KR20140080047A - Medical diagnostic system - Google Patents

Abstract

The present invention relates to a medical diagnosis system which enables a patient to measure a health status at a place and a time desired by himself/herself via a medical and therapeutic apparatus without personally visiting a hospital; and resets the medical and therapeutic apparatus according to an optimization degree detected by a server of a medical institution, thereby drastically simplifying a diagnosis procedure and concurrently enhance therapeutic efficiency.

Description

Medical diagnostic system

The present invention relates to a medical diagnosis system, and more particularly, to a medical diagnosis system, in which a medical examination and treatment can be performed at a desired time and place without requiring a patient to directly visit a medical institution, The present invention relates to a medical diagnosis system that automatically provides a service level of an environmental factor according to a health condition of a patient,

As dietary patterns and lifestyle changes, various adult diseases such as hypertension, diabetes and obesity are increasing rapidly.

Regular exercise and periodic screening are the most effective ways to prevent these diseases, but it is very troublesome to have the medical institutions directly visited by the busy modern people to receive the screenings and prescriptions.

Except for cases where the health condition of the patient is excessively worsened, such as heart disease, hypertension, hypotension, sleep apnea (snoring), the examinations for the patients who do not need precise examination and surgery are required to measure the current health status After that, it is a simple procedure to prescribe according to current health condition.

In addition, since medical devices such as pressure gauges, combinatorial stimulators, infrared ray irradiators, blood pressure gauges and blood glucose meters are widely used at home, patients can measure their own health condition through medical devices without resorting to medical institutions.

In particular, medical treatment devices such as pressure gauges, stimulators, and irradiators have a measuring function capable of measuring a patient's health condition, and a therapeutic function of improving the health condition of a patient by supplying environmental factors necessary for treating the disease This allows the patient to improve his / her health condition through the medical treatment device without directly visiting the hospital. Here, the environmental factor is any one of therapeutic agents (inanimate materials) and treatment means (objects) used for treating a specific disease. For example, in the case of a positive pressure device designed to treat certain disorders of sleep apnea and snoring, environmental factors mean oxygen supplied to the patient's inhalation and exhalation.

However, in the conventional medical treatment method using the medical treatment device, the patient uses his / her medical treatment device to measure his / her health condition, periodically visits the medical institution, and the medical person prescribes the medical condition data , And the information about the supply of environmental factors to be supplied from the medical treatment device is guided to the patient in accordance with the health condition of the patient, so that the patient has to suffer periodic hospitalization period .

In the case of patients who are inexperienced in the operation of complex medical treatment apparatuses such as elderly persons, even if the optimum information is received from the practitioner, it is impossible to set the supply level of the medical treatment apparatus according to the optimum information, It is difficult to accurately set the degree of accuracy.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a medical device which can measure a health condition at a desired time without requiring a patient to directly quit a medical institution, And to provide a medical diagnosis system that provides patient-centered services.

Further, according to another solution of the present invention, the health state information measured in the medical treatment apparatus is analyzed in an application program installed in the terminal and displayed on the monitor of the terminal in a graphic or diagram, so that the patient can check his or her health state and health state flow The present invention is intended to provide a medical diagnostic system that can be easily read and recognized without having to know the diagnosis.

Further, according to still another aspect of the present invention, health state information measured in a medical treatment apparatus is periodically transmitted to a medical institution server according to control of an application program installed in a terminal, and then optimum degree information suitable for a patient's health state is received from a medical institution server The present invention is to provide a medical diagnosis system that can automatically receive an environmental factor suitable for the patient even if the patient does not operate the medical treatment device by resetting the supply level of the medical treatment device according to the received optimal degree information.

Further, another solution of the present invention is to analyze the health state information transmitted from the medical institution server, and when the health state of the patient is included in the pre-established risk zone state where it can be determined that an immediate prescription is necessary, And the application program is intended to provide a medical diagnosis system capable of promptly responding to the health condition of the patient by displaying a guidance message guiding the patient's immediate intention to the monitor of the terminal.

