WO2014119575A1

WO2014119575A1 - Management device, management system and management method

Info

Publication number: WO2014119575A1
Application number: PCT/JP2014/051848
Authority: WO
Inventors: 聡孝村瀬; 小澤　仁
Original assignee: テルモ株式会社
Priority date: 2013-01-29
Filing date: 2014-01-28
Publication date: 2014-08-07
Also published as: JPWO2014119575A1; JP6290793B2

Abstract

[Problem] To provide a management device and the like which enable a patient or the like to store a plurality of kinds of organism information relating thereto easily without omission. [Solution] A management device (10) is a portable device for managing a plurality of kinds of organism information relating to a subject, the management device being provided with: a communication unit (13) which starts communication when located at a distance communicable with an organism information measurement device (30); an organism-associated information storage unit (18) which associates and stores the organism information acquired from the organism information measurement device with identification information relating to the subject; and a display unit (11), and at least having a configuration in which the organism information of organism-associated information is displayed with the identification information on the display unit, and a configuration in which the communication unit starts communication when located at a distance communicable with a medical worker terminal device (80) managed by a medical worker who examines the subject of the organism-associated information, and transmits the organism-associated information.

Description

Management device, management system, and management method

The present invention is used, for example, in order that nurses and the like can centrally manage patient biological information obtained by measuring biological information such as body temperature with a thermometer or the like in a hospital or home of a patient at home or the like in conjunction with an electronic medical record. The present invention relates to a management apparatus, a management system, and a management method.

Conventionally, in a medical facility such as a hospital, when memorizing a measured body temperature, which is a patient's biological information, for example, a nurse or the like makes a note of the body temperature that is circulated for each patient and displayed on the display unit of the electronic thermometer. Or stored in a reader (for example, Patent Document 1) and then stored in a database such as prescription data for each patient.
Further, a system for correcting the time of the biological information measuring means has been proposed (for example, Patent Document 2).

Japanese Patent No. 3759784 Japanese Patent No. 4874221

However, since biological information measuring devices such as electronic thermometers are driven by batteries, the time (year / month / day / hour / minute) was not correctly set at the time of initial setting or battery replacement. There has been a problem that biological information such as body temperature is not stored in the database together with an accurate measurement date.

Therefore, the present invention stores a plurality of types of biological information (including at least body temperature) for each patient in a simple and complete manner, in association with each patient, and with the correct measurement time (year / month / day / hour / minute). It is an object of the present invention to provide a management device, a management system, and a management method that can be integrated and managed in conjunction with an electronic medical record.

In the present invention, the above object is a portable management device for centrally managing a plurality of types of biological information of a subject measured by a plurality of types of biological information measuring devices, The communication unit that starts communication when the communicable distance is reached, and the biological information acquired from the biological information measurement device together with the identification information of the target person, and is stored in association with the biological information A storage unit, a display unit that displays various types of information, a time information correction unit, and a control unit, and at least a configuration that displays the biological information of the biological related information together with the identification information on the display unit, The communication unit starts communication when the communication unit is able to communicate with a medical worker terminal device managed by a medical worker who examines a target person of the biological related information under the control of the control unit, and The biological information measuring device has a measuring device-side timing unit, and is controlled by the control unit on the condition that the biological information measuring device is in a standby mode or a stationary state. When the time information of the time measuring unit on the measuring device side is determined not to be within a predetermined range, the control of the control unit causes the time information correcting unit to operate and pass through the communication unit. This is achieved by a management device that is configured to correct the time of the time measuring unit side time measuring unit.

According to the said structure, the management apparatus starts communication when it becomes a distance communicable with a biometric information measurement apparatus, and the biometric information acquired from the biometric information measurement apparatus with the identification information of the subject person A living body related information storage unit that acquires and associates and stores it as biological related information.
For this reason, the management device is automatically placed together with the identification information of the subject from the biological information measurement device only by placing it at a distance communicable with the biological information measurement device that measures biological information such as body temperature. Information can be acquired and can be stored in the living body related information storage unit as living body related information. In addition, since the time information deviation of the time measuring unit on the measuring device is appropriately corrected, the time information when the biological information measuring device measures the biological information can always be in an accurate state.
Therefore, the subject can measure his / her biological information with each biological information measuring device and also store the biological information in the management device. For this reason, the biological information measured by the biological information measuring device can be automatically stored without taking notes or the like by another means. Therefore, the patient or the like can store his / her multiple types of biological information easily and without omission.

