JP2021005254A - Portable biological information measuring device and control program thereof - Google Patents

Abstract

To complete the work of acquiring operation information from a stationary medical apparatus in a portable biological information measuring device while patients are unknowing regardless of the patients' health status or will.SOLUTION: A portable biological information measuring device used for home medical care together with a stationary medical apparatus includes: a measuring execution unit that measures a patient's biological parameter and/or activity mass to obtain measurement information; an operation information acquisition unit that acquires operation information on the stationary medical apparatus by wireless communication with the stationary medical apparatus; a transmission unit that transmits the measurement information and the operation information to a home medical care management device; and a communication control unit that controls the wireless communication. The communication control unit automatically starts the wireless communication at fixed time, and allows the operation information to be acquired.SELECTED DRAWING: Figure 1

Description

The present invention relates to a portable biological information measuring device and a control program thereof.

Conventionally, a system that supports home medical care such as home oxygen therapy (HOT) is known (see, for example, Patent Document 1).

In this system, a stationary medical device (eg, an oxygen concentrator) is installed in the patient's place of residence outside the hospital, such as the patient's home, and is used for medical treatment of the patient at home. A portable biometric information measuring device (eg, a pulse oximeter) capable of measuring a patient's biological parameters and / or activity is operated from the stationary medical device when communicatively connected to the stationary medical device. Get information. The acquired motion information is stored in the portable biometric information measuring device together with the measurement information including the measurement results of the biological parameters and / or the activity amount.

The measurement information and operation information stored in the portable biometric information measuring device are sent to a home medical care management device installed in a medical facility such as a hospital where a patient is examined. By the way, in one operation example of the conventional home oxygen therapy, it is stipulated that the patient carries a portable biometric information measuring device at the time of going to the hospital and hands it to the medical staff for the transfer of information.

Healthcare professionals use home medical care management devices to perform various analyzes based on information received from portable biometric information measuring devices, and based on the analysis results, patients' prescription compliance status and prescription accuracy. Check the sex and review the prescription.

JP-A-2010-194306

However, in the above-mentioned conventional system, when the portable biological information measuring device acquires the operation information from the stationary medical device, it requires a patient's effort. Specifically, in order to start the transfer of operation information from the stationary medical device to the portable biometric information measuring device, the patient connects the portable biometric information measuring device and the stationary medical device by wire. I needed it.
This connection operation is not performed unless the patient is aware of it. Moreover, even if the patient is willing to perform this connection work, it is difficult to perform the work itself depending on the patient's health condition. That is, there is a problem that information cannot be collected by the home medical care management device depending on the patient's intention and health condition.

An object of the present invention is a portable biometric information measuring device capable of unknowingly completing the work of acquiring operation information from a stationary medical device regardless of the patient's health condition or intention. It is to provide the control program.

The portable biological information measuring device according to one aspect of the present invention is
A portable biometric information measuring device used for home medical care together with stationary medical equipment.
A measurement execution unit that measures the patient's biological parameters and / or activity to obtain measurement information,
An operation information acquisition unit that acquires operation information of the installation-type medical device by wireless communication with the installation-type medical device,
A sending unit that sends the measurement information and the operation information to the home medical care management device, and
A communication control unit that controls the wireless communication,
Have,
The communication control unit automatically starts the wireless communication at a fixed time to enable acquisition of the operation information.

The control program of the portable biological information measuring device according to one aspect of the present invention is
For computers of portable biometric information measuring devices used for home medical care together with stationary medical equipment
A measurement execution function that measures the patient's biological parameters and / or activity to obtain measurement information,
An operation information acquisition function that acquires operation information of the installation type medical device by wireless communication with the installation type medical device, and an operation information acquisition function.
A transmission function for transmitting the measurement information and the operation information to the home medical care management device, and
The communication control function that controls the wireless communication and
Realized,
The communication control function automatically starts the wireless communication at a fixed time and enables acquisition of the operation information.

