JPH11178801A - Biological risk management adapter device and biological risk management method using mobile phone as medium using the device - Google Patents

Abstract

(57) [Summary] [PROBLEMS] The conventional adapter for biological risk management has fixed measurement items, so it is necessary to respond to the demands of the times, such as adding measurement items and improving the level of more advanced measurements. There was a problem that it was difficult. SOLUTION: Body device 1 for living body risk management
0 and various optional measuring instruments.
Reference numeral 0 denotes an electrocardiogram / heart rate measuring unit 1, a display unit 2, a data processing unit 3, an external input terminal 4 for connecting a measuring device, a modem unit 5, a digital output terminal 6, and an analog output terminal 7. Classes are probes 39-119 for each output.
, A KSG blood pressure measuring device 30, a body temperature measuring device 50, an arterial blood oxygen saturation measuring device 70, a urine component measuring device 90, and an occult blood reaction measuring device 110 having A healthy person or a home care worker can select and measure an arbitrary measurement item, transmit it to a medical institution using a mobile phone as a medium, and receive a medical examination by a specialist.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a biorisk management adapter which can be measured by a healthy person or a home care worker by a medical or health care professional so that the health risk of a healthy person or a home care worker can be properly managed. The present invention relates to a biorisk management adapter device capable of transmitting measured biometric data to a host such as a medical institution or a health care center using a mobile phone as a medium, and a biorisk management method using a mobile phone as a medium using the device.

[0002]

2. Description of the Related Art With the aging society, the need for home medical care is increasing more and more. Conventionally, a person or a nurse measures body temperature, electrocardiogram, heart rate, blood pressure, etc. of a healthy person or a home care worker using a measuring instrument, and the biological data of the measurement result is stored in a telephone set at the person's home. Was sent to a host such as a medical institution or a healthcare center via a telephone line. On the receiving host side, medical and health care professionals manage the biological risks of healthy individuals and home care recipients.

[0003] In biological risk management using a telephone, a healthy person who needs biological risk management for maintaining health or a home care worker who needs biological risk management for proper treatment by accurately grasping symptoms is required. However, there are physical restrictions on the measurement place and the transmission place, so that measurement is not easy, recording and storage of biometric data are complicated, and transmission operation of biometric data to the host is difficult.

[0004] In order to improve these, the present applicant has filed an application for Japanese Patent Application No. 7-350154 (adapter for biorisk management and a biorisk management method using a mobile phone as a medium using the adapter). In other words, the measurement can be easily performed by a healthy person or a home care worker without restrictions on the measurement location because of its excellent portability. It can be easily transmitted to a host such as a medical institution or a healthcare center using a mobile phone that is not available as a medium, so that medical and healthcare specialists can appropriately manage biological risks.

[0005]

However, the conventional adapter for managing a biological risk is a conventional adapter for healthy persons.
Type of biological risk management adapter and type B of biological risk management adapter intended for home remedies, and the measurement items and measurement methods were fixed.
In addition, there has been a problem that it is difficult to respond to the demands of an era when additional measurement items and more accurate measurements are required.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and is a small, lightweight, and highly portable biorisk management system which can be easily and accurately measured by healthy persons and home care workers. Provides an adapter device, and can easily transmit biometric data measured by healthy individuals and home caregivers to a host such as a medical institution or health care center using a mobile phone as a medium. It is an object of the present invention to provide a biorisk management method using a mobile phone as a medium by using a biorisk management adapter device which enables the user to receive a proper biorisk management.

[0007]

[Means for Solving the Problems] Healthy persons and home care workers
The required items are measured using an optional KSG blood pressure meter, body temperature meter, arterial blood oxygen saturation meter, urine component meter, occult blood reaction meter, and the like. The measured biometric data is stored in the holding memory of each measuring device. The electrocardiogram and heart rate are measured using the body risk management adapter device body, and the measured biometric data is stored in the holding memory of the data processing unit that has the function of automatically selecting, recognizing and reading the body risk management adapter device body. Is done. The main body of the biometric risk management adapter device has a repeater function of inputting the biometric data measured from each of the measuring devices and outputting the biometric data to the mobile phone. When transmitting the measured biometric data to the host, the main body of the biometric risk management adapter device is connected to a mobile phone and transmitted via a mobile phone line. In other words, the measured biometric data is given to the attending physician, the health management center and other places as pre-diagnosis information, and appropriate instructions and treatments from the physician are received in a timely manner to promptly respond to sudden changes in biologic risks. Can be done.