Preferably, the management device has a flat and small card shape and includes a non-contact IC (Integrated Circuit) (integrated circuit) for communicating with the biological information measurement device. Features.

According to the said structure, the management apparatus has comprised the small card shape whose shape is flat. For this reason, for example, a patient or the like who carries this management apparatus can carry the management apparatus in a pocket or the like of the clothes, and the shape is extremely easy to handle.
The management device also includes a non-contact IC for performing communication with the biological information measurement device. Therefore, a patient or the like who is a user can automatically start communication by simply taking out the card-like management device from the pocket or the like and bringing it close to the biological information measurement device. Therefore, the patient or the like can store his / her multiple types of biological information easily and without omission.

Preferably, the biological information management system includes the biological information measurement device and the management device, wherein the biological information measurement device transmits the biological information of the measured subject to the management device. The management device is configured to determine whether or not it is the target management device.

According to the above configuration, the biological information measuring device is a target biological information acquisition device such as a management device such as a specific patient before transmitting the measured biological information of the subject to the management device. Therefore, the biological information is not erroneously transmitted to an unauthorized management device such as another patient.

According to the above configuration, the biological information measuring device has the measuring device side time measuring unit, and the management device is configured to correct the time information of the measuring device side time measuring unit. Since the information error is appropriately corrected, the time information when the biological information measuring device measures the biological information can be always in an accurate state.

The object is a portable biological information management method for managing a plurality of types of biological information of a subject measured by a plurality of types of biological information measuring devices according to the present invention, which can communicate with the biological information measuring device. A communication unit that starts communication when the distance becomes short, and a biometric information storage unit that acquires biometric information acquired from the biometric information measurement device together with the identification information of the target person, and stores the biometric information in association with the information A display unit that displays various types of information, a time information correction unit, and a control unit, and at least the biological information of the biological related information is displayed on the display unit together with the identification information, and the communication The communication unit starts communication when the communication with a medical worker terminal device managed by a medical worker who examines the subject of the biological information is controlled by the control unit, and The biological information measuring device is configured to transmit related information, and the biological information measuring device has a measuring device side timing unit, and the biological information measuring device is in a standby mode or a stationary state, under the control of the control unit, When it is determined that the time information of the time measuring unit on the measuring device side is not within a predetermined range, the time information correcting unit is operated under the control of the control unit, and the communication unit is configured to operate the time information correcting unit. This is achieved by a management method characterized by correcting the time of the time measuring unit side time measuring unit.

As described above, according to the present invention, a plurality of types of biological information (including at least body temperature and blood pressure) for each patient can be stored together with correct measurement time (year / month / day / hour / minute) easily and without omission. Therefore, it is possible to provide a management device, a management system, and a management method that can be centrally managed in conjunction with an electronic medical record of a medical institution such as a hospital.

It is the schematic which shows the management system of this invention. It is a schematic block diagram which shows the main structures of the IC card of FIG. It is a schematic block diagram which shows the main structures of the thermometer of FIG. It is a schematic block diagram which shows the main structures of the doctor terminal of FIG. It is a schematic block part which shows the main structures of the hospital server of FIG. It is a schematic flowchart which shows the measurement process of the body temperature by a patient. It is another schematic flowchart which shows the measurement process of the body temperature by a patient. It is a schematic flowchart which shows operation | movement etc. of the IC card 10 in a hospital.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The embodiments described below are preferred specific examples of the present invention, and thus various technically preferable limitations are given. However, the scope of the present invention is particularly limited in the following description. Unless otherwise stated, the present invention is not limited to these embodiments.

FIG. 1 is a schematic diagram showing, for example, a management system 1 which is a management system for centrally managing patient biological information and prescription information in the present invention.
As shown in FIG. 1, the management system 1 includes an IC card 10 that is a management device, for example.
The IC card 10 includes an IC (Integrated Circuit) (integrated circuit), an antenna, and the like, and is a non-contact IC card.
That is, these ICs and antennas are examples of the communication unit.
Further, as shown in FIG. 1, the IC card 10 includes a card-side display 11 that is a display unit, for example.
The IC card 10 is a flat card-like small card as a whole, and can be easily accommodated in a pocket or the like by a nurse or the like so that it can be easily carried.

