KR20200052121A - Health management system using smart phone with 6-minute walk test APP - Google Patents

Abstract

The present invention discloses a health management system using a smartphone with a six-minute walk test app. The present invention includes: a smartphone with a six-minute walk test app; an oxygen saturation measurement sensor, a blood pressure measurement sensor, a walking step measurement sensor, and a walking distance measurement sensor which are installed in the smartphone to be interlinked with the six-minute walking test app; and a central server transmitting and receiving user information according to the six-minute walking test app. The smartphone and the central server are interlocked to provide the user information before and after the execution of the six-minute walking test app, and at the same time provide health information to a user based on the user information.

Description

Health management system using smart phone with 6-minute walk test APP}

The present invention relates to a health management system through a 6-minute walking test app installed on a smartphone.

Recently, interest in respiratory diseases has increased due to reasons such as fine dust, air pollution, and smoking. Recently, the concentration of fine dust has increased, and accordingly, patients with respiratory diseases are increasing, but the diagnosis rate of respiratory diseases (chronic obstructive pulmonary disease COPD) is 2.8%, which is less than the incidence rate.

The Korean Tuberculosis and Respiratory Society insisted that "the early diagnosis by including the lung function test in the national health examination is a solution to protect the public's health from fine dust." As the problem of fine dust is prolonged, the level of concern for public health is high, but it is pointed out that there is no proper national examination system and no prevention guidelines. According to the Society's estimated high-risk group, the budget required to perform lung function tests at the National Health Examination is about 2.1 billion won, which is lower than the cost-effective hypertension and diabetes screening. (Source: Hankook Ilbo-“Level 1 carcinogen” increased fine dust… “National health examination should include lung function test”) As such, the importance of evaluating prevention of respiratory diseases caused by fine dust is emerging.

The 6-minute gait test is an easy and simple test to evaluate the motor skills of a respiratory patient. Therefore, it is necessary to develop an application for a six-minute walking test that can be useful for evaluating the prevention and rehabilitation effects of respiratory diseases.

Understanding To help the understanding of the present invention, first, a 6-minute walk test will be described.

Exercise tests in respiratory patients are largely divided into two types. One is walk distant tests, and the other is incremental maximal exercise tests. The walking distance test is easy to perform, has a high relationship with the functional state, and makes it possible to check whether oxygen is needed during exercise.

The 6-minute walking test measures the total distance of walking for 6 minutes, and has been widely applied in evaluating respiratory rehabilitation effects. The six-minute walk test is safe, easy to implement, and uses minimal resources. It also accurately reflects physical activity in everyday life (Korean Tuberculosis and Respiratory Society, 2015).

People with respiratory diseases do not exchange gas well between the lungs and the body due to a decrease in oxygen intake. Therefore, when performing aerobic exercise, the amount of exercise decreases due to a decrease in the amount of oxygen transmitted to the muscles. Meanwhile, steady aerobic exercise brings about the body's adaptation. External breathing is improved by the development of respiratory muscles. Increased respiration due to increased capillaries around the lungs, promotes the formation of capillaries in the skeletal muscle, and increases the amount of oxygen delivered to the muscles. The 6-minute walk test can confirm changes in lung function according to changes in aerobic capacity.

To perform the test, a stopwatch, a lap counter, two cones, a chair, a blood pressure monitor, a telephone, a pulse oximeter capable of measuring heart rate and oxygen saturation, a Borg scale measuring respiratory distress and fatigue, Inspection papers are required (ATS, 2002).

The test places a cone of cone at the starting point to indicate the inspection section, and also places the cone at the return point at a distance of 30 meters from the starting point. Before the test begins, the patient fills out an exercise awareness sheet, and a medical practitioner or therapist measures the patient's heart rate and oxygen saturation and records the patient's condition.

At the start of the test, the patient continues to walk for 6 minutes between the start and return points. Because walking is an aerobic exercise, patients are also allowed to breathe actively by slowing or stopping, depending on the degree of dyspnea. Inspection is carried out according to the manual (ATS, 2002).

After the test, as well as before the test, the dyspnea and fatigue are evaluated on the Borg scale, and the distance, oxygen saturation, and pulse are recorded for 6 minutes. The function of the patient's lungs can be assessed by changing the patient's walking distance and the patient's condition before and after the test.