According to the present invention, it is possible to unknowingly complete the work of acquiring operation information from a stationary medical device in a portable biometric information measuring device regardless of the patient's health condition or intention. ..

A block diagram showing a configuration of a home oxygen therapy management system according to an embodiment of the present invention.

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

FIG. 1 is a block diagram showing a configuration of a home oxygen therapy management system according to an embodiment of the present invention. Home oxygen therapy is an example of home care. The home oxygen therapy management system 100 shown in FIG. 1 includes an oxygen concentrator 110 normally installed at the patient's home and used by the patient, a pulse oximeter (biological information measuring device) 120 carried by the patient, and the like. It usually has a home oxygen therapy management device 130, a display device 140, and a printer device 150 that are installed in a medical facility and used by a doctor. The oxygen concentrator 110 is an example of a stationary medical device, the pulse oximeter 120 is an example of a portable biometric information measuring device, and the home oxygen therapy management device 130 is an example of a home medical care management device. is there.

In the present embodiment, the connection between the oxygen concentrator 110 and the pulse oximeter 120 and the connection between the pulse oximeter 120 and the home oxygen therapy management device 130 are not always communicable connections. The communication between the oxygen concentrator 110 and the pulse oximeter 120 is, for example, wireless communication based on a short-range wireless communication method (for example, Bluetooth (registered trademark)), and the oxygen concentrator 110 and the pulse oximeter 120 are close to each other. Communication is possible while at a distance and a wireless communication channel is established. The connection between the pulse oximeter 120 and the home oxygen therapy management device 130 is, for example, wired communication using a USB (Universal Serial Bus) cable, and the pulse oximeter 120 and the home oxygen therapy management device 130 connect a cable or the like. Communication is possible while physically connected via.

The oxygen concentrator 110 includes an oxygen supply control unit 111, an instrument operation log acquisition unit 112, a clock / calendar function unit 113, a data transfer processing unit 114, and a short-range wireless communication unit 115. Further, the oxygen concentrator 110 has a configuration (not shown) for compressing the air taken in from the room, generating high-concentration oxygen from the compressed air, and supplying the high-concentration oxygen to the patient's body via the nasal cannula. However, since this is the same as the conventional oxygen concentrator, the detailed description thereof will be omitted for the sake of simplicity.

The oxygen supply control unit 111 supplies the high-concentration oxygen from the oxygen concentrator 110 to the patient by the operator (usually the patient himself, but may be the patient's family or the like) to operate the oxygen concentrator 110. Control is performed according to the oxygen flow rate value (hereinafter referred to as "set flow rate value") set by operating the unit (not shown). Normally, the operator sets the oxygen flow rate value according to a prescription flow rate value determined in advance by a doctor (for example, 1.00 L / min at rest, 2.00 L / min during exertion, 1.50 L / min at bedtime, etc.). Set. However, it is also functionally possible to set a non-prescription oxygen flow rate value by the operation of the operator and control the supply of high-concentration oxygen according to the set flow rate value.

Further, the oxygen supply control unit 111 detects the flow rate value of high-concentration oxygen actually delivered from the oxygen concentrator 110 by a flow rate sensor (not shown) under the control of the set flow rate value. Hereinafter, the detected flow rate value is referred to as "measured flow rate value".

The instrument operation log acquisition unit 112 acquires all the operations and events that occurred in the oxygen concentrator 110 as an instrument operation log in association with the date and time of occurrence, and stores the acquired instrument operation log in an internal storage device (not shown). Store. For example, when a failure or abnormality occurs in the oxygen concentrator 110, the event and the date and time of occurrence are recorded as alarm information, and the period during which the power of the oxygen concentrator 110 is turned on is the date and time and each. The set flow rate value set at the time is recorded as operation information. That is, the motion information is information indicating the action content in the stationary medical device regarding the medical procedure given to the patient as home medical care. The actually measured flow rate value detected at each time point may be recorded in addition to the set flow rate value during the period when the power of the oxygen concentrator 110 is turned on.

The instrument operation log acquisition unit 112 acquires information about the date and time from the clock / calendar function unit 113.