As shown in FIG. 1, the management system 1 includes at least a thermometer 30 that is a biological information measuring device, and further includes a pulse oximeter 50, a blood pressure meter 60, a blood glucose meter 70, a moisture meter (not shown), a heart It has an electric meter (not shown), a pedometer (not shown), and the like.
That is, the thermometer 30 is a medical device that measures, for example, body temperature, which is biological information of a patient who is a subject. The pulse oximeter 50 is a medical device that monitors biological information such as a pulse rate and percutaneous arterial oxygen saturation (SpO2) by attaching a probe to a fingertip or ear of a patient.
The blood pressure monitor 60 is a medical device that measures the blood pressure value of the patient, for example, and the blood glucose meter 70 is a medical device that measures the blood glucose level of the patient, for example.
The thermometer 30, the pulse oximeter 50, the sphygmomanometer 60, and the blood glucose meter 70 are driven by a battery, and the pulse oximeter 50, the sphygmomanometer 60, and the blood glucose meter 70 can be replaced with a battery. (In the case of the thermometer 30, there are battery replaceable and battery replaceable).

Preferably, the thermometer 30, the pulse oximeter 50, the sphygmomanometer 60, and the blood glucose meter 70 each have a standby mode to measure body temperature, pulse rate, percutaneous arterial oxygen saturation (SpO2), blood pressure, and blood glucose. After being stored, until these values are read by the IC card 10, the control mode of the measurement device control unit controls the standby mode in which the power consumption is lower than that of the measured and stored power (consumption is lower than when measuring biological information). Driven by electric power).
The thermometer 30, the pulse oximeter 50, the sphygmomanometer 60, and the blood glucose meter 70 are preferably in a stationary state (not in a biological information measurement state) by including a triaxial acceleration sensor (not shown). You can tell whether or not.

In the present embodiment, for the subject at home (patient) or the subject in the hospital (patient), using these thermometer 30, pulse oximeter 50, sphygmomanometer 60, blood glucose meter 70, The pulse rate and other blood pressure values and blood glucose levels will be measured.
The thermometer 30, the pulse oximeter 50, the sphygmomanometer 60, and the blood glucose meter 70 each have a “lead / ride” device for near field communication.
For this reason, when the above-described IC card 10 is close to the thermometer 30 and the like, communication by “short-range communication” is possible.

As an example of “near field communication”, data transmission / reception by electromagnetic induction will be described. For example, non-contact communication means (eg, power saving IC communication technology of ISO / IEC 14443, communication technology of ISO / IEC 18092, FeliCa (registered trademark of Sony Corporation)), Bluetooth ( Communication technologies such as Bluetooth SIG are also applicable.
In the FeliCa communication technology, communication is performed using radio waves of 13.56 MHz, and communication of 100 to 400 kbps is performed in a very close range up to about 10 cm. Bluetooth can communicate at a maximum speed of 24 Mbps using radio waves in the 2.45 GHz band.

In the present embodiment, the IC card 10 individually receives the body temperature, pulse rate, percutaneous arterial oxygen saturation (SpO2), blood pressure, and blood glucose from the thermometer 30, pulse oximeter 50, blood pressure meter 60, and blood glucose meter 70. In order to read, it is performed by a non-contact communication means (ISO / IEC 14443 power-saving IC communication technology, ISO / IEC 18092 communication technology, FeliCa) at a short distance up to about 10 cm.

Therefore, in the present embodiment, in the case of a patient at home, when the patient acquires the measurement result of the thermometer 30 etc. from the thermometer 30 etc. at home etc., it is only necessary to bring his own IC card 10 close to the thermometer 30 etc. The communication is automatically started between the two, and the biological information, for example, the body temperature is transmitted to the IC card 10.
Further, biological information such as body temperature is displayed on the card side display 11 of the IC card 10.
The card-side display 11 is configured to display not only information on the patient's body temperature but also time information obtained by measuring the patient's body temperature.

<Examples of use in home patients>
Hereinafter, the case where the biological information is body temperature will be described in detail as an example. If the patient carries his / her IC card 10, the patient's body temperature measured at home can be stored easily and without omission.
Further, the IC card 10 is configured to be communicable with, for example, a doctor terminal 80 which is a medical staff terminal device disposed in a hospital or the like. That is, the patient brings the IC card 10 to a hospital or clinic at the time of hospital visit, and brings the IC card 10 close to the “doctor terminal side read / write device 81” of the doctor terminal 80 as shown in FIG. It has a configuration that can communicate with.