KR10-2017-0052628 (2017.05.12)

The present invention is to improve the conventional app that does not measure the oxygen saturation (SpO2) and blood pressure (BP) in the app, and accordingly, the user does not need the equipment to measure the SpO2 and BP separately, as well as the simple inspection The aim is to provide an overall health management system through networking with medical personnel.

The health management system through the 6-minute walking test app installed on the smartphone is introduced.

To this end, the present invention is a smartphone with a 6-minute walking test app installed; Oxygen saturation measurement sensor, blood pressure measurement sensor, walking step measurement sensor, walking distance measurement sensor installed on the smartphone so that it can be operated in conjunction with the 6-minute walking test app; and user information according to the running of the 6-minute walking test app Including, but; a central server that can be transmitted and received, including the smart phone and the central server is interlocked to provide the user's information before and after the execution of the six-minute walking test app to the user and at the same time based on the user's information to the user health It is characterized by providing information.

When the 6-minute walking test app is executed, the oxygen saturation measurement sensor and the blood pressure measurement sensor are interlocked so that the user's oxygen saturation and blood pressure are displayed on the display unit of the smartphone to know the state before the user's 6-minute walking test. It is characterized by being.

When the 6-minute walking test app is executed, a description and precautions of the 6-minute walking test are displayed on the display unit of the smartphone.

When the 6-minute walking test app is executed, the content of the vogue scale is displayed on the display unit of the smart phone, a window for a user to input the result according to the 6-minute walking test is generated, and the oxygen saturation measurement sensor and It is characterized in that the blood pressure measurement sensor is interlocked so that the user's oxygen saturation and blood pressure are displayed on the display unit of the smart phone to know the state after the user's six-minute walking test.

At the same time, information indicating the user's status before and after the six-minute walking test is displayed on the display unit of the smartphone, and the central server stores the user's information and provides health management information to the user based on the information. It is characterized by.

According to the health management system through the six-minute walking test app installed on the inventor's smart phone configured as described above, various effects as described below are implemented.

First, it is possible to solve the problem of not being able to measure the oxygen saturation (SpO2) and blood pressure (BP) in a conventional app, and accordingly, the user has an advantage that a device for measuring SpO2 and BP is not required.

Second, there is a problem in that it is impossible to measure the walking distance in the related art, and accordingly, there is a problem of spatial limitation that the inspection distance can be displayed each time the inspection is performed, or the inspection can be performed only in a space where the inspection distance is displayed. Therefore, there is an advantage that the inspection distance can be measured.

Third, in the past, only the examiner or the medical person could use it, which made it difficult for the general public (including the patient), and the non-medical person (general person) who could measure biosignal information could use it alone due to lack of cost or ability. There was a problem that it was difficult, but according to the present invention, there is an advantage that can be solved with a simple app.

Fourth, in the past, there was a point in that the test result could not be shared with the patient and other medical staff, and after the patient was examined, it could not be shared with the medical staff, and thus, feedback on the patient's treatment progress could not be provided. There is an advantage that health management can be achieved through collaboration.

Fifth, in the past, it was difficult for the test subject to easily interpret the test results, and in the case of the general public, it was difficult to understand the test results because there was no basic knowledge about the test. Due to this, it should be able to compare with the normal person's value, but the prior art could not compare the test result value, but according to the present invention, various effects are implemented such as solving it with a simple app.

1 is a view showing an application installed in a smartphone and a central server interworking with a smartphone,
2 and 3 are diagrams showing a login screen and a member registration screen when a 6 minute walking test app, which is one component of the present invention, is executed,
4 is a screen in which a window for selecting oxygen saturation and blood pressure is generated,
5 and 6 is an example screen showing the user's blood pressure and oxygen saturation,
7 and 8 is a screen that displays the explanation and precautions of the 6-minute walking test on the display portion of the smartphone
9 to 14 show a display screen that provides individual information when the app is executed.

Hereinafter, a preferred embodiment of the health management system through the six-minute walking test app installed on the inventor's smartphone will be described with reference to the accompanying drawings.

1 is a conceptual diagram of the present invention, as shown, shows an application installed on a smartphone and a central server interworking with the smartphone.

