JP2012230521A - Medical management system and medical management system server program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a medical management system and a medical management system server program capable of smoothly acquiring measurement data with high confidentiality managed by a measurement data management device of which security is comparatively highly set.SOLUTION: A medical management system 101 includes: a sample measurement device 201 having measurement means for performing measurement associated with specific components included in a sample, and first data transmission means for transmitting measurement data measured by the measurement means; a server device 401 having first data reception means for receiving the measurement data through the Internet 600, first measurement data storage means for storing the measurement data, and data transmission instruction means for outputting a transmission start instruction on the measurement data in a time of establishment of a measurement data transmission condition; and a measurement data management device 501 having second measurement data storage means for storing the measurement data transmitted by an instruction of the data transmission instruction means.

Description

  The present invention relates to a medical management system and a medical management system server program.

  FIG. 17 shows an example of a conventional medical management system. The medical management system 900 shown in the figure includes a sample measurement device 91, a communication device 92, a server device 93, and a measurement data management device 94. The sample measurement device 91 is, for example, a blood glucose self-measurement device (SMBG device) in which a user performs blood glucose measurement using his / her own blood as a sample. The communication device 92 is, for example, a mobile phone, and is connected to the sample measuring device 91 by a cable. The server device 93 is for accumulating the measurement data of the sample measurement device 91 and receives the measurement data of the sample measurement device 91 from the communication device 92 via the public communication network. The measurement data management device 94 is a personal computer used by a doctor who examines the user in a medical institution, for example. For example, in the measurement data management device 94, the doctor inputs a URL specifying the server device 93 to an Internet browser, and inputs an ID and a password from a displayed input screen, thereby obtaining the blood glucose level measurement data of the user. You can get it. The acquired blood glucose level measurement data is used to determine the user's treatment and medication.

  However, when the measurement data management device 94 is placed in a medical institution, a relatively high security setting is applied. For this reason, in the measurement data management device 94, it is often not preferable to launch an Internet browser that can access various HPs. The blood glucose level measurement data is required to have high confidentiality as personal information. For this reason, it is not preferable to acquire blood glucose level measurement data by a technique that may cause human error such as input of ID and password. Furthermore, if the user neglects to transmit the blood glucose level measurement data to the server device 93, the doctor cannot acquire sufficient blood glucose level measurement data, and appropriate treatment and medication are hindered. .

JP 2004-62285 A

  The present invention has been conceived under the circumstances described above, and is a medical device capable of smoothly acquiring measurement data while maintaining high confidentiality by a measurement data management device with a relatively high security setting. It is an object of the present invention to provide a management system and a medical management system server program.

  The medical management system provided by the first aspect of the present invention includes measurement means for measuring a specific component contained in a sample, and first data transmission means for transmitting measurement data measured by the measurement means. A sample measurement device, a first data receiving means for receiving the measurement data via a public communication network, a first measurement data storage means for storing the measurement data, and the measurement data when the measurement data transmission condition is satisfied. A server device comprising a data transmission command means for outputting a transmission start command; and a measurement data management device having a second measurement data storage means for storing the measurement data transmitted in accordance with the command of the data transmission command means. Prepare.

  In a preferred embodiment of the present invention, the sample measuring device transmits, together with the measurement data, measurement date / time data for specifying a measurement date / time and measurement target person data for specifying a measurement subject by the first data transmission unit. The server device includes first measurement data group generation means for generating a measurement data group composed of the measurement data and the measurement date / time data for a plurality of measurements for the same measurement subject data, and the measurement data The data management device stores the measurement data group transmitted by the command of the data transmission command means in the second measurement data storage means.

  In a preferred embodiment of the present invention, the sample measuring device transmits the measurement date and time data specifying the measurement date and time, and the measurement subject data specifying the measurement subject, together with the measurement data, via the wireless communication. A second data receiving means for receiving the measurement data, the measurement date and time data, and the measurement subject data transmitted from the first data transmitting means via wireless communication and a public data; There is provided a communication device including a second data transmission unit that transmits the measurement date and time data and the measurement subject data via a communication network.