Further, as shown in FIG. 1, the doctor terminal 80 is configured to be able to communicate with a hospital server 100 that accumulates various data. Details of the configuration of the hospital server 100 will be described later.

In the management system 1 of the present embodiment, biological information such as the patient's body temperature accumulated in the IC card 10 can be transmitted to a doctor terminal 80 such as a doctor in charge, and by operating the doctor terminal 80, The patient data can be acquired quickly and easily. Further, the biological information such as body temperature acquired by the doctor terminal 80 can be stored for each patient in the hospital server 100 including the electronic medical record for each patient.

Hereinafter, the management system 1 obtains body temperature information measured by the thermometer 30 by a patient (a caregiver or an infant who may be a guardian) carrying the IC card 10 at home or the like. This will be described in detail as an example. For convenience of explanation, measurement of other blood pressure levels, blood glucose levels, and the like is not described, but the present invention naturally includes these.

The IC card 10, the thermometer 30, the pulse oximeter 50, the blood pressure meter 60 and the blood glucose meter 70, the doctor terminal 80, and the hospital server 100 shown in FIG. 1 have a computer, which is a CPU (Central Processing Unit), not shown. It has RAM (Random Access Memory), ROM (Read Only Memory), etc., which are connected via a bus.

FIG. 2 is a schematic block diagram showing the main configuration of the IC card 10 of FIG.
As shown in FIG. 2, the IC card 10 has a “card control unit 12” and a “card side communication device 13” or a “card side display 11” which is a communication unit including the above-described IC and antenna. It is the structure which controls.
In addition, the card control unit 12 includes a “card side information input device 15” for inputting various information, event information, and the like, and preferably a radio clock (not shown), so that an accurate time (year / month / day) can be obtained. (Hour / minute) The “card side clock device 16” that generates information is also controlled. Examples of various information and event information include treatment information, medication (prescription) information (prescription drug name, usage, dosage, etc.), fever, information on infectious diseases such as influenza, norovirus, and the like.
The card control unit 12 also controls various storage units, information processing units (programs) and the like shown in FIG. 2, and specific contents thereof will be described later.

FIG. 3 is a schematic block diagram showing a main configuration of a thermometer 30 which is a biological information measuring device driven by the battery (not shown) of FIG.
As shown in FIG. 3, the thermometer 30 has a “thermometer control unit 31” which is a measurement device control unit, and is a “thermometer power switch” which is a measurement device power switch for turning the thermometer 30 on and off. 32 ”,“ thermometer-side display 33 ”which is a display on the measuring device side which displays various information,“ thermometer-side information input device 34 ”which is a measuring device-side information input device which inputs various information, and the above-mentioned IC The “thermometer side read / write device 35”, which is a measurement device side read / write device for communicating with the card 10, is controlled.
Further, the thermometer-side control unit 31 is a “thermometer-side main body device 36” that is a measuring device-side main body device that exhibits a function of measuring body temperature, or a measuring device-side timekeeping unit that generates time information. It is the structure which also controls the "timer device side time measuring device 37" etc. which are side time measuring devices.
The thermometer control unit 31 controls various storage units, information processing units (programs) and the like shown in FIG. 3, and specific contents thereof will be described later.

FIG. 4 is a schematic block diagram showing the main configuration of the doctor terminal 80 of FIG.
As shown in FIG. 4, the doctor terminal 80 has a “doctor terminal control unit 82” and communicates with the “hospital server 100” in FIG. The terminal-side read / write device 81, a “doctor terminal-side display 84” for displaying various information, a “doctor-terminal-side information input device 85” for inputting various information, and the like are configured.
The doctor terminal control unit 83 controls the information processing unit (program) shown in FIG. 4 and the like, and specific details thereof will be described later.