[0008]

DESCRIPTION OF THE PREFERRED EMBODIMENTS In order to solve the above-mentioned problem, an adapter device for managing a biological risk according to the present invention comprises an adapter device body 10 for managing a biological risk and various optional measuring devices, The apparatus main body 10 includes an electrocardiogram / heartbeat measuring unit 1 for measuring an electrocardiogram / heartbeat.
And a display unit 2 for displaying an operation state, a data processing unit 3 having a function of automatically selecting, recognizing and reading measurement results of various options, and processing the data, and a measuring device for the various options. An external input terminal 4, a modem unit 5 for transmitting and receiving data, a digital output terminal 6 for digital, and an analog output terminal 7 for analog
The measuring device of the various options is a KSG having a probe 39 for outputting measured biological data.
A blood pressure measuring device 30, a body temperature measuring device 50 having a probe 59 for outputting measured biological data, an arterial blood oxygen saturation measuring device 70 having a probe 79 for outputting measured biological data, Probe for output 9
9 and a occult blood reaction meter 110 having a probe 119 for outputting measured biological data
It is characterized in that it can be measured by a healthy person or a home care worker and various measured biometric data can be transmitted to a medical institution using a mobile phone as a medium.

A biorisk management method using a mobile phone as a medium using a biorisk management adapter device according to the present invention is intended for a healthy person or a home care worker to use a biorisk management adapter device to transfer biometric data to a mobile phone as a medium. A mobile phone using a biometric risk management adapter device that transmits biometric data to a host such as a medical institution or health management center and performs biometric risk management by a medical or healthcare professional based on the biometric data on the receiving side. In the biorisk management method described above, a healthy person or a home caregiver measures a required item using the biorisk management adapter device body 10 or a corresponding optional measuring device, and measures the biometric data measured with the various optional measuring devices. Is transferred to the body risk management adapter device body 10 and the body risk management adapter device body 10 is Dial by connecting the band phone has a feature to transmit various biometric data stored in the biological risk management adapter apparatus body 10 to the host. In addition, the automatic analysis software for biometric data prepared on the host side instantly determines whether the data is within the allowable range or out of the allowable range, and sends it back to the healthy person or home care person, and an adapter device for biorisk management A biological risk management method having a feature of displaying a state on a display unit.

[0010]

An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a system configuration diagram of a living body risk management adapter device according to the present invention. The body risk management adapter device is a body risk management adapter device body 10.
And various optional measuring instruments. The biological risk management adapter device main body 10 includes an electrocardiogram / heart rate measurement unit 1 for measuring electrocardiogram / heart rate, a display unit 2 for displaying an operation state, a data processing unit 3 for processing data, and measurement of various options. An external input terminal 4 for connecting a device, a modem unit 5 for accessing a communication network to transmit and receive data, and a digital output terminal 6 for digital.
And an analog output terminal 7 for analog.

Various optional measuring devices include a KSG blood pressure measuring device 30 having a probe 39 for outputting measured biological data, and a probe 59 for outputting measured biological data.
Blood temperature measuring device 50 having a probe 79 for outputting measured biological data and an arterial blood oxygen saturation measuring device 70 having a probe 79 for outputting measured biological data
And a urine component measuring device 90 having a probe 99 for outputting measured biological data, and an occult blood reaction measuring device 110 having a probe 119 for outputting measured biological data.

Body 10 for living body risk management
Has a repeater function and a repeater function for communication from the electrocardiogram / heart rate measuring unit 1 and various optional measuring instruments. By connecting the probe of various optional measuring instruments to the external input terminal 4, various optional measuring instruments can be measured. It automatically sorts and recognizes the measurement data of the device, reads it, stores it once, and sends it to the mobile phone. That is, any measurement item can be selected from the KSG blood pressure meter 30, the body temperature meter 50, the arterial blood oxygen saturation meter 70, the urine component meter 90, and the occult blood reaction meter 110 to measure. Therefore, it is easy to add measurement items and introduce higher-performance measuring instruments as technology advances.
Convenience is further improved.