  In a preferred embodiment of the present invention, the sample measuring device transmits the measurement date and time data specifying the measurement date and time, and the measurement subject data specifying the measurement subject, together with the measurement data, via the wireless communication. Same as the second data receiving means that receives the measurement data, the measurement date and time data, and the measurement subject data transmitted from the first data transmitting means via wireless communication and transmitted by the first data transmitting means. Second measurement data group generation means for generating a measurement data group composed of the measurement data and the measurement date / time data for a plurality of measurements of the measurement subject data, and transmitting the measurement data group via a public communication network And a second data transmission means.

  In a preferred embodiment of the present invention, the first data transmitting unit and the second data receiving unit perform wireless communication conforming to the Bluetooth standard.

  In a preferred embodiment of the present invention, in the server device, the data transmission command means outputs the transmission start command when a predetermined date and time comes.

  In a preferred embodiment of the present invention, the communication device includes a position information acquisition unit, the second data transmission unit transmits the position information acquired by the position information acquisition unit, and the data transmission The command means includes position determination means for generating a proximity signal when a relationship between the position information received by the first data receiving means and the position of the measurement data management device satisfies a predetermined proximity condition. When the proximity signal is generated, it is determined that the measurement data transmission condition is satisfied, and the measurement data transmission start command is output.

  In a preferred embodiment of the present invention, the communication device includes server data transmission request generation means for generating a server data transmission request, and the second data transmission means transmits the server data transmission request, In the server device, when the first data receiving unit receives the server data transmission request, the data transmission command unit determines that the measurement data transmission condition is satisfied and outputs a transmission start command.

  In a preferred embodiment of the present invention, the first data transmission means is accessible to a public communication network, and the first data reception means is transmitted by the first data transmission means via the public communication network. The measurement data, the measurement date / time data, and the measurement subject data are received.

  In a preferred embodiment of the present invention, the server device includes third data transmission means accessible to the public communication network, and the measurement data management device includes third data reception means accessible to the public communication network. When the transmission start command is output from the data transmission command unit, the measurement data group is transmitted from the third data transmission unit to the third data reception unit in an e-mail format.

  In a preferred embodiment of the present invention, the measurement data group is transmitted as at least one of text data, data subjected to non-editable processing, and data subjected to encryption processing.

  In a preferred embodiment of the present invention, the server device includes third data transmission means accessible to the FAX communication network, and the measurement data management device includes third data reception means accessible to the FAX communication network. When the transmission start command is output from the data transmission command means, the measurement data group is transmitted by fax from the third data transmission means to the third data reception means.

  In a preferred embodiment of the present invention, the transmission start command instructs the measurement data group to be sent by mail to the location of the measurement data management device, and the second measurement data storage means is sent by mail. The sent measurement data group is input.

  In a preferred embodiment of the present invention, the medical management system server program provided by the second aspect of the present invention receives the first data reception that receives the measurement data transmitted from the sample measurement device via the public communication network. And the server device is executed as data transmission command means for outputting the measurement data transmission start command when the measurement data transmission condition is satisfied.

  According to such a configuration, in order to obtain the measurement data stored in the server device, for example, a doctor opens an Internet browser on the measurement data management device and inputs an ID and a password from an input screen. It is unnecessary. For this reason, it is possible to prevent the measurement data of different patients from being acquired by mistake or the invasion of an unintended computer virus. Therefore, the measurement data can be obtained smoothly while maintaining high confidentiality by the measurement data management device set with relatively high security.

  Other features and advantages of the present invention will become more apparent from the detailed description given below with reference to the accompanying drawings.