On the other hand, the present invention is a smartphone equipped with a 6-minute walking test app, an oxygen saturation measurement sensor installed on a smartphone, a blood pressure measurement sensor, a walking step measurement sensor and a walking distance measurement sensor to be operated in conjunction with a 6-minute walking test app, and Includes a central server that can transmit and receive user information according to the execution of the 6-minute walking test app, but the smartphone and the central server are interlocked to provide the user's information before and after the 6-minute walking test app is executed. It is characterized by providing health information to the user based on the information.

A 6-minute walk test app is installed on the smartphone.

The smartphone is equipped with an oxygen saturation measurement sensor, a blood pressure measurement sensor, a walking step measurement sensor, and a walking distance measurement sensor, which can be operated together according to the user's choice when running the 6 minute walking test app.

The central server can transmit and receive user information according to the execution of the 6 minute walking test app.

The central server stores the user's status information in real time according to the execution of the 6-minute walking test app, and transmits information for optimal health management to the user based on the stored information to the smartphone.

Meanwhile, FIGS. 2 and 3 show a login screen and a member registration screen when a 6 minute walking test app, which is one component of the present invention, is executed.

As the initial screen generally used, the user's basic information such as date of birth, gender, height, etc. are entered. Of course, the information is stored in the app as well as transmitted to the central server to be dataized.

When the six-minute walking test app, which is one component of the present invention, is executed, the oxygen saturation measurement sensor and the blood pressure measurement sensor are interlocked so that the user's oxygen saturation and blood pressure are displayed on the display unit of the smartphone before the user's six-minute walking test. It is characterized by knowing the state.

That is, the user's blood pressure and oxygen saturation are measured before the 6 minute walk test is started. As shown in FIG. 4, a window for selecting oxygen saturation and blood pressure is generated on the display unit of the smartphone.

At this time, the oxygen saturation and blood pressure can be measured in various ways. On the smartphone, an oxygen saturation measurement sensor and a blood pressure measurement sensor capable of touching a user's body part (finger) are installed on the back or one side of the smartphone. After touching a part of the body (finger) on the sensor, it is possible to measure the user's oxygen saturation and blood pressure.

That is, it is generally measured through an optical sensor mounted on a smartphone.

Through this, the measured oxygen saturation and blood pressure before the user's inspection are stored in the app and transmitted to the central server for database.

A walking gait measurement sensor and a walking distance measurement sensor are installed on the same principle, which is expressed as a sensor, but the walking distance and walking distance of the user can know the user's walking distance through GPS installed on the smartphone, and the vibration of the smartphone Or, it is possible to know the user's gait by shaking.

Or, it is linked with the 6-minute walking test app and the commonly used 'pedometer app' to know the number of walking steps and the walking distance according to the user's steps, and the information is stored in the app as well as the central server Is sent to the database.

5 and 6 are examples of the user's blood pressure and oxygen saturation measured by the above process, the app stores the reference value of the lowest blood pressure and the highest blood pressure that can determine whether the blood pressure is normal. Whether it is normal based on the blood pressure and oxygen saturation is displayed on the display unit of the smartphone, and in the same process, the graph of the oxygen saturation of the normal person is already stored in the app, so whether the user is normal based on the measured oxygen saturation graph Is also displayed on the display.

Of course, the information is stored in the app and transmitted to the central server to become a database.

Next, a full-fledged 6-minute walking test app is executed for inspection. Before that, the description and precautions of the 6-minute walking test are displayed on the display of the smartphone as shown in FIGS. 7 and 8. Is done.

Description of the drawings is general, and performs a function of ventilating the user before the 6 minute walk test starts.

On the other hand, when the 'start' button shown in FIG. 7 is pressed, a full-fledged 6-minute walking test is performed under the execution of the 6-minute walking test app, and the content of the Borg scale is displayed on the display unit of the smartphone, and the user A window is created to enter the result of the 6-minute walking test.

In addition, the oxygen saturation measurement sensor and the blood pressure measurement sensor are interlocked and the user's oxygen saturation and blood pressure are displayed on the display unit of the smartphone, so that the user can know the state after the six-minute walking test.