According to the demographic statistics (Ministry of Health and Welfare), the mortality rate by major cause of death has been surpassed by cerebrovascular disease since 1985, and heart disease has risen to the second leading cause of death. Is shown. The fear of heart disease is that even if there is no warning or subjective symptoms, if the symptoms subside, they will be overlooked and suddenly become serious one day. If you follow the proper instructions of your doctor by responding immediately and without missing vital signs from your body, you can protect yourself from sudden death. Occasionally, the patient may complain of an abnormal heartbeat or chest pain, and may not have any abnormalities in the electrocardiogram even if an electrocardiogram is taken at the clinic. In such a case, the biological risk management adapter device according to the present invention can record an electrocardiogram simply by touching the main body to a healthy person or a home medical care provider at any time and anywhere when an abnormal condition is felt. Can be connected to a mobile phone and immediately transmitted to the attending physician.

The electrocardiogram at the time of an attack is very important for the attending physician in accurately grasping the treatment policy. You can transmit the most recent data when you feel it. In the case of high urgency, the doctor's instructions can be received through a mobile phone. In healthy people,
It can be used casually as a tool for health management and is useful for managing your own biological trends. Furthermore, if the attending physician instructs a healthy person or a home care recipient in advance about the measurement position, it is possible to detect a fatal arrhythmia such as ventricular extrasystole, ventricular tachycardia, or ventricular fibrillation.

[0015] With the aging society, the need for home medical care is increasing, and by expanding applications such as blood pressure and oxygen saturation as well as the application of vital signs of body temperature and electrocardiogram, Future development is expected as a support system for In addition, by introducing this system, the gap that occurs between patients and caregivers and medical institutions,
As a means of mutual communication in order to create active health from the viewpoint of holistic medical practice, appropriate instructions and care from doctors can be provided to reduce the concerns and burden of patients and caregivers. it can.

FIG. 2 is a block diagram of the main body of the adapter device according to the present invention. By the operation switch 11, the electrocardiogram / heartbeat data signal measured by the electrocardiogram / heartbeat measurement electrode unit 21 is amplified to a fixed width by the automatic gain control circuit AGC24 through the differential amplifying circuit 22 and the filter 23, and A / D Converter 14
Is converted from an analog signal to a digital signal. This digital signal is stored as biometric data in the data holding memory 15 under the control of the microcomputer 12,
It is displayed on the D display unit 16. The biometric data stored in the data holding memory 15 is read out and read through the modem 25, the analog interface 26, or the modem 25,
It is sent to the outside via the digital interface 27.
The data input / output circuit 13 is a signal input / output connection section from various optional measuring instruments.

FIG. 3 is a block diagram of a KSG blood pressure monitor according to the present invention. The power switch 38 is turned on by the operation switch 31 and the compressor 42
Presses the cuff 41 through which the arm passes. Blood pressure is pressure sensor 4
7 is received by the signal conversion circuit 44. Signal conversion circuit 44
The electric signal converted by the above is amplified by the signal amplification circuit 45 and output to the K sound recognition circuit 46. The K sound recognition circuit 46 recognizes Korotkoff sounds based on information from the signal amplifying circuit 45 and the pressure sensor 47, and outputs the A / D converter 34
Is converted from an analog signal to a digital signal. This digital signal is stored as biometric data in the data holding memory 35 under the control of the microcomputer 32,
It is displayed on the D display unit 36. The biological data stored in the data holding memory 35 is read out, and the external input / output circuit 37
Is output to the body risk management adapter device body 10 via the.

FIG. 4 is an explanatory diagram of a measurement pattern in KSG (Korotokov Sound Graph) blood pressure measurement.
The normal arterial cross-sectional view in the upper part of the figure clearly shows a state in which blood is sent to the periphery while repeating expansion and contraction by a pulse wave. The middle stage is KSG type 7, which is a pattern formed by computer processing of the measured distribution of arterial pressure. By analyzing not only the systolic blood pressure and the diastolic blood pressure but also the content of the blood pressure, "quality of blood pressure", more detailed conditions such as arterial wall properties and peripheral vascular resistance can be measured. The lower part shows a reference for diagnosis based on patterns. The miniaturization of such high-performance medical measurement equipment to enhance convenience and make it available to ordinary healthy persons and home caregivers will bring tremendous progress in home medical care and pre-diagnosis management.