According to an aspect of the present invention, there is provided an apparatus for measuring a condition of a patient, the apparatus comprising: measuring means for measuring a health condition of a patient with respect to a specific disease; setting means for setting a supply level of environmental factors supplied to the patient, And medical treatment means for supplying the environmental factor to the patient according to the degree of supply set by the setting means. A terminal connected to the medical treatment apparatus and the medical institution server through a data communication network, the terminal having a display means; Wherein the health state information is converted into any one of a graph or a graph on the basis of a predetermined conversion algorithm when receiving the health state information from the medical treatment apparatus by controlling the terminal, An application program for downloading any one to said display means; An analysis algorithm for detecting optimal information indicating an optimum level of supply of the environmental factor according to a health condition is preliminarily set and stored and if the health status information is received from the terminal, And transmits the optimal degree information corresponding to the health state information to the medical treatment apparatus through the terminal, wherein the medical treatment apparatus supplies the optimum degree information received from the medical institution server To supply the environmental factor.

In the present invention, the medical institution server preliminarily stores a risk state area, which is a region of health state data that can be determined as a state of the patient, and stores the health state information received from the medical treatment device in a normal danger state And transmits the risk detection data, which is data informing the terminal when the health status information is included in the risk status area, by the determination unit.

Further, in the present invention, it is preferable that the application program displays the guidance message produced on the display means when the risk detection data is received from the medical institution server.

Further, in the present invention, the medical treatment apparatus is a positive pressure apparatus, the health state measured in the medical treatment apparatus is the respiration pattern of the patient, the environmental factor is oxygen supplied to the patient's inhalation and exhalation, It is preferable that the pressure value of the supplied oxygen is.

Further, another solution of the present invention is characterized by comprising: measuring means for measuring a health condition of a patient with respect to a specific disease; setting means for setting a degree of supply of environmental factors supplied to the patient for treatment of the specific disease; And a treatment means for supplying the environmental factor to the patient according to a supply level set by the medical treatment device. An analysis algorithm for detecting optimal degree of information indicating an optimal supply level of the environmental factor according to a health condition is previously stored and stored, and when the health status information is received from the medical treatment device, And a medical institution server for analyzing based on the health state information and detecting optimal degree information corresponding to the health state information and transmitting the optimal degree information to the medical treatment apparatus, wherein the medical treatment apparatus sets the optimum degree information received from the medical institution server as a supply degree Thereby supplying the environmental factor.

A terminal connected to the medical treatment apparatus and the medical institution server through a data communication network, the terminal including display means; Wherein the health state information is converted into any one of a graph or a graph on the basis of a predetermined conversion algorithm when receiving the health state information from the medical treatment apparatus by controlling the terminal, And an application program for downloading any one to the display means.

In the present invention, the medical institution server preliminarily stores a risk state area, which is a region of health state data that can be determined as a state of the patient, and stores the health state information received from the medical treatment device in a normal danger state The medical treatment device transmits the danger detection data to the medical treatment device when the health state information is included in the dangerous area by the determination unit.

Further, in the present invention, the medical treatment apparatus may further include a display unit, and when the risk detection data is received from the medical institution server, the medical treatment apparatus displays a guidance message produced on the display unit.

Further, in the present invention, the medical treatment apparatus is a positive pressure apparatus, the health state measured in the medical treatment apparatus is the respiration pattern of the patient, the environmental factor is oxygen supplied to the patient's inhalation and exhalation, It is preferable that the pressure value of the supplied oxygen is.

According to the present invention having the above-mentioned problems and the solution, since the health condition can be measured by the patient himself or herself at the place and time desired by the patient without being directly in the room, the examination procedure is remarkably simplified, It is possible to provide a patient-centered service.

In addition, according to the present invention, since the degree of supply of environmental factors is optimized according to the health condition of the patient, the patient is treated appropriately for his / her health condition without any special operation.

In addition, according to the present invention, when the health condition of the patient is in a dangerous state, a prompting message is immediately displayed on the terminal or the medical treatment device, thereby enabling immediate prescription.