The "hour" of the "date and time" is the time, and the "day" is the date. In the present embodiment, the date includes the day of the week in addition to the date. The “day” in the “measurement date” described later is also a date, and in the present embodiment, it means that the day of the week is included in addition to the date.

The data transfer processing unit 114 is an instrument operation log acquisition unit when the pulse oximeter 120 is wirelessly connected to the oxygen concentrator 110 via the short-range wireless communication unit 115, which is an interface for short-range wireless communication. At least a part of the instrument operation log stored in 112, particularly the operation information of the oxygen concentrator 110, is transferred to the pulse oximeter 120.

The pulse oximeter 120 includes an oxygen saturation measurement unit 121, a data integration unit 122, a clock / calendar function unit 123, a data transfer processing unit 124, a data storage unit 125, a short-range wireless communication unit 126, a communication control unit 127, and a detection unit. It has 128 and a step count measuring unit 129.

The oxygen saturation measurement unit 121 includes an oxygen saturation sensor (not shown) and an oxygen saturation measurement circuit (not shown). The oxygen saturation measurement circuit (not shown) realizes, for example, a storage medium for storing a predetermined program and a function of acquiring the oxygen saturation measurement value and the pulse measurement value by executing the stored predetermined program. It is a computer that includes an arithmetic circuit to be used. The oxygen saturation measurement unit 121 detects by emitting red light or infrared light by an oxygen saturation sensor and transmitting it to a specific part of the patient (for example, fingertip, toe, etc.) and detecting the transmitted light. Get a signal. Then, the oxygen saturation measurement unit 121 obtains the ratio of oxidized hemoglobin to the total hemoglobin of arterial blood by using the detection signal by the oxygen saturation measurement circuit, and also detects the change in absorbance synchronized with the pulse of arterial blood. Thereby, the oxygen saturation (measured value of oxygen saturation) and the pulse rate (measured value of pulse) are measured. Oxygen saturation measurements and pulse measurements are examples of patient bioparameters.

The pedometer 129 includes, for example, an acceleration sensor (not shown) and a pedometer circuit (not shown). The acceleration sensor (not shown) detects the vibration of the housing of the pulse oximeter 120 based on the acceleration of the vibration. The step counting circuit (not shown) is a computer including, for example, a storage medium for storing a predetermined program and an arithmetic circuit for realizing a function of acquiring a step count measurement value by executing the stored predetermined program. Is. The pedometer (not shown) determines whether the wearer (patient) is in a walking state from the vibration detection result, and if the wearer (patient) is in a walking state, the number of steps (steps) based on the number of vibrations in the vertical direction. Measured value) is counted. The step count is an example of a patient's activity.

The data integration unit 122 acquires the oxygen saturation measurement value and the pulse measurement value acquired by the oxygen saturation measurement unit 121 from the oxygen saturation measurement unit 121, and associates the acquired measurement information with the measurement date and time to obtain a pulse oximeter. The measurement information of 120 is stored in the data storage unit 125 described later. Further, the data integration unit 122 acquires the step count measurement value acquired by the step count measurement unit 129 from the step count measurement unit 129, and associates the acquired measurement information with the measurement date and time as measurement information of the pulse oximeter 120, which will be described later. It is stored in the storage unit 125. The data integration unit 122 acquires information about the date and time from the clock / calendar function unit 123.

The combination of the oxygen saturation measurement unit 121, the step count measurement unit 129, and the data integration unit 122 is an example of the measurement execution unit.

Further, the data integration unit 122 acquires the operation information of the oxygen concentrator 110 received from the oxygen concentrator 110 by the data transfer processing unit 124. Then, the data integration unit 122 integrates the acquired operation information with the measurement information already stored in the data storage unit 125 to generate integrated information that can centrally manage information about home oxygen therapy. Then, the generated integrated information is stored in the data storage unit 125.