1 is an overall conceptual diagram showing a medical management system based on a first embodiment of the present invention. It is a system block diagram which shows the sample measuring device used for the medical management system of FIG. It is a system block diagram which shows the communication apparatus used for the medical management system of FIG. It is a system block diagram which shows the server apparatus used for the medical management system of FIG. It is a system block diagram which shows the measurement data management apparatus used for the medical management system of FIG. It is a flowchart which shows operation | movement of the sample measuring device used for the medical management system of FIG. It is a flowchart which shows operation | movement of the communication apparatus used for the medical management system of FIG. It is a flowchart which shows operation | movement of the server apparatus used for the medical management system of FIG. It is a flowchart which shows operation | movement of the data transmission command part of the server apparatus used for the medical management system of FIG. It is a flowchart which shows operation | movement of the measurement data management apparatus used for the medical management system of FIG. It is a system block diagram which shows the other example of the data transmission command part of the server apparatus used for the medical management system of FIG. It is a flowchart which shows operation | movement of the data transmission command part of FIG. It is a system block diagram which shows the other example of the communication apparatus used for the medical management system of FIG. It is a flowchart which shows operation | movement of the communication apparatus of FIG. It is a flowchart which shows operation | movement of the server apparatus combined with the communication apparatus of FIG. It is a whole conceptual diagram which shows the medical management system based on 2nd Embodiment of this invention. It is a whole conceptual diagram which shows an example of the conventional medical management system.

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

  FIG. 1 shows a medical management system according to a first embodiment of the present invention. The medical management system 101 according to this embodiment includes a sample measurement device 201, a communication device 301, a server device 401, and a measurement data management device 501.

  The sample measuring device 201 is configured as a blood glucose self-measuring device (SMBG device) used for a user to measure his / her own blood sugar level, for example, as shown in FIGS. A storage unit 230, a display 250, a control unit 260, and a communication unit 240 are provided. A sensor piece 290 is used for the measurement by the sample measuring device 201. A spotted portion 291 is formed on the sensor piece 290. In the measurement by the sample measuring device 201, the sensor piece 290 is inserted into the sample measuring device 201. A user's blood is spotted on the spotting portion 291.

  The measurement unit 220 is a part that measures a blood glucose level. The measurement unit 220 has a terminal (not shown) that is electrically connected to the sensor piece 290 on which blood is spotted, for example, on the spotting portion 291 and measures the blood glucose level by an electrical method. The measurement data storage unit 230 is a memory, for example, and stores the measurement data obtained by the measurement unit 220. The display 250 is a part for displaying measurement data and the like, and is, for example, a liquid crystal display panel.

  The control unit 260 controls each part in the measurement operation of the sample measuring apparatus 201, and is configured by, for example, a CPU. The communication unit 240 is an example of a first data transmission unit referred to in the present invention, and performs data transmission / reception via wireless communication. In the present embodiment, the communication unit 240 performs wireless communication conforming to the Bluetooth standard. Accordingly, the communication unit 240 can perform bidirectional wireless communication. In the present embodiment, measurement date and time data for specifying the measurement date and time, and measurement subject data for specifying the measurement subject are transmitted together with the measurement data by the communication unit 240.

  The communication device 301 is, for example, a mobile phone, and receives and stores the measurement data transmitted from the sample measurement device 201 as shown in FIGS. 1 and 3, and stores the measurement data via the Internet (public communication network) 600. A function of transmitting to the server device 401. The communication device 301 includes a communication unit 310, a communication unit 320, a control unit 330, a measurement data storage unit 340, a display 350, operation buttons 360, and a GPS circuit 380.

  The communication unit 310 is an example of the second data receiving means referred to in the present invention, and performs data transmission / reception via wireless communication. In the present embodiment, the communication unit 310 performs wireless communication conforming to the Bluetooth standard. Thereby, the communication unit 310 can perform two-way wireless communication with the communication unit 240 of the sample measurement apparatus 201. The communication unit 320 is an example of the second data transmission unit referred to in the present invention, and is a part for accessing the mobile phone communication network via wireless communication. As a result, the communication device 301 can access the mobile phone communication network and the Internet 600 via the communication network.

  The control unit 330 controls each part in the communication operation of the communication device 301, and is configured by a CPU, for example. The control unit 330 includes a server data transmission request generation unit 390. The server data transmission request generation unit 390 generates a server data transmission request for the server device 401. The measurement data storage unit 340 is for temporarily storing measurement data, measurement date / time data, and measurement subject data of the sample measurement apparatus 201, and is configured by a memory, for example. The display 350 is constituted by a liquid crystal display panel, for example. The operation buttons 360 are dial keys, direction keys, and the like. The GPS circuit 380 is a circuit that measures a current position by receiving a signal from a satellite in the sky, and outputs current position information. The communication device 301 can transmit this current position information from the communication unit 320 to the server device 401.