In addition, according to the present invention, since a patient's health condition for a specific disease is converted into a graph or a chart that is easy to browse, the patient can easily view and recognize his / her health condition and health condition flow without prescription by an expert.

1 is an exemplary diagram showing a medical diagnosis system according to an embodiment of the present invention.
Fig. 2 is a relationship diagram of Fig. 1. Fig.
3 is an explanatory diagram showing a respiration pattern applied to the positive pressure device of the present invention.
4 is a block diagram illustrating the health keeper server of FIG.
5 is a block diagram showing the health keeper program of Fig.
6 is a flowchart illustrating an operation process of the health keeper program according to the present invention.
7 is a flowchart illustrating an operation process of the health keeper server according to the present invention.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is an exemplary view showing a medical diagnosis system according to an embodiment of the present invention, and FIG. 2 is a relationship diagram of FIG. 1. FIG.

1, the medical diagnosis system 1 includes a measuring function for measuring a health condition of a patient (user) with respect to a specific disease, and an environmental factor suitable for the treatment of a specific disease, (3) which is a medical treatment device provided with a therapeutic function for treating a patient, a terminal (6) for which data communication is supported, (Hereinafter referred to as a health keeper program) 5 (hereinafter referred to as a health keeper program) for converting the received health status information into a graph or a diagram according to a predetermined graphical procedure and displaying the health status information on the monitor of the terminal 6 ), And health state information transmitted from the terminal (6) based on a predetermined analysis algorithm to detect optimal degree of information, which is a degree of supply of an environmental factor suitable for a health condition, (Hereinafter referred to as a health keeper server) 7 for transmitting data to the application program 5 via the local network 6 and a local area network 8 for supporting data communication between the positive pressure device 3 and the terminal 6, And a data communication network 9 for providing a path through which data is moved between the terminal 6 and the health keeper server 7.

Here, the environmental factor refers to a therapeutic agent (inanimate matter) or a treatment means (object) supplied to a patient in a medical treatment apparatus to treat a specific disease. For example, in the case of a positive pressure device designed to treat sleep apnea and snoring disorders, the environmental factor becomes the oxygen that is supplied to the patient's inhalation and exhalation.

In the present invention, for the sake of convenience, the medical treatment apparatus has been described as an example of a positive pressure unit 3 for treating sleep apnea and snoring, but the medical treatment apparatus is not limited to the positive pressure unit 3 , A measuring function for a specific disease, a therapeutic function for treating a specific disease, and a setting means for setting a supply level of environmental factors supplied for the treatment of a specific disease.

In the present invention, the positive pressure device 3 and the terminal 6 have been described as transmitting and receiving data through the local area network 8, but the positive pressure device 3 and the terminal device 6 are not limited to the SD card (Secure Digital Card) The data may be moved through an external memory such as a hard disk.

The pressure regulator (3) is a medical treatment device, specifically, a measuring means for measuring a patient's health condition (respiratory pattern) for a sleep apnea and a snoring disease, A setting means for setting a supply degree of an environmental factor (oxygen) to be supplied; and a treatment means for supplying an environmental factor to the patient according to the degree of supply set by the setting means. In this case, the degree of supply means the degree of environmental factor to be supplied to the patient, and the degree of supply in the pressure gauge (3) is the pressure value of oxygen (environmental factor) supplied to the patient.

In addition, the positive pressure device (3) blows air of a certain pressure to the oral cavity or nose so that the closed space generated due to the decrease of elasticity of the muscles is lifted up to facilitate air circulation, And to prevent complications of cardiovascular disease.

In addition, the positive pressure sensor 3 measures the breathing pattern in real time, including the patient's health state at the time of driving, in detail, the breathing volume of the patient's breathing and exhalation.

3 is an explanatory diagram showing a respiration pattern applied to the positive pressure device of the present invention.

3 (a) to 3 (d), the x-coordinate is formed as the time T and the y-coordinate is formed as the breathing pressure P.