FIG. 5 is a schematic block diagram showing the main configuration of the hospital server 100 of FIG.
As shown in FIG. 5, the hospital server 100 has a “hospital server control unit 101”, and displays “hospital server side communication device 102” for communicating with the “doctor terminal 80” in FIG. “Hospital server side display 103”, “hospital server side information input device 104” for inputting various information, “hospital server side patient ID information storage unit 105”, “hospital server side measurement biometric information storage unit” The side measurement body temperature information storage unit 106 ", the" hospital server side treatment / medication information storage unit 107 ", and the like are configured to be controlled.
The “hospital server-side patient ID information storage unit 105”, “hospital server-side measured body temperature information storage unit 106”, and “hospital server-side treatment / medicine information storage unit 107” store the “electronic medical record 109” for each patient. It is composed.
The hospital server control unit 101 controls various information storage units shown in FIG. 5 and the like, which will be described later in detail.

In addition, you may make it memorize | store biometric information, such as body temperature, SpO2, blood pressure, and blood glucose, with patient ID directly from the IC card 10 to the hospital server 100. This eliminates the need to bring the IC card 10 to the doctor in charge.
In this case, when the body temperature is equal to or higher than a predetermined value (for example, 38 ° C.) and SpO2 is equal to or lower than the predetermined value (for example, 92%), an alarm is generated and the “doctor terminal side display 84” is controlled from the hospital server 100 to display The patient ID information (including name, age, etc.) is displayed together with biological information such as the patient's body temperature, SpO2, etc., and the “doctor terminal side information input device 85” is controlled so that the doctor can make a diagnosis. A comment such as a coping method (medicine prescription) is input so that it can be written in the “electronic medical record 109” of the patient.
The IC card 10 allows the patient to access the hospital server 100 and input a patient ID into the IC card 10, so that comments such as a diagnosis by the doctor and a coping method (medicine prescription) are input. ”May be confirmed.

FIG. 6 to FIG. 8 are schematic flowcharts showing an example of the operation of the “management system 1” according to the embodiment of the present invention using the thermometer 30 that is a biological information measuring device as an example.
In the present embodiment, a patient (which may be a guardian in the case of a caregiver or an infant) or the like owns an IC card 10 at home or when going out, etc., and a temperature measurement result (body temperature when brought out) ) And reading the body temperature together with the measured correct time (year / month / day / hour / minute).

First, the patient or the like reads the body temperature measured by the thermometer 30 in a state where the “IC card 10” of FIG. 6 and 7 are schematic flowcharts showing a body temperature measurement process by a patient (may be a guardian in the case of a caregiver or an infant).
First, in step ST (hereinafter referred to as “ST”) 1, it is determined whether the “thermometer power switch 32” shown in FIG. 3 of the thermometer 30 is in an ON state. .

In ST2, the thermometer 30 refers to the “thermometer-side user ID storage unit 38” in FIG. 3 and determines whether, for example, “user ID”, which is identification information of a patient who uses the thermometer, is stored. to decide.
In ST2, when the “user ID” of the patient is not registered in the “thermometer-side user ID storage unit 38”, the thermometer 30 displays the registration procedure screen on the “thermometer-side display 33” and “use” "Person ID" is registered (ST3). Further, even when “user ID” has already been registered, change registration of the “user ID” can also be performed.

Next, the process proceeds to ST4. In ST4, it is determined whether or not the “thermometer side main body device 36” of FIG. 3 has measured the body temperature.
That is, it is determined whether the patient has measured the body temperature using the thermometer 30. Specifically, the patient arranges the temperature measuring part of the thermometer 30 on the armpit or the like and measures the body temperature.

When the body temperature is measured in ST4 and the temperature of the body temperature is specified, the process proceeds to ST5.
In ST5, the “body temperature information processing unit (program) 39” in FIG. 3 operates, the body temperature information (for example, 37 ° C.) measured by the “body temperature measurement main body device 36”, and the time information when this body temperature is measured. 3 is identified from the “thermometer-side timing device 37” in FIG. 3, and these are associated with each other and associated with the “user ID” of the “thermometer-side user ID storage unit 38” which is the measurement device-side patient ID information storage unit, It memorize | stores in the "measured body temperature information storage part 40" of FIG.

Therefore, the thermometer 30 is stored as information in which the value of the body temperature measured by itself (37 ° C., etc.), the measurement time, and the information of the measured “user ID” of the patient are associated.