  As shown in FIGS. 1 and 4, the server device 401 is configured to be able to access the Internet 600 and stores measurement data of various users. The server device 401 includes a communication unit 420, a control unit 410, and a measurement data storage unit 430.

  The communication unit 420 serves as the first data receiving unit and the third data transmitting unit in the present invention, and performs bidirectional communication via the Internet 600. The control unit 410 controls each part in processing such as communication, storage, and data operation of the server device 401, and is configured by a CPU, for example. The control unit 410 includes a diabetes notebook data generation unit 440 and a data transmission command unit 450. The diabetes notebook data generation unit 440 generates diabetes notebook data based on the measurement data, measurement date / time data, and measurement subject data received by the communication unit 420. Diabetes notebook data is obtained by arranging measurement data for a user of the sample measurement device 201 in time series, and corresponds to an example of a measurement data group in the present invention. The diabetes notebook data generation unit 440 corresponds to an example of a first measurement data group generation unit referred to in the present invention. The data transmission command unit 450 outputs a transmission start command for instructing the measurement data management device 501 to start transmission of diabetes notebook data. In this embodiment, when this transmission start command is output, the control unit 410 causes the communication unit 420 to transmit diabetes notebook data.

  The measurement data storage unit 430 is an example of the first measurement data storage means referred to in the present invention, and is configured by a memory, for example. The measurement data storage unit 430 stores the measurement data, measurement date / time data, measurement subject data received by the communication unit 420, and diabetes notebook data generated by the diabetes notebook data generation unit 440.

  The measurement data management device 501 is a personal computer placed in a medical institution where a user of the sample measurement device 201 visits, for example. As shown in FIGS. 1 and 5, the measurement data management apparatus 501 includes a communication unit 520, a control unit 510, and a measurement data storage unit 530.

  The communication unit 520 is an example of a third data receiving unit referred to in the present invention, and performs bidirectional communication via the Internet 600. However, the measurement data management apparatus 501 handles personal data requiring extremely high confidentiality, such as diabetes notebook data of the user of the sample measurement apparatus 201 corresponding to the patient. For this reason, the measurement data management apparatus 501 generally has limited access to the Internet 600. For example, access to the Internet 600 by an Internet browser is prohibited. The control unit 510 controls each part in processing such as communication and data management in the measurement data management apparatus 501, and includes, for example, a CPU. The measurement data storage unit 530 corresponds to an example of the second measurement data storage unit referred to in the present invention. The measurement data storage unit 530 is for storing the patient's diabetes notebook data, and includes, for example, a memory.

  Next, the operation of the medical management system 101 will be described below.

  FIG. 6 is a flowchart showing the operation of the sample measuring apparatus 201. In the sample measuring apparatus 201, first, in step S21, the power is turned on. This power ON may be performed, for example, by detecting insertion of the sensor piece 290 by a sensor piece detection means (not shown).

  Next, when the sensor piece 290 is inserted, sample measurement is performed in step S22. In the present embodiment, the blood glucose level measurement using the blood spotted on the spotting unit 291 as a sample is performed by the measurement unit 220. This measurement data is stored in the measurement data storage unit 230.

  Next, in step S23, the measurement data, the measurement date / time data, and the measurement subject data stored in the measurement data storage unit 230 are transferred from the communication unit 240 to the communication unit 310 of the communication device 301 via wireless communication compliant with the Bluetooth standard. Sent. The sample measurement (step S22) and measurement data transmission (step S23) are automatically performed sequentially after the sensor 290 is inserted. Then, for example, by pulling out the sensor piece 290 from the sample measuring device 201, the sample measuring device 201 is turned off in step S24.