FIG. 3 (a) is a graph when the inhalation and exhalation of the patient in a sleep state is a regular respiratory pattern, and FIG. 3 (b) is a graph showing the breathing pattern when breathing is insufficient while insufflation and exhalation are kept low. This is a graph showing the breathing pattern.

Fig. 3 (c) is a graph showing a breathing pattern when the inspiration and exhalation are irregular. Fig. 3 (d) is a graph showing the respiration pattern when the inspiration is divided into a plurality of times Graph.

At this time, the point at which the highest pressure is shown in the graph is the pressure at the time of inhalation, and the point at which the lowest pressure is indicated is the pressure at the time of exhalation.

Thus, the respiratory pattern varies according to the patient's inhalation and exhalation. Specifically, the respiratory pattern has various characteristics depending on the central obsessive-compulsive disorder, obstructive apnea, mixed breathlessness, hypopnea, and airway constriction.

The pressure gauge 3 transmits the measured respiration pattern information to the health keeper server 7 through the terminal 6 when receiving data from the terminal 6 under the control of the health keeper program 5. [ At this time, the health keeper server 7 detects the optimal degree of the environmental factor (oxygen supply amount) to be supplied to the patient according to the received breathing pattern information.

When the positive pressure device 3 receives the environmental factor information from the health keeper server 7 via the terminal 6, the setting means re-sets the amount of oxygen supplied to the inspiration and exhalation according to the optimum degree information transmitted thereto, do.

The terminal 6 includes a display unit such as a monitor and includes a wired communication module or a wireless communication module. The terminal 6 includes a desktop computer, a notebook computer, a PDA (Personal Digital Assistant), a smart phone, .

The health keeper program 5 is installed in the terminal 6 and controls the terminal 6 at the time of driving so as to periodically request data to the positive pressure device 3. The health keeper program 5 receives the breathing pattern information, Receive.

The health keeper program 5 also includes a user interface created in accordance with a predetermined graphical procedure and a vibration value of the respiration at the time of exhalation and exhalation based on the received breathing pattern information, And a preset data conversion algorithm for converting the analysis values analyzed by the received breathing pattern information and the analysis algorithm into either a graph or a diagram.

At this time, the user interface can download the graph or the diagram of the data calculated through the analysis algorithm and the data conversion algorithm to the monitor of the terminal 6, so that the patient can easily recognize and read his / her health condition (breathing pattern).

In addition, the health keeper program 5 is a program for acquiring optimal degree information, which is an optimal supply level of environmental factors to be supplied according to a breathing pattern of a clinician, from the health keeper server 7, (3), the degree of supply of the environmental factor is set according to the optimum degree information in the subsequent positive pressure device (3), so that the patient can adjust his breathing pattern Oxygen is supplied at a suitable pressure.

The health keeper server 7 is a computer installed in a medical institution.

In addition, the health keeper server 7 analyzes the individual pattern data such as vibration (tremor) value, pressure value, bending phenomenon, etc. of respiration at the time of inspiration and exhalation based on the respiration pattern information transmitted from the terminal 6 When the analysis algorithm is stored and the respiration pattern information is received from the terminal 6, the respiration pattern information is analyzed based on the second analysis algorithm to detect individual pattern data.

In addition, the health keeper server 7 stores an environmental factor reference table in which optimum optimal data matching each individual pattern data is matched and stored.

That is, when the individual pattern data is detected by the second analysis algorithm, the health keeper server 7 detects the optimum degree information corresponding to the individual pattern data detected based on the stored reference table, To the health keeper program 5 via the Internet.

If the breathing pattern analysis is included in the risk pattern area, which is a respiratory pattern that can be determined as a state requiring urgent prescription, the healthcare keeper server 7 immediately informs the manager of the breathing pattern analysis, The risk detection data indicating the content is transmitted to the monitor of the terminal 6 or the display means of the positive pressure device 3 to display an instruction message for guiding the accurate examination of the inside of the medical institution or the specialist.

The data communication network 9 provides a connection path through which data is transmitted and received between the terminal 6 and the health keeper servers 7 and is connected to a wired or wireless network such as a local area network (LAN), a wide area network (WAN) Network or the like.