Next, the patient or the like takes out the “IC card 10” stored in his / her pocket and brings it close to the thermometer 30 where the body temperature is measured.
Then, it progresses to ST6. In ST6, on the condition that the thermometer 30 is in the standby mode (standby state), the card side communication device 13 of the IC card 10 and the thermometer side read / write device 35 of the thermometer 30 are in a communication state by electromagnetic induction. It is determined whether or not.
If it is determined in ST6 that both are in a communication state, the process proceeds to ST7, and the IC card 10 stores the “patient ID” of the patient stored in the “card-side patient ID information storage unit 17” in FIG. Is transmitted to the thermometer 30.

Next, in ST8, the thermometer 30 refers to the received “patient ID” and the “thermometer side user ID information storage unit 38” of FIG. It is determined whether or not the patients who are users are the same.
Therefore, it is possible to prevent the body temperature and the like of another family living in the same house from being erroneously acquired as the body temperature information of the same patient.
That is, the thermometer 30 determines whether or not the received “patient ID” matches the user ID of the “thermometer-side patient ID information storage unit 38”. If so, be a different person.
Specifically, this determination is performed by the “patient ID determination processing unit (program) 41” in FIG.

Only when the patient IDs match in ST8, thermometer 30 transmits “measured body temperature information” in “measured body temperature information storage unit 40” in FIG. 3 to IC card 10 (ST9).
Thus, in this Embodiment, it becomes the structure which does not transmit the patient's body temperature information etc. to the patient who is another person accidentally.

Next, the process proceeds to ST10. In ST10, the IC card 10 stores the “measured body temperature information” received from the thermometer 30 in the “card-side measured body temperature information storage unit 18” which is a living body related information storage unit, for example.
Therefore, in the present embodiment, only the biological information such as the body temperature measured by the patient can be stored in the IC card 10 together with the time (year / month / day / character / minute) information and the like. Since it is sufficient to bring the IC card 10 close to the thermometer 30, body temperature information and the like can be stored very easily.

Next, the process proceeds to ST11. In ST11, the “user name search processing unit (program) 19” of the IC card 10 operates and the “card side measurement body temperature information storage unit 18” which is the card side measurement biological information storage unit received from the thermometer 30. The “user ID” of the patient included in the “card side measured body temperature information” is extracted, and the “user ID / name correspondence information storage unit 20” is searched using this “user ID” as a key.
In the “user ID / name correspondence information storage unit 20”, “name” information corresponding to the “user ID” is stored.
Therefore, by searching the “user ID / name correspondence information storage unit 20” using the “user ID” as a key, the “name information” of the patient corresponding to the “user ID” can be obtained. .

The “name” of the patient acquired in this way is displayed on the “card side display 11” of the IC card 10 together with other “body temperature information” and “measurement time information”.

Therefore, a medical worker such as a nurse in charge of the patient who visually recognizes the display on the card-side display 11 can confirm the content of the body temperature information, and whether the body temperature information is information on the patient. It can also be confirmed.

In particular, in the present embodiment, the “card-side display 11” displays “name” instead of the patient number and the like, so that it can be confirmed more easily.

In this embodiment, the user ID of the patient is a number or the like, and the received IC card 10 converts the number or the like into the “name” of the patient. However, the present invention is not limited to this, The IC card 10 may have a “name” information corresponding to the “patient ID”, and the name information may be displayed on the “card side display 11”.

Next, proceed to ST12. In ST12, the “time comparison processing unit (program) 21” of FIG. 2 of the IC card 10 operates, and the IC card 10 acquires “current time information” from the “thermometer side time measuring device 37” of the thermometer 30, Compared with the “current time information” of the “card timing device 16” in FIG.

Then, proceed to ST13. In ST13, it is determined whether or not the difference between the “current time information” acquired from the thermometer 30 and the “current time information” of the IC card 10 is “within a certain range”.

In ST13, when the difference in time (year / month / day / hour / minute) is not “within a certain range” (for example, when “minute” is not within 1 minute), the time is measured by the measuring device. It is determined that the time of the “thermometer-side time measuring device 37” of the thermometer 30 is incorrect, and the process proceeds to ST14.

In ST14, the “time information correction unit (program) 22” of the IC card 10 operates to correct the time (year / month / day / hour / minute) information of the “thermometer-side time measuring device 37” of the thermometer 30.
Such time correction is performed even after the batteries that are the driving power sources of the pulse oximeter 50, the blood pressure monitor 60, and the blood glucose meter 70 are replaced.