The above-mentioned function in the data integration unit 122 is realized, for example, by executing a predetermined program stored in a storage medium (not shown) in an arithmetic circuit (not shown). The function of providing information about the date and time in the clock / calendar function unit 123 is also realized, for example, by executing a predetermined program stored in a storage medium (not shown) in an arithmetic circuit (not shown). Will be done.

The data transfer processing unit 124 at least the instrument operation log when the pulse oximeter 120 is wirelessly connected to the oxygen concentrator 110 via the short-range wireless communication unit 126, which is an interface for short-range wireless communication. Part of the operation information of the oxygen concentrator 110 in particular is received from the oxygen concentrator 110. In the present embodiment, the short-range wireless communication unit 126 is paired with the short-range wireless communication unit 115 of the oxygen concentrator 110 and the paired oxygen concentrator 110 under the control of the communication control unit 127. Performs wireless communication with the short-range wireless communication unit 115 of the above.

The combination of the data transfer processing unit 124 and the short-range wireless communication unit 126 is an example of the operation information acquisition unit.

Further, the data transfer processing unit 124 is stored in the data storage unit 125 when the pulse oximeter 120 is connected to the home oxygen therapy management device 130 by wired communication using, for example, a USB cable or the like (not shown). The integrated information is transferred (sent) to the home oxygen therapy management device 130.

The data transfer processing unit 124 is an example of a transmission unit.

The above function in the data transfer processing unit 124 is realized, for example, by executing a predetermined program stored in a storage medium (not shown) in an arithmetic circuit (not shown).

The data storage unit 125 holds the operation information and the integrated information stored by the data integration unit 122. In the present embodiment, the data storage unit 125 is built in the pulse oximeter 120, but may be a removable storage medium such as a removable medium.

The communication control unit 127 controls wireless communication by the short-range wireless communication unit 126.

Specifically, the communication control unit 127 automatically attaches the short-range wireless communication unit 126 of the pulse oximeter 120 to the short-range wireless communication unit of the oxygen concentrator 110 at a fixed time on a predetermined day (for example, every day). Start wireless communication with 115. As a result, the communication control unit 127 can acquire at least a part of the instrument operation log of the oxygen concentrator 110, particularly the operation information of the oxygen concentrator 110. The communication control unit 127 determines the arrival of a fixed time based on information about the date and time, which can be acquired from, for example, the clock / calendar function unit 123. The fixed time is designated in advance at a time when the patient is likely to be sleeping, for example, 1:00 am. It is preferable that the fixed time has already been specified at the time of product shipment of the pulse oximeter 120. In addition, when the home oxygen therapy is started, a provider who provides the oxygen concentrator 110 and the pulse oximeter 120 to the patient (for example, a person in charge of a sales company of the oxygen concentrator 110) sets a fixed time in advance. The specified time may be changed as appropriate.

As described above, the communication control unit 127 automatically causes the short-range wireless communication unit 126 of the pulse oximeter 120 to start wireless communication with the short-range wireless communication unit 115 of the oxygen concentrator 110 at a fixed time, and oxygen It is possible to acquire operation information and the like of the concentrator 110. As a result, the operation information acquisition work from the oxygen concentrator 110 can be completed unknowingly by the patient regardless of the patient's health condition or intention.

Further, even if the fixed time for starting the wireless communication arrives, the communication control unit 127 automatically starts the wireless communication when the biological parameters and / or the activity amount of the patient are measured at that time. Hold. A hold is, for example, a postponement. The communication control unit 127 delays the start of wireless communication by a predetermined time (for example, 3 hours) when the patient is measuring biological parameters at 1:00 am, which is a fixed time. Whether or not the biological parameters and / or the amount of activity are measured can be determined from the operating state of the oxygen saturation measuring unit 121 and / or the step count measuring unit 129, or the state in which the pulse oximeter 120 is attached to the patient. Can also be determined by detecting.