Although it has been described that the data communication network 9 and the local area network 8 are distinguished from each other in the present invention, the data communication network 9 and the local area network 8 can be applied to the same communication network .

4 is a block diagram illustrating the health keeper server of FIG.

The health keeper server 7 of FIG. 4 includes a database 72 for storing data, a communication interface 73 for transmitting and receiving data to and from the terminal 6 via the data communication network 9, A data analyzing unit 75 for analyzing respiration pattern information transmitted through the data analyzing unit 73 and detecting individual pattern data, and a data analyzing unit 75 for analyzing the individual pattern data detected by the data analyzing unit 75, A data processing unit 78 for detecting optimum degree information corresponding to the individual pattern data analyzed by the data analysis unit 75, a program for managing and operating the health keeper program, And a control unit 71 for controlling the control objects 72, 73, 75, 77, 78,

The control unit 71 is an OS (Operating System) of the health keeper server 7 and controls and manages the controlled objects 72, 73, 75, 77, 78 and 79.

The control unit 71 receives the breathing pattern information from the terminal 6 through the communication interface unit 73 and stores the received breathing pattern information in the database unit 72 and inputs the information to the data analysis unit 75.

The control unit 71 also inputs the detected individual pattern data to the determination unit 77 and the data processing unit 78 when the individual pattern data is detected by the data analysis unit 75.

The control unit 71 transmits the danger detection data to the health keeper program 5 of the corresponding terminal 6 when the determination unit 77 determines that the patient's health state requires an immediate prescription.

The database unit 72 stores the respiration pattern information transmitted thereto, the individual pattern data detected by the data analysis unit 75, the environmental factor reference table in which the optimum degree information for each individual pattern is matched, And a predetermined second analysis algorithm for detecting as star data is stored.

At this time, the environmental factor reference table is data in which the optimal degree information according to the detected values of the respiration amount, tremor phenomenon, and inflection phenomenon of the individual pattern data, such as inhalation and exhalation, is matched. .

In addition, the database unit 73 stores user interfaces created in accordance with a predetermined graphic procedure, and membership information and personal information of the health keeper program.

In addition, in the database unit 73, when the determination unit 77 generates the danger detection data, the contact information for the manager to be connected is stored.

When the respiration pattern information is inputted, the data analyzing unit 75 analyzes the respiration pattern information inputted based on the second analysis algorithm stored in the database unit 72 and detects the respiration pattern information as individual pattern-based data. At this time, the data for each individual pattern is defined as the detected values of respiratory volume, tremor phenomenon and inflection phenomenon of inspiration and expiration.

The data for each individual pattern detected by the data analysis unit 75 is input to the data processing unit 78 under the control of the control unit 71. [

The data processing unit 75 detects optimum degree information matching the individual pattern-based data inputted based on the environmental factor reference table stored in the database unit 72 when the data for each pattern is inputted. The detected optimal degree information is transmitted to the health keeper program 5 of the terminal 6 via the communication interface 73 under the control of the control unit 71. [

At this time, in the present invention, the data processor 78 detects the optimum degree of information based on the environmental factor reference table matched with the optimum degree information for each pattern, for example, but the data processor 78 detects the optimum degree information The method is not limited thereto, and various algorithms can be applied.

The health keeper server 7 configured as described above detects the optimum degree information corresponding to the patient's respiratory pattern information transmitted from the terminal 6 by the data processing unit 78 so that the patient does not have to speak directly to the medical institution, And the like.

5 is a block diagram showing the health keeper program of Fig.

The health keeper program 5 includes a memory 52 for storing data as shown in Fig. 5, a communication interface module 53 for supporting data communication, and a positive pressure controller 3 via a communication interface module 53. [ And a data search module 54 for analyzing breathing pattern information based on a predetermined analysis algorithm when the breathing pattern information is searched by the data search module 54. [ A data conversion module 56 for converting the individual pattern data detected by the data detection module 55 into a graph or a table according to a predetermined data conversion algorithm, An interface management module 57 for managing and controlling user interfaces, and a display module 55 for displaying a user interface on the monitor of the terminal 6 It consists of 58, and these control target 52, 53, 54, 55, 56, 57, 58, control module 51 for controlling.