Thereby, the thermometer 30 can always make the time (year / month / day / hour / minute) of measurement of the body temperature accurate, and can improve the accuracy of the body temperature information.
Note that when a radio timepiece is provided in the thermometer 30, it is not necessary to adjust the time, but the power consumption increases, the housing increases, and the cost increases.

As described above, the patient or the like can use the measured body temperature information, the pulse value of the pulse oximeter 50 shown in FIG. 1, the blood pressure value of the sphygmomanometer 60, the blood glucose value of the blood glucose meter 70, the measurement time information and the patient ID information. It can be associated with (user ID information) etc. and stored in the IC card 10 carried.
In addition, as described above, the IC card 10 only needs to be brought close to the thermometer 10, the pulse oximeter 50, the sphygmomanometer 60, and the blood glucose meter 70, so that it is extremely simple and does not cause memory leaks. .

FIG. 8 is a schematic flowchart showing the operation of the IC card 10 after the patient brings the IC card 10 and the like.
The patient who arrives at a medical institution such as a hospital and receives a medical examination by a doctor in charge, etc., reads his / her IC card 10 carried by himself / herself from the doctor terminal side read / write device 81 of the doctor terminal 80 of the doctor in charge of FIG. Close to.
The patient who visits a medical institution such as a hospital and receives a medical examination by a doctor in charge of the patient, uses his / her IC card 10 carried by himself / herself on the doctor terminal side of the doctor terminal 80 of the doctor in charge of FIG. Approach the device 81.

Then, it progresses to ST21. In ST21, in ST21, it is determined whether or not the card side communication device 13 of the IC card 10 and the doctor terminal side read / write device 81 of the doctor terminal 80 are in a communication state by electromagnetic induction as near field communication. .
If it is determined in ST21 that both are in a communication state, the process proceeds to ST22, and the IC card 10 stores the “patient ID” of the patient stored in the “card-side patient ID information storage unit 17” in FIG. Is transmitted to the doctor terminal side read / write device 81.

Next, in ST23, the doctor terminal 80 refers to the received “patient ID” and the “hospital server side patient ID information storage unit 105” in FIG. 5 of the hospital server 100 in FIG. It is determined whether the patient who is present and the patient who is the user of the IC card 10 match.
Specifically, the “doctor terminal side patient ID determination processing unit (program) 86” of FIG. 4 determines.

If they match, it is determined that there is already a history of medical examination and the like, and the process proceeds to ST24. In ST 24, the IC card 10 transmits “card side measured body temperature information” in the “card side measured body temperature information storage unit 18” of FIG. 2 to the doctor terminal 80 via the doctor terminal side read / write device 81.

Next, the process proceeds to ST25. In ST25, the doctor terminal 80 receives the “card-side measured body temperature information” as the card-side measured biological information received from the IC card 10 together with information such as comments, diagnoses, and advice by the doctor in charge, as necessary. 5 is stored in the “hospital server-side measured body temperature information storage unit 106”, which is the hospital server-side measured biological information storage unit in FIG.
Next, the process proceeds to ST26, and the “card side measured body temperature information” stored in the “hospital server side measured body temperature information storage unit 106” is displayed on the “doctor terminal side display 84” of the doctor terminal 80 in FIG.
This “card-side measured body temperature information” has not only the body temperature information as described above but also the measurement time (year / month / day / hour / minute) information, etc. Information stored in the “hospital server-side treatment / medicine information storage unit 107” can be displayed on the “doctor terminal-side display 84” and used as a reference.

<Examples of use in hospitalized patients>
In the above ST1 to ST24, it can be explained by replacing the user of the IC card 10 with a medical worker such as a nurse in a medical institution such as a hospital, and the configuration of the management system is the same as that of FIG. .

By the way, the present invention is not limited to the above-described embodiment. In the present embodiment, the body temperature information has been described as an example after the biological information. However, as described above, other pulse information, blood pressure information, blood glucose level information, and the like can be handled in the same manner. Further, although the IC card 10 has been described as a portable management device, the present invention is not limited to the above-described embodiment, and is a multi-function mobile phone with a PDA function in addition to a telephone function / e-mail function ( A so-called smartphone, PDA (Personal Digital Assistant), portable PC (personal computer), and the like are also applicable. Furthermore, one of the above-described biological information measuring devices may have a function as a portable management device, and in particular, the function of the present invention is mounted on a pedometer, a blood glucose meter, etc. that are usually carried around. May be.