FIG. 5 is a block diagram of a body temperature measuring device according to the present invention. The power switch 58 is turned on by the operation switch 51. The voltage converted to a constant voltage by the constant voltage circuit 61 is applied to the temperature measuring unit 62. The non-linear measurement data from the temperature measuring unit 62 is linearly amplified by the linearize circuit 63,
The signal is converted by the signal conversion circuit 64 and is converted from an analog signal to a digital signal by the A / D converter 54. Under the control of the microcomputer 52, this digital signal is stored in the data holding memory 55 as biological data,
It is displayed on the display unit 56. The biological data stored in the data holding memory 55 is read out and output to the biological risk management adapter device body 10 via the external input / output circuit 57.

FIG. 6 is a block diagram of an arterial blood oxygen saturation meter according to the present invention. LE is operated by the operation switch 71.
The D drive circuit 82 drives the LED 81 and the photo sensor 8
4 receives the emitted light from the LED 81 through the finger,
The measurement data signal of the oxygen saturation due to the light reception is detected by a signal detection circuit 85, subjected to noise processing by a noise processing circuit 86, amplified by a signal amplification circuit 87, and converted from an analog signal to a digital signal by an A / D converter 74. Is converted. Under the control of the microcomputer 72, this digital signal is stored as biometric data in the data holding memory 75,
It is displayed on the LCD display section 76. Data holding memory 75
The biological data stored in the biometric risk management adapter device 1 is read out via the external input / output circuit 77.
Output to 0. The signal synchronization circuit 83 includes a signal detection circuit 85
And the light emission of the LED 81 is synchronized.

FIG. 7 is a block diagram of a urine component measuring device according to the present invention. The power switch 101 is turned on by the operation switch 91. The urine component is detected from the output of the sensor 102 by the detection circuit 103, converted into a signal by the signal conversion circuit 104, and converted from an analog signal to a digital signal by the A / D converter 94. This digital signal is stored as biometric data in the data holding memory 95 under the control of the microcomputer 92, and is displayed on the LCD display unit 96. The biological data stored in the data holding memory 95 is read out and output to the biological risk management adapter device body 10 via the external input / output circuit 97. Printer 105
Prints out the measurement data.

FIG. 8 is a block diagram of an occult blood reaction measuring device according to the present invention. The power switch 12 is operated by the operation switch 111.
1 turns ON. Occult blood is detected from the output of the sensor 122 by the detection circuit 123, converted into a signal by the signal conversion circuit 124, and converted from an analog signal to a digital signal by the A / D converter 114. This digital signal is stored as biometric data in the data holding memory 115 under the control of the microcomputer 112, and is displayed on the LCD display unit 116. The biological data stored in the data holding memory 115 is read out and output to the biological risk management adapter device body 10 via the external input / output circuit 117.

FIG. 9 is a flowchart showing a biological risk management method according to the present invention. In the figure, the number given to the symbol S is a step number. [S1] The living body risk management adapter device main body 10 detects that a probe of a measuring instrument is connected to the external input terminal 4. [S2] The body risk management adapter device body 10 identifies which measuring device is connected. [S3] The biometric risk management adapter device body 10 inputs biometric data from the corresponding measuring instrument via the data input / output circuit 13. [S4] The biometric risk management adapter device body 10 automatically selects and recognizes the input biometric data, reads the biometric data, and stores the data in the data holding memory 15. [S5] Subsequently, it is checked whether or not there is a measuring instrument to be connected. If there is, go back to S1 and go to S6. The presence or absence of the connected measuring instrument may be determined to be “absent” when there is no connection within a predetermined time or when the process proceeds to the next step.

[S6] It is checked whether the adapter 10 for living body risk management is connected to the mobile phone via the analog interface 26 / digital interface 27 and dialed. If the dial has been made, the process proceeds to S7, and if not, the process ends. [S7] The biometric data stored in the data holding memory 15 of the biometric risk management adapter device main body 10 is read, and the data is read out from a medical institution or a health care center using a mobile phone as a medium via the analog interface 26 / digital interface 27. Send to host. [S8] It is checked whether the transmission is OK. If OK, the process ends. If not, the process returns to S7. It is to be noted that a healthy person or a home medical care recipient can receive a message based on a result of a preliminary examination by a doctor on the host side, and can promptly receive an appropriate diagnosis and treatment by a specialist.