The control module 51 periodically controls the data search module 54 to allow the data search module 54 to search whether the data is received from the positive pressure device 3. [

When the data is searched by the data search module 54, the control module 51 inputs the searched breath pattern information to the data detection module 55.

Also, the control module 51 inputs the individual pattern-specific data detected by the data detection module 55 to the data conversion module 56.

In addition, when the control module 51 receives the danger detection data from the health keeper server 7, the control module 51 controls the display module 58 so that the stored guidance message is displayed on the monitor.

The memory 52 stores a predetermined second analysis algorithm for analyzing respiratory pattern information and detecting the respiration pattern information as individual pattern-specific data, and a data conversion algorithm for converting individual pattern-specific data into a graph or a chart.

The data detection module 55 analyzes the respiration pattern information detected by the data search module 54 and detects data of individual patterns of the respiration patterns transmitted. At this time, the data of the individual patterns are the data showing the breathing amount of inhale and exhalation, breathing tremor of inspiration and exhalation, inflating and exhalation.

6 is a flowchart illustrating an operation process of the health keeper program according to the present invention.

6, the operation of the health keeper program 5 includes a driving step S110 in which the health keeper program 5 is driven in the terminal 6 and a driving step S110 in which the respiratory pattern information is received from the positive pressure device 3 A detecting step S130 of detecting data of individual patterns of breathing pattern information received by the data detecting module 55 through the receiving step S120; A display step S150 of displaying on the monitor a user interface including a graphic or a diagram changed through the conversion step S140, a receiving step S120 A respiration pattern transmission step S160 for transmitting the breathing pattern information transmitted from the positive pressure device 3 to the health keeper server 7 after the breathing pattern information is transmitted from the health keeper server 7 to the health keeper server 7, Receiving step S170, An optimum degree of accuracy transmission step S180 for transmitting the optimum degree information transmitted through the optimum degree reception step S170 to the positive pressure device 3 and a danger level detection step S160 after the transmission step S160, A step S200 of displaying a guiding phrase on the monitor when the risk sensing data is received through the risk sensing receiving step S190 and the risk sensing receiving step S190 that have received the data.

7 is a flowchart illustrating an operation process of the health keeper server according to the present invention.

7, the health keeper server 7 receives a breathing pattern information (S210) and a breathing pattern receiving step (S210), which receive breathing pattern information from the health keeper program 5 through the terminal 6 A data detection step S220 of analyzing the respiration pattern information received through the second analysis algorithm based on a predetermined second analysis algorithm to detect data of each pattern; and a data detection step S220 of detecting data of individual patterns detected by the data detection step S220 (S230) of judging whether the breathing pattern information is included in the dangerous state area, and a danger detection transmission process of transmitting the danger sensing data to the health keeper program (5) when the breathing pattern information is included in the dangerous state area in the judgment step (S230) If the breathing pattern information is not included in the dangerous state area in the step S240 and the determining step S230, the breathing pattern information is processed based on the environmental factor reference table stored in the database unit 72, A data processing step S250 of detecting optimum degree information corresponding to the respiration pattern information received through the receiving step S210, and a data processing step S250 of detecting optimal degree information detected through the data processing step S250 as a health keeper program 5 (Step S260).

As described above, the medical diagnosis system 1 according to an embodiment of the present invention is provided with a treatment environment suitable for the respiration pattern of the patient even if the patient does not earthquake, so that the treatment is simple and the treatment prescription is immediately made .

In addition, the medical diagnosis system 1 is connected to the health keeper server only by driving the terminal even if there is no IT and computer knowledge, and receives the optimal degree information after the respiration pattern information of the patient is transmitted, The supply degree is re-set according to the optimum degree information, so that it is convenient to use.