  FIG. 7 is a flowchart showing the operation of the communication device 301. When the communication device 301 is in a communicable state in step S31, it is determined in step S32 whether the communication unit 310 has received measurement data, measurement date / time data, and measurement subject data from the sample measurement device 201. When the communication unit 310 receives measurement data, measurement date / time data, and measurement subject data from the communication unit 240 of the sample measurement device 201 via wireless communication complying with the Bluetooth standard, these data are stored in the measurement data storage unit 340. . In step S33, the measurement data, measurement date / time data, and measurement subject data stored in the measurement data storage unit 340 are transmitted from the communication unit 320 to the server device 401 via the Internet 600.

  FIG. 8 is a flowchart showing the operation of the server device 401. In step S <b> 42, the server device 401 determines whether the communication unit 420 has received measurement data, measurement date / time data, and measurement subject data from the communication device 301. When the communication unit 420 receives measurement data, measurement date / time data, and measurement subject data, these data are stored in the measurement data storage unit 430.

  Next, in step S43, the diabetes notebook data generation unit 440 generates diabetes notebook data using the measurement data, measurement date data, and measurement subject data stored in the measurement data storage unit 430. The preparation of the diabetic notebook data is a chronological arrangement of a plurality of measurement data of the same user based on the measurement subject data according to the measurement date and time.

  Next, in step S44, it is determined whether a transmission start command is output from the data transmission command unit 450. FIG. 9 is a flowchart illustrating an example of a transmission start command output process in the data transmission command unit 450. When the determination process starts in S441, it is determined in step S442 whether the current date and time has become a predetermined date and time. The current date and time is acquired by a clock function provided in the control unit 410. The predetermined date and time is appropriately set, for example, several hours before or one day before the user's next visit date and time, and is stored in advance together with diabetes notebook data. When the current date and time becomes a predetermined date and time, the data transmission command unit 450 outputs a transmission start command in step S443. In step S444, the output process is completed.

  The server data transmission request generated by the server data transmission request generation unit 390 of the communication device 301 illustrated in FIG. 3 is transmitted from the communication unit 320 and received by the communication unit 420 of the server device 401 illustrated in FIG. May be used as the condition for the transmission start command output by the data transmission command means 450 in step S44 shown in FIG. In the communication device 301, for example, when the user performs a predetermined operation using the operation button 360, the server data transmission request generation unit 390 generates a server data transmission request and transmits it to the server device 401. Thereby, the server apparatus 401 can be made to perform a data transmission process at the timing which the user intended.

  When the transmission start command is output, as shown in FIG. 8, diabetes notebook data is transmitted to the measurement data management device 501 in step S45. In the present embodiment, transmission from the server device 401 to the measurement data management device 501 is performed in an e-mail format. Specifically, diabetes notebook data is transmitted in the format described in the text portion of the e-mail. Alternatively, the diabetic notebook data may be transmitted by being attached to an e-mail as data subjected to non-editable processing such as PDF data. Further, the diabetic notebook data may be transmitted by being attached to an e-mail as data subjected to encryption processing such as compressed data to which encryption is given. Diabetes notebook data sent in an e-mail format is stored in a mail server (not shown).

  FIG. 10 is a flowchart showing the operation of the measurement data management apparatus 501. When the measurement data management apparatus 501 is in a communicable state in step S51, it tries to receive diabetes notebook data in step S52. Specifically, control unit 510 accesses the mail server via communication unit 520. In the measurement data management device 501, the address of the mail server and the ID and password assigned to each measurement data management device 501 are stored and set in advance. The mail server is automatically accessed according to a schedule determined by the mail software installed in the measurement data management apparatus 501. When the electronic mail including the diabetic notebook data is received, the diabetic notebook data is stored in the measurement data storage unit 530 in step S53. Thereafter, the doctor browses the diabetic notebook data stored in the measurement data storage unit 530 to examine the treatment or medication of the user (patient) corresponding to the diabetic notebook data.

  Next, the operation of the medical management system 101 will be described.

  According to the present embodiment, in order to obtain the diabetic notebook data stored in the server device 401, a doctor does not need to open an Internet browser on the measurement data management device 501 and input an ID and password from the input screen. is there. For this reason, it is possible to prevent the diabetic notebook data of different patients from being accidentally acquired or the invasion of an unintended computer virus. Therefore, diabetes notebook data can be smoothly acquired while maintaining high confidentiality by the measurement data management device 501 set with relatively high security.