FIG. 10 is a diagram showing a system configuration for implementing the biological risk management method according to the present invention. The healthy person or the home care recipient sends the biometric data measured by the various optional measuring devices 131 from the mobile phone 132 to the host via the interface of the biometric risk management adapter device body 10. The transmission is performed by the mobile communication base station 13.
3, via the exchange 134 and a modem 134 that communicates with each route via a toll telephone line to a personal computer 135 that performs personal computer communication on the host side. Mobile phone 1
Reference numeral 32 also enables communication by facsimile and personal computer, and allows the biometric risk management adapter device body 10 to send biometric data to an existing network while moving. By moving using a mobile phone as a medium, there is no need for wiring, no restrictions on location, and no inconvenience. For example, it is possible to transmit anytime and anywhere, and at the same time, a person holding the mobile phone 132 can be instructed by the doctor in reverse.

The processing program in the software 136 is a program on a computer that performs processing for individually managing the sent biological data signals such as electrocardiogram, pulse, and body temperature. The software 136 includes basic software and application software. In the area of the basic software, information such as body temperature, electrocardiogram, and heart rate is classified so that data can be displayed on a personal computer. For example, how to use the basic data properly is an area of the application, and must be replaced with an element that can be determined by a doctor, nurse, instructor, and the like. For example, name, age, address, body temperature, pulse, electrocardiogram are managed on the screen, and monthly data, weekly data, etc. are displayed as graphs and waveforms in a management table as trend management. Is stored in a memory. The application software includes analysis software for each measurement item, and the host uses these analysis software in the computer 135. The doctor can add the analysis comment as pre-diagnosis information, and can perform a quick and accurate pre-diagnosis.

[0027]

As described above, the adapter device for managing biological risk according to the present invention comprises the adapter device for managing biological risk 10 and various optional measuring instruments, and the adapter device 10 for managing biological risk.
Is an electrocardiogram / heartbeat measuring unit 1 for measuring electrocardiogram / heartbeat, a display unit 2 for displaying an operation state, a data processing unit 3 for processing data, and an external input terminal for connecting the measuring device of the various options. 4, a modem unit 5 for transmitting and receiving data, a digital output terminal 6 for digital, and an analog output terminal 7 for analog. KSG blood pressure meter 30 having an output probe 39, body temperature meter 50 having a probe 59 for outputting measured biological data, and arterial blood oxygen saturation meter having a probe 79 for outputting measured biological data. And a urine component measuring device 90 having a probe 99 for outputting measured biological data
And an occult blood reaction measuring device 110 having a probe 119 for outputting the measured biometric data, which is measured by a healthy person or a home caregiver and transmitted to a medical institution using a mobile phone as a medium. In addition, the biorisk management method using a mobile phone as a medium by using the biorisk management adapter device according to the present invention enables a healthy person or a home care recipient to perform a necessary item inspection on the biorisk management adapter device body 10 or The biometric data measured by the optional measuring device to be measured is transferred to the biologic risk management adapter device main body 10, and the biometric risk management adapter device main body 10 is connected to a mobile phone and dialed. Since various types of biometric data stored in the biometric risk management adapter device body 10 are transmitted to the host, A healthy person or a home care recipient examines the measured biometric data of himself / herself and easily transmits the measured biometric data to a host such as a medical institution or a health care center by using a mobile phone to provide medical and health care management. Experts can appropriately manage biological risks, help to actively create health and, as a result, greatly contribute to curbing expensive medical expenses.

[Brief description of the drawings]

FIG. 1 is a system configuration diagram of a living body risk management adapter device according to the present invention.

FIG. 2 is a block diagram of a body risk management adapter device main body according to the present invention.

FIG. 3 is a block diagram of a KSG blood pressure monitor according to the present invention.

FIG. 4 is an explanatory diagram of a measurement pattern in KSG blood pressure measurement.

FIG. 5 is a block diagram of a body temperature measuring device according to the present invention.

FIG. 6 is a block diagram of an arterial blood oxygen saturation meter according to the present invention.

FIG. 7 is a block diagram of a urine component measuring device according to the present invention.

FIG. 8 is a block diagram of an occult blood reaction measuring device according to the present invention.

FIG. 9 is a flowchart illustrating a biological risk management method according to the present invention.

FIG. 10 is a diagram showing a system configuration for implementing a biological risk management method according to the present invention.