DESCRIPTION OF SYMBOLS 1 ... Management system, 10 ... IC card, 11 ... Card side display, 12 ... Card control part, 13 ... Card side communication apparatus, 15 ... Card side information input device, 16 ... Card side timing device, 17 ... Card side patient ID information storage unit, 18 ... Card side measurement body temperature information storage unit, 19 ... User name search processing unit (program), 20 ... User ID / name correspondence information storage unit, 21 ... time comparison processing unit (program), 22 ... time information correction unit (program), 30 ... thermometer, 31 ... thermometer control unit, 32 ..Thermometer power switch, 33 ... thermometer side display, 34 ... thermometer side information input device, 35 ... thermometer side read / write device, 36..thermometer side main body device, 37 ... thermometer side timekeeping Equipment, 38 ··· Thermometer side user ID storage unit, 39 ··· Body temperature information processing unit (program), 40 ··· Measurement body temperature information storage unit, 41 ··· Patient ID determination processing unit (program), 50 ··· Pulse Oximeter, 60 ... Blood pressure monitor, 70 ... Blood glucose meter, 80 ... Doctor terminal, 81 ... Doctor terminal side read / write device, 82 ... Doctor terminal control unit, 83 ... Doctor Terminal side communication device, 84 ... Doctor terminal side display, 85 ... Doctor terminal side information input device, 86 ... Doctor terminal side patient ID judgment processing part (program), 100 ... Hospital server, 101 ..Hospital server control unit, 102 ... Hospital server side communication device, 103 ... Hospital server side display, 104 ... Hospital server side information input device, 105 ... Hospital server side patient ID information storage unit, 106 ・· Hospital server-side measurement temperature information storage section, 107 ... hospital server-side treatment and medication such information storage unit, 109 ... electronic medical records

Claims

A portable management device for centrally managing multiple types of biological information of a subject measured by multiple types of biological information measurement devices,
A communication unit that starts communication when a distance communicable with the biological information measuring device is reached;
A biological information storage unit that acquires the biological information acquired from the biological information measuring device together with the identification information of the target person, and stores the biological information as related biological information;
A display unit that displays various information, a time information correction unit, and a control unit,
The communication unit is configured to display at least the biological information of the biological related information together with the identification information on the display unit, and a medical worker who examines the subject of the biological related information under the control of the control unit. It is configured to start communication when it becomes a communicable distance with a medical staff terminal device to manage, and transmit the biological related information,
The biological information measuring device has a measuring device side time measuring unit, and the time of the measuring device side time measuring unit is controlled by the control unit on condition that the biological information measuring device is in a standby mode or a stationary state. When it is determined that the information is not within a predetermined range, the time information correction unit is operated by the control of the control unit, and the time of the time measuring unit side time measuring unit of the biological information measuring device is set via the communication unit. A management apparatus characterized by being configured to be corrected.
The management device has a flat and small card shape, and includes a non-contact IC (Integrated Circuit) (integrated circuit) for communicating with the biological information measuring device. The management apparatus according to claim 1.
The biological information measuring device;
A biological information management system including the management device,
The biological information measuring device is configured to determine whether or not the management device is the target management device before transmitting the measured biological information of the subject to the management device. A management system comprising the biological information acquisition apparatus according to claim 1 or 2.
A portable biological information management method for managing a plurality of types of biological information of a subject measured by a plurality of types of biological information measuring devices,
A communication unit that starts communication when a distance communicable with the biological information measuring device is reached;
A biological information storage unit that acquires the biological information acquired from the biological information measuring device together with the identification information of the target person, and stores the biological information as related biological information;
A display unit for displaying various information, a time information correction unit, and a control unit,
The communication unit is configured to display at least the biological information of the biological related information together with the identification information on the display unit, and a medical worker who examines the subject of the biological related information under the control of the control unit. Start communication when it becomes a communicable distance with the medical staff terminal device to manage, transmit the biological body related information,
The biological information measuring device has a measuring device-side time measuring unit, and the time of the measuring device-side time measuring unit is controlled by the control unit on the condition that the biological information measuring device is in a standby mode or a stationary state. When it is determined that the information is not within the predetermined range, the time information correction unit is operated by the control of the control unit, and the time of the time measuring unit side time measuring unit of the biological information measuring device is set via the communication unit. A management method characterized by correcting.