  The transmission of diabetes notebook data by e-mail is suitable for omitting the doctor's input of an ID and a password each time it is acquired. If diabetic notebook data is transmitted in a data format that has been subjected to non-editable processing such as PDF data, unintentional content rewriting can be prevented in advance. Further, if the diabetic notebook is transmitted as data in the data format subjected to the encryption process, it is possible to prevent the transmitted data file from being illegally viewed even in the hands of a third party.

  By generating a data transmission start command in the data transmission command unit 450 of the server device 401 by comparing a predetermined date based on the scheduled date and time with the current date and time, when the user goes to the hospital, the diabetic notebook data is medically It is suitable to be in a state where it is transmitted to the institution. The user does not need to be aware of the transmission of diabetes notebook data, which is convenient.

  By enabling the sample measuring device 201 and the communication device 301 to transmit and receive via wireless communication conforming to the Bluetooth standard, the sample measuring device 201 can perform a wireless communication with the communication device 301 according to the Bluetooth standard. If there is, data transmission from the sample measuring apparatus 201 to the communication device 301 is automatically performed. For this reason, the user need not perform a special operation for transmitting the measurement data if the measurement is performed by the sample measuring apparatus 201. In particular, since the sample measuring apparatus 201 is configured to be turned on / off by inserting / removing the sensor piece 290, if the user only removes / inserts the sensor piece 290, which is an operation for measurement, a series of medical treatments are performed. The operation of the management system 101 is achieved.

  Transmission of diabetes notebook data to the measurement data management apparatus 501 is not limited to the e-mail format. For example, when a transmission start command is output in step S44 shown in FIG. 8, the communication unit 420 uses a so-called Internet FAX service, for example, diabetic notebook data is faxed to a medical institution where the measurement data management device 501 is placed. It may be configured to be transmitted. In this case, for example, the staff of the medical institution inputs the diabetic notebook data transmitted by FAX to the measurement data management apparatus 501. Even with such a configuration, it is possible to smoothly acquire diabetes notebook data while maintaining high confidentiality by the measurement data management device 501 set with relatively high security.

  The diabetic notebook data is transmitted to the measurement data management apparatus 501 when a transmission start command is output in step S44 shown in FIG. 8, for example, the diabetic notebook data is sent to the medical institution where the measurement data management apparatus 501 is placed by mail. May be transmitted. In this case, for example, the staff of the medical institution inputs the diabetic notebook data sent to the measurement data management apparatus 501 by mail. Even with such a configuration, it is possible to smoothly acquire diabetes notebook data while maintaining high confidentiality by the measurement data management device 501 set with relatively high security.

  FIGS. 11-16 has shown the modification and other embodiment of the medical management system concerning this invention. In these drawings, the same or similar elements as those in the above embodiment are denoted by the same reference numerals as those in the above embodiment.

  FIG. 11 shows a modification of the data transmission command unit 450 of the server device 401. In this modification, the data transmission command unit 450 includes a position determination unit 451. In this modification, step S44 of FIG. 8 is processed according to the flowchart shown in FIG.

  When the process starts in step S441, it is determined whether position information is received in step S445. In the case of this modification, the communication device 301 is selected to transmit the current position information output by the GPS circuit 380, and transmits the current position information from the communication unit 320 according to a predetermined schedule. .

  When the communication unit 420 of the server device 401 receives the current position information, the position determination unit 451 calculates the relative relationship between the current position of the communication device 301 and the specific position in step S446. The specific position is, for example, the position of the medical institution that the user visits, and the calculation of the relative relationship is, for example, the distance between the current position and the specific position. When this distance is less than or equal to a predetermined reference distance, the proximity condition is satisfied. The establishment of this proximity condition means that it is determined that the user is heading to a medical institution to receive medical care. In step 443, data transmission command unit 450 outputs a transmission start command.