[Explanation of symbols]

REFERENCE SIGNS LIST 1 electrocardiogram / heart rate measuring unit 2 display unit 3 data processing unit 4 external input terminal 5 modem unit 6 digital output terminal 7 analog output terminal 10 biometric risk management adapter device main body 11, 31, 51, 71, 91, 111 operation switch 12, 32, 52, 72, 92, 112 Microcomputer 13 Data input / output circuit 14, 34, 54, 74, 94, 114 A / D converter 15, 35, 55, 75, 95, 115 Data holding memory 16, 36, 56, 76, 96, 116 LCD display unit 21 Electrocardiogram / heartbeat measurement electrode unit 22 Differential amplifier circuit 23 Filter 24 AGC 25 Modem 26 Analog interface 27 Digital interface 30 KSG blood pressure monitor 37, 57, 77, 97, 117 External input / output circuit 38 Power supply 39, 59.79, 99, 11 Probe 41 Cuff 42 Compressor 43 Timer 44 Signal conversion circuit 45 Signal amplification circuit 46 K sound recognition circuit 47 Pressure sensor 50 Body temperature measurement device 58 Power supply 61 Constant voltage circuit 62 Temperature measurement unit 63 Linearization circuit 64 Signal conversion circuit 70 Arterial blood oxygen saturation Measuring device 81 LED 82 LED drive circuit 83 Signal synchronization circuit 84 Photosensor 85 Signal detection circuit 86 Noise processing circuit 87 Signal amplification circuit 90 Urine component measurement device 101 Power supply circuit 102 Sensor 103 Detection circuit 104 Signal conversion circuit 105 Printer 110 Occult blood reaction measurement Instrument 121 Power supply circuit 122 Sensor 123 Detection circuit 124 Signal conversion circuit 131 Inspection / measurement instrument 132 Cellular phone 133 Base station 134 Modem 135 Computer 136 Software

 ──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Tateo Fukuda 1-39-9 Higashishinagawa, Shinagawa-ku, Tokyo Japan Electric System Construction Co., Ltd. (72) Inventor Ichiro Koike 1-39 Higashishinagawa, Shinagawa-ku, Tokyo No. 9 Japan Electric System Construction Co., Ltd. (72) Inventor Tetsuji Fukami 4-4-23 Hakata Ekimae, Hakata-ku, Fukuoka, Fukuoka Prefecture Inside Parama Tech Co., Ltd. (72) Inventor Satoshi Ushijima Hakata, Fukuoka-shi, Fukuoka 4-4-23, Hakata-ku, Ku-ku Parama Tech Co., Ltd. (72) Kuniyoshi Yoshino 660 Tsuruma, Machida-shi, Tokyo Terada Electric Co., Ltd.

Claims (2)

[Claims] 1. An adapter device for living body risk management (10) and an optional measuring device, the adapter device for living body risk management (10) comprises an electrocardiogram / heartbeat for measuring an electrocardiogram / heartbeat. A measuring unit (1), a display unit (2) for displaying an operation state, a data processing unit (3) for processing data, an external input terminal (4) for connecting the various optional measuring instruments, A modem unit (5) for transmitting and receiving data; a digital output terminal (6) for digital; and an analog output terminal (7) for analog. KSG blood pressure measuring device (30) having a probe (39) for outputting a biological data; a body temperature measuring device (50) having a probe (59) for outputting measured biological data; An arterial blood oxygen saturation measuring device (70) having a probe (79) for outputting a biological data, a urine component measuring device (90) having a probe (99) for outputting measured biological data, and an output of the measured biological data And a occult blood reaction measuring device (110) having a probe (119) for use by a healthy person or a home medical care worker, and can transmit various measured biological data to a medical institution using a mobile phone as a medium. Biological risk management adapter device. 2. A healthy person or a home caregiver transmits biometric data to a host such as a medical institution or a health care center using a mobile phone as a medium by using an adapter for biometric risk management, and the biometric data is received on a receiving side. In a biorisk management method using a mobile phone as a medium by using a biorisk management adapter device that performs biorisk management by medical and healthcare professionals based on the It is measured using the management adapter device body (10) or the corresponding optional measuring device, and the biological data measured by the various optional measuring devices is transferred to the biological risk management adapter device body (10), and used for the biological risk management. The adapter device body (10) is connected to a mobile phone and dialed, and stored in the biometric risk management adapter device body (10) Biological risk management method of a mobile phone as a medium by the biological risk management adapter device utilization and transmits various biometric data stored on the host side. In addition, with the automatic analysis software of biometric data prepared on the host side,
A biological risk management method characterized by instantly determining whether the data is within the allowable range or out of the allowable range, transmitting the data back to a healthy person or a home care worker, and displaying the state on the display unit of the biological risk management adapter device. .