for checking the correct posture and a mobile application installed on the touch device.

Intelligent posture corrector is installed in the subclavian region or just below the jugular notch of the sternum, is turned on to connect to the touch device. After connecting the smart corrector via communication channels with the touch device, the user uses the touch device to fix the correct vertically oriented position of his body in space, sets the permissible deviation angles from the fixed correct position of the body in space (up to 30 degrees in the sagittal plane and up to 30 degrees in frontal plane), set the retention time of the vertical correct body position in space (from 1 to 60 minutes per hour) and the time for notification of enii of permissible deflection angles fixed by the correct position (up to 180 seconds) - a notification to the timer. When the body deviates from the preset position, in any of the planes, by more than 0.5 degrees, the user is given a signal after a period of time selected by the user, reminding them of the need to occupy the correct position. Information about the deviation is transmitted through communication channels to the touch device to visualize the deviation parameters on the screen of the touch device in planes and projections from above. The user assumes the correct position by reorienting his own position of the body in space from outside the established boundaries of deviation in the sagittal and frontal planes (Fig. 5) to the boundaries of the set maximum allowable angles of deviation from the fixed correct position of the body in the space of FIG. 3. After each day of wearing the posture corrector, the permissible deviation angles from the fixed correct position of the body in space

gradually decrease in increments of 1 degree to 0 degrees in both planes over time, and the retention time of the correct position of the body in space increases to 60 minutes in an hour. The retention times of the correct position of the body in space are changed automatically, using a mathematical algorithm that analyzes the physical abilities of the user and sets the appropriate settings automatically, and is set manually by both the user of the posture corrector and external external observers online. Data on the results of wearing the sensor are accumulated in the memory of the sensor device, which allows assessing the dynamics of the formation of correct posture, both during the entire period of wearing the device and on each individual day (time of use, time of correct posture, angles during the current day - plan and fact on the deviation angles in both planes, the wearing time is correct and incorrect, a visual picture of the posture stereotype per day, a clicker to scroll through the days (Fig. 6).

External third-party observers can carry out online monitoring on their sensor device, which allows you to observe visualization of parameters of the deviation of the user's body position in space relative to the fixed correct vertically oriented position of the body in space and the permissible deviation angles from this position in all planes and the top view projection; angles of deviation from the fixed correct position of the body in space in the sagittal and fr natal planes, the time of holding the vertical correct body position in space and the time of notification of deviation from the permissible deviation angles from the fixed correct position, receive notification of stoop to the observer’s sensor device, with the ability to remotely turn on additional notification from the sensor or user's touch device in real time , view the results of wearing the posture corrector, determine the user's geolocation and communicate through the internal function ata. Case Studies

The study involved a group of 16 patients - schoolchildren aged 9 to 15 years, whose activities were associated with prolonged static load at a desk, working at a computer, and was at least 5 hours a day.

All patients completed the course of wearing the intellectual posture corrector for 1 month (the first week - at least 2.5 hours a day, the second week - 4 hours a day, the third and fourth weeks - 6 hours a day). Patients wore an intelligent posture corrector in the area just below the jugular notch or under the collarbone and before each use, they fixed the correct vertically oriented position of the body space. Each time the patient began to stoop, the sensor gave a vibration signal reminding that it was necessary to take the correct position, the posture was automatically diagnosed on the mobile phone screen, the patient had the opportunity to visually see in which direction his body deviates in space from a given norm and could take correct position, forming the muscle memory of the body.

Clinical examination was based on the non-contact optical method of topography of the human body, which allows us to study the presence of asymmetries of the musculoskeletal system, spinal deformities, and quantitatively evaluate a large number of parameters characterizing the severity and location of kyphosis and lordosis, the index of rotation of the spine, the amount of skew and tilt of the pelvis in different planes.

The following results were obtained:

1. Woman, 14 years old: the scoliotic arch decreased from 13 to 2 degrees

2. Male, 12 years old: the scoliotic arch in the thoracic region decreased from 16.7 to 7.8 degrees, in the lumbar, from 10.9 to 6.7 degrees

3. Male, 11 years old: the scoliotic arc decreased from 8.5 to 5.9 degrees (30.5%)

4. Woman, 12 years old: the scoliotic arch decreased from 6.9 to 6 degrees (13%), the arch of chest kyphosis from hyperkyphosis went back to normal

5. Male, 11 years old: the scoliotic arc decreased from 8.2 to 4.5 degrees (45%)

6. Male, 12 years old: the scoliotic arch decreased from 12.6 to 9.8 degrees (22%), the arch of chest kyphosis from hyperkyphosis went back to normal

7. Male, 12 years old: the scoliotic arc decreased from 5.6 to 1 degrees

8. Male, 11 years old: the scoliotic arch decreased from 8.6 to 6.5 degrees

9. Male, 11 years old: the scoliotic arc decreased from 10.3 to 5.8 degrees

10. Woman, 12 years old: the scoliotic arch decreased from 4.1 to 3.6 degrees

The data obtained indicate a positive dynamics of all the studied indicators. After a course of 1-3 months of functional impact, a persistent developed habit of keeping your back straight was noted.

Thus, the proposed method for forming neuromuscular memory in children to keep their back straight relative to the established standard of harmonious posture for this individual, due to which the bone structure during the growth period will be adjusted to the correct position, minimizing the risks of formation of pathological disorders of the skeletal system.

Claims (1)

A posture correction method, including fixing the sensor to the user's body, fixing the correct vertically oriented position of the user's body in space, setting the deviation angles from the fixed correct vertically oriented body position, signaling to take the correct position, visualizing the deviation parameters on the screen of the touch device, characterized in that daily allowable angles of deviation from the fixed correct position of the body in space in p at up to 30 degrees in the sagittal plane and in the frontal plane, the time for holding the vertical correct body position in space is from 1 to 60 minutes per hour and the notification time for deviation from acceptable angles of deviation from the fixed correct position is up to 180 seconds, with a deviation of more than 0.5 degrees from the correct position, the user is given a signal for the user to take the correct position by reorienting their own body position in space from outside the mouth The established boundaries of deviations in the sagittal and frontal planes to the boundaries of the set maximum permissible angles of deviation from the fixed correct position of the body in space, the allowable angles of deviation from the fixed correct position of the body in space are daily reduced in increments of 1 degree to 0 degrees in both planes over time, and the retention time of the correct body position in space is increased to 60 minutes within an hour, the visualization of the deviation parameters is reflected on the touch screen about the device in all planes and the projection of the top view, while in the memory of the sensor device accumulate data of the results of parameter adjustments to assess the dynamics of the formation of the correct posture.

Images