  Also according to such a modification, diabetic notebook data can be smoothly acquired while maintaining high confidentiality by the measurement data management device 501 set with relatively high security. In addition, the generation of the data transmission start command using the location information was placed in a medical institution that visits the diabetic notebook data even when the user comes to the hospital on a date and time that the user did not plan. The data can be reliably transmitted to the measurement data management device 501.

  FIG. 13 shows a modification of the communication device 301. In this modification, a diabetic notebook data generation unit 370 is provided in the control unit 330. FIG. 14 is a flowchart showing the operation of the communication device 301 in this modification. In step S32, when the measurement data, the measurement date / time data, and the measurement subject data are received, in step S34, the diabetes notebook data generation unit 370 generates the above-described diabetes notebook data. In step S <b> 35, the diabetes notebook data is transmitted from the communication unit 320 to the server device 401.

  FIG. 15 is a flowchart showing the operation of the server device 401 in this modification. In this modification, when the communication unit 420 receives diabetes notebook data in step S46, the diabetes notebook data is transmitted to the measurement data management apparatus 501 in step S45 through output of a transmission start command in step S44. Note that the server device 401 may be configured to execute both the operation illustrated in FIG. 8 and the operation illustrated in FIG. 15.

  Also according to such a modification, diabetic notebook data can be smoothly acquired while maintaining high confidentiality by the measurement data management device 501 set with relatively high security.

  FIG. 16 shows a medical management system according to the second embodiment of the present invention. In the medical management system 102 of this embodiment, measurement data, measurement date / time data, and measurement subject data are transmitted via the Internet 600 from the sample measurement device 201 to the server device 401 without using the communication device 301 described above. The The communication unit 240 of the sample measuring apparatus 201 is configured to be able to access the Internet 600 via, for example, a mobile phone communication network. Even with such a configuration, it is possible to smoothly acquire diabetes notebook data while maintaining high confidentiality by the measurement data management device 501 set with relatively high security.

  The medical management system and the medical management system server program according to the present invention are not limited to the above-described embodiments. The specific configuration of each part of the medical management system and the medical management system server program according to the present invention can be modified in various ways.

  The communication device referred to in the present invention is not limited to a mobile phone, and may be any device capable of wireless communication with a sample measuring device, for example, a configuration capable of transmitting and receiving data via wireless communication compliant with the Bluetooth standard. It may be a personal computer. The sample measuring device referred to in the present invention is not limited to the SMBG device, and can be applied to a device that is used for various measurements that preferably collect measurement data to or via a communication device. The wireless communication referred to in the present invention is not limited to a wireless communication device conforming to the Bluetooth standard, and any wireless communication that can realize data transmission / reception between the sample measurement device and the communication device is acceptable.

101, 102 Medical management system 201 Sample measuring device 220 Measuring unit (measuring means)
230 Measurement data storage unit (measurement data storage means)
240 communication unit (first data transmission means)
250 Display 260 Control unit 290 Sensor piece 291 Spotting unit 301 Communication device 310 Communication unit (second data receiving means)
320 Communication unit (second data transmission means)
330 Control Unit 340 Measurement Data Storage Unit 350 Display 360 Operation Button 370 Diabetes Notebook Data Generation Unit (Second Measurement Data Group Generation Unit)
380 GPS circuit 390 Server data transmission request generating unit 401 Server device 410 Control unit 420 Communication unit (first data receiving unit, third data transmitting unit)
430 Measurement data storage unit (first measurement data storage means)
440 Diabetes notebook data generation unit (first measurement data group generation means)
450 Data transmission command section (data transmission command means)
501 Measurement data management device 510 Control unit 520 Communication unit (third measurement data reception unit)
530 Measurement data storage unit (second measurement data storage means)
600 Internet (public communication network)

Claims (14)