In addition, the medical diagnosis system 1 can be configured such that the health keeper program 5 converts the respiration pattern measured by the positive pressure device 3 into a graphic or a graphic and displays it on a monitor so that the patient can efficiently recognize his / do.

1: medical diagnosis system 3: positive pressure machine 5: health keeper program
7: health keeper server 8: local area network 9: data communication network
51: control module 52: memory
53: Communication interface module 54: Data search module
55: Data detection module 56: Data conversion module
57: interface management module 58: display module
71: control section 72: database section 73: communication interface section
75: Data analysis unit 77: Judgment unit 78: Data processing unit
79: Program management section

Claims (9)

A setting means for setting a supply level of an environmental factor to be supplied to the patient for the treatment of the specific disease; A medical treatment device including treatment means for supplying an environmental factor to the patient;
A terminal connected to the medical treatment apparatus and the medical institution server through a data communication network, the terminal having a display means;
Wherein the health state information is converted into any one of a graph or a graph on the basis of a predetermined conversion algorithm when receiving the health state information from the medical treatment apparatus by controlling the terminal, An application program for downloading any one to said display means;
An analysis algorithm for detecting optimal information indicating an optimal supply level of the environmental factor according to a health state is preliminarily stored and stored. When the health state information is received from the terminal, the health state information transmitted based on the analysis algorithm And a medical institution server that detects optimal degree information corresponding to the health state information and transmits the information to the medical treatment device through the terminal,
Wherein the medical treatment apparatus supplies the environmental factor by setting the optimum degree information received from the medical institution server as a supply level. The system according to claim 1, wherein the medical institution server
Wherein the health state information includes a risk state area that is a region of health state data in which the state of the patient is determined to be dangerous and stores the health state data in a predetermined state, And transmits the risk detection data indicating that the state of the patient is in a dangerous state to the terminal when the health state information is included in the dangerous state region by the determination unit. The medical diagnosis system according to claim 2, wherein the application program displays a guidance message produced on the display means when the risk detection data is received from the medical institution server. The medical treatment device according to any one of claims 1 to 3, wherein the medical treatment device is a positive pressure device,
Wherein the health state measured by the medical treatment apparatus is a respiration pattern of the patient,
Wherein the environmental factor is oxygen supplied to inhale and exhalation of the patient, and the supply degree is a pressure value of the supplied oxygen. A setting means for setting a supply level of an environmental factor to be supplied to the patient for the treatment of the specific disease; A medical treatment device including treatment means for supplying an environmental factor to the patient;
An analysis algorithm for detecting optimal degree of information indicating an optimal supply level of the environmental factor according to a health condition is previously stored and stored, and when the health status information is received from the medical treatment device, And a medical institution server for detecting optimal degree information corresponding to the health state information and transmitting the information to the medical treatment apparatus,
Wherein the medical treatment apparatus supplies the environmental factor by setting the optimum degree information received from the medical institution server as a supply level. The medical treatment device according to claim 5, further comprising: a terminal having a display unit and connected to the medical treatment apparatus and the medical institution server through a data communication network;
Wherein the health state information is converted into any one of a graph or a graph on the basis of a predetermined conversion algorithm when receiving the health state information from the medical treatment apparatus by controlling the terminal, Further comprising an application program for downloading any one of the plurality of medical images to the display means. The system according to claim 6, wherein the medical institution server
Wherein the health state information includes a risk state area that is a region of health state data that can be determined as a dangerous state of the patient and stores the health state data in the risk state region, And transmits the risk detection data indicating that the state of the patient is in a dangerous state to the medical treatment apparatus when the health state information is included in the dangerous state region by the determination unit. The medical diagnosis system according to claim 7, wherein the medical treatment apparatus further includes a display unit, and displays the guidance message produced on the display unit when the risk detection data is received from the medical institution server. The medical treatment device according to any one of claims 5 to 8, wherein the medical treatment device is a positive pressure device,
Wherein the health state measured by the medical treatment apparatus is a respiration pattern of the patient,
Wherein the environmental factor is oxygen supplied to inhale and exhalation of the patient, and the supply degree is a pressure value of the supplied oxygen.

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