That is, as shown in FIG. 9, the time for the 6-minute walking test proceeds as a timer, and a window that can be stopped during the inspection is also generated.

At this time, when the user stops, a window is also created to write about the reason for the interruption, and a window is also created to input numerical values for so-called Borg measures such as the degree of difficulty in breathing and the degree of fatigue before and after the examination.

Of course, when the app is executed, the walking distance measurement sensor and the walking distance measurement sensor are interlocked as described above, so the number of steps and the walking distance are automatically displayed in conjunction with GPS during user inspection.

In addition, when the inspection is completed, when the submission located at the bottom is clicked, it is stored in the app and transmitted to the central server to be databased for each user.

Next, as shown in FIG. 10, a screen showing a user's remaining time during the six-minute walking test is displayed.

On the other hand, as shown in FIG. 11, when the 6-minute walking test is completed, the user's steps and walking distance are automatically displayed, as well as a window in which the user can write the degree of difficulty in breathing and the degree of fatigue before and after the test do.

To this end, as shown in FIG. 12, digitized information is provided to explain the vogue scale to the user, and the user can write his / her current state based on the information.

Next, information indicating the user's status before and after the six-minute walking test is displayed on the display unit of the smartphone, and at the same time, the central server stores the user's information, and provides health to the user based on the information. It is characterized by providing management information.

That is, as shown in FIG. 13, the result sheet after the test-guides to the user's table and graph based on the state before and after the test and the distance tested, and allows the user to intuitively interpret the result and shares it with the medical personnel I can do it.

As shown in the figure, dyspnea, fatigue, etc. according to each number are numerically displayed, and the average of the user is also displayed on the screen in comparison with data of normal persons stored in the corresponding app.

In addition, a graph is provided so that the user can easily know his / her state, and the corresponding information is stored in the app and transmitted to a central server to be databased for each user.

Next, as shown in FIG. 14, as a screen that can be shared with a medical practitioner, the medical practitioner can manage multiple users and set a treatment plan using biosignal information such as the content of the test results, oxygen saturation, blood pressure, or the like. Can be modified.

That is, information for each user is not only stored in the corresponding app, but also transmitted to a central server and databased for each individual. Using this information, medical personnel can provide optimal health management information to the user according to each information. do.

As mentioned above, the 6-minute gait test using the above app is characterized by being a simple and easy test for evaluating the respiratory abilities of respiratory patients, and a 6-minute gait test that can be useful for evaluating respiratory disease prevention and rehabilitation effects. About Application.

Claims (5)

Smartphone with 6-minute walking test app installed;
An oxygen saturation measurement sensor installed on the smartphone, a blood pressure measurement sensor, a walking step measurement sensor, and a walking distance measurement sensor to be operated in conjunction with the 6 minute walking test app; and
Includes; a central server that can be transmitted and received user information according to the execution of the six-minute walking test app;
The smart phone and the central server are interlocked to provide the user's information before and after the execution of the six-minute walking test app to the user, and at the same time providing the user with health information based on the user's information. Health management system through the installed 6-minute walking test app. The method according to claim 1,
When running the 6-minute walking test app,
The oxygen saturation measurement sensor and the blood pressure measurement sensor are interlocked so that the user's oxygen saturation and blood pressure are displayed on the display unit of the smart phone so that the user can know the state before the 6-minute walking test. Health management system through 6-minute walking test app. The method according to claim 2,
When running the 6-minute walking test app,
Health management system through a 6-minute walking test app installed on the smartphone, characterized in that the description and precautions of the 6-minute walking test on the display portion of the smartphone. The method according to claim 3,
When running the 6-minute walking test app,
On the display unit of the smart phone, the content of the vogue scale is displayed, and a window is created through which the user can input the result according to the 6-minute walking test,
The oxygen saturation measurement sensor and the blood pressure measurement sensor are interlocked so that the user's oxygen saturation and blood pressure are displayed on the display unit of the smart phone to know the state after the user's six-minute walking test. Health management system through 6-minute walking test app. The method according to claim 4,
At the same time, information indicating the user's status before and after the six-minute walking test is displayed on the display unit of the smartphone, and the central server stores the user's information and provides health management information to the user based on the information. Characterized in that, health management system through a 6-minute walking test app installed on the smartphone.

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