A sample measuring apparatus comprising measuring means for measuring a specific component contained in a sample, and first data transmitting means for transmitting measurement data measured by the measuring means;
A first data receiving means for receiving the measurement data via a public communication network; a first measurement data storage means for storing the measurement data; and outputting a measurement data transmission start command when a measurement data transmission condition is satisfied A server device comprising data transmission command means for performing,
A measurement data management device having second measurement data storage means for storing the measurement data transmitted by the command of the data transmission command means;
A medical management system comprising: The sample measurement device transmits, together with the measurement data, measurement date / time data for specifying a measurement date / time and measurement subject data for specifying a measurement subject by the first data transmission unit,
The server device includes first measurement data group generation means for generating a measurement data group including the measurement data and the measurement date / time data for a plurality of measurements for the same measurement subject data,
2. The medical management system according to claim 1, wherein the measurement data management device stores the measurement data group transmitted by a command of the data transmission command unit in the second measurement data storage unit. The sample measurement device transmits, via the wireless communication, the measurement date and time data for specifying the measurement date and time, and the measurement target person data for specifying the measurement subject by the first data transmission unit,
Second data receiving means for receiving the measurement data, the measurement date / time data, and the measurement subject data transmitted from the first data transmission means via wireless communication; and the measurement date / time data via a public communication network. The medical management system according to claim 2, further comprising: a communication device including: a second data transmission unit configured to transmit the measurement subject data. The sample measurement device transmits, via the wireless communication, the measurement date and time data for specifying the measurement date and time, and the measurement target person data for specifying the measurement subject by the first data transmission unit,
The second data receiving means for receiving the measurement data, the measurement date / time data, and the measurement subject data transmitted from the first data transmission means via wireless communication, and the same measurement subject data a plurality of times. Second measurement data group generation means for generating a measurement data group consisting of the measurement data and measurement date and time data related to the measurement, and second data transmission means for transmitting the measurement data group via a public communication network. The medical management system of Claim 1 provided with the communication apparatus to comprise.   5. The medical management system according to claim 3, wherein the first data transmitting unit and the second data receiving unit perform wireless communication conforming to a Bluetooth standard.   6. The medical management system according to claim 2, wherein in the server device, the data transmission command means outputs the transmission start command when a predetermined date and time comes. The communication device includes position information acquisition means,
The second data transmission means transmits the position information acquired by the position information acquisition means,
The data transmission command means is a position determination means for generating a proximity signal when a relationship between the position information received by the first data receiving means and the position of the measurement data management device satisfies a predetermined proximity condition. 6, and when the proximity signal is generated, it is determined that the measurement data transmission condition is satisfied, and the measurement data transmission start command is output. Medical management system. The communication device includes server data transmission request generation means for generating a server data transmission request, and the second data transmission means transmits the server data transmission request,
4. In the server apparatus, when the first data receiving unit receives the server data transmission request, the data transmission command unit determines that the measurement data transmission condition is satisfied and outputs a transmission start command. The medical management system in any one of 5 thru | or 5. The first data transmission means is accessible to a public communication network;
The medical device according to claim 2, wherein the first data receiving unit receives the measurement data, the measurement date and time data, and the measurement subject data transmitted by the first data transmission unit via a public communication network. Management system. The server device includes a third data transmission unit accessible to a public communication network,
The measurement data management device includes third data receiving means accessible to a public communication network,
10. The measurement data group is transmitted in an e-mail format from the third data transmission unit to the third data reception unit when the transmission start command is output from the data transmission command unit. The medical management system in any one.   11. The medical management system according to claim 10, wherein the measurement data group is transmitted as at least one of text data, data subjected to non-editable processing, or data subjected to encryption processing. The server device includes a third data transmission unit accessible to a FAX communication network,
The measurement data management apparatus includes a third data receiving unit accessible to a FAX communication network,
10. The measurement data group is transmitted by FAX from the third data transmission unit to the third data reception unit when the transmission start command is output from the data transmission command unit. Medical management system as described in. The transmission start command instructs the measurement data group to be sent by mail to the location of the measurement data management device,
The medical management system according to any one of claims 2 to 9, wherein the measurement data group sent by mail is input to the second measurement data storage means. First data receiving means for receiving measurement data transmitted from the sample measuring device via a public communication network;
Data transmission command means for outputting a measurement data transmission start command when the measurement data transmission condition is satisfied;
A medical management system server program that causes a server device to be executed.

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