Further, the communication control unit 127 stops the wireless communication when the measurement of the biological parameter and / or the activity amount of the patient is started during the wireless communication. The stop is, for example, an interruption. In this case, the operation information received before the stop is saved, and after the wireless communication is restarted, the data transfer processing unit 124 receives the operation information from the middle. The stop may be, for example, a stop. In this case, the operation information received before the stop is discarded, and the data transfer processing unit 124 rereceives the operation information from the beginning after the wireless communication is restarted. ..

The above-mentioned function in the communication control unit 127 is realized, for example, by executing a predetermined program stored in a storage medium (not shown) in an arithmetic circuit (not shown).

Here, the start of measurement of the biological parameter and / or the amount of activity of the patient, more specifically, the state change of the pulse oximeter 120 related to the start of the measurement can be detected by using the detection unit 128. When the communication control unit 127 detects the start of measurement of the patient's biological parameters and / or activity amount, the communication control unit 127 causes the short-range wireless communication unit 126 to stop the wireless communication. As a result, the start of measurement of biological parameters and / or activity is not hindered or delayed by wireless communication. That is, the measurement of the patient's biological parameters and / or activity can be started promptly regardless of the communication state with the oxygen concentrator 110. It should be noted that this effect can be realized even when the communication between the pulse oximeter 120 and the oxygen concentrator 110 is a wired communication, as in the present embodiment.

The detection unit 128 has a magnet 1281 and a magnetic sensor 1282.

The magnet 1281 is, for example, a permanent magnet, and the magnetic sensor 1282 is, for example, a Hall element. Both the magnet 1281 and the magnetic sensor 1282 are provided in the housing (main body) of the pulse oximeter 120. The magnet 1281 and the magnetic sensor 1282 are arranged so that the magnet 1281 and the magnetic sensor 1282 move relative to each other when the housing of the pulse oximeter 120 involved in the start of measurement of the patient's biological parameters and / or activity is moved. There is. The magnetic sensor 1282 detects the movement of the pulse oximeter 120 related to the start of measurement based on the change in magnetism generated by the relative movement of the magnet 1281. The magnet 1281 and the magnetic sensor 1282 are arranged so as to face each other so that the magnetic sensor 1282 can detect a change in magnetism generated by the relative movement of the magnet 1281.

The movement of the housing of the pulse oximeter 120 related to the start of measurement of the biological parameters and / or the amount of activity of the patient is, for example, in the case of a clip-type housing, the movement of opening the housing. The clip-type housing is configured to pinch the patient's finger, which is the measurement site, when measuring arterial oxygen saturation or pulse, for example. In this configuration, if you open the housing before pinching your fingers and close the housing with your fingers inserted in the open housing, you can pinch your fingers and start measuring arterial oxygen saturation and pulse. Is possible. In the case of this configuration, the detection unit 128 detects the opening / closing of the housing, particularly the movement of opening the housing.

The home oxygen therapy management device 130 is a device typically realized in a personal computer, and has a data transfer processing unit 131, a storage unit 132, and a data analysis unit 133.

The data transfer processing unit 131 receives the integrated information from the pulse oximeter 120 when the pulse oximeter 120 is connected to the home oxygen therapy management device 130 by, for example, wired communication using a USB cable or the like (not shown). Then, the received integrated information is stored in the storage unit 132.

When the pulse oximeter 120 adopts a configuration in which the integrated information is stored in the removable media, the data transfer processing unit 131 has a connector for connecting the removable media, and the removable connected to this connector. The integrated information stored in the media is read, and the read integrated information is stored in the storage unit 132.

In addition to the integrated information, the storage unit 132 includes patient information (for example, basic patient information, vital information, prescription flow rate information, etc.) input by a doctor or other medical staff operating an input unit (not shown). Includes). Further, the storage unit 132 stores a home oxygen therapy management program for analyzing the home oxygen therapy based on the integrated information.

The data analysis unit 133 has an arithmetic unit (not shown) such as a CPU (Central Processing Unit), and by executing a home oxygen therapy management program in this arithmetic unit, the integrated information stored in the storage unit 132 is stored. The home oxygen therapy is analyzed based on the acquired function and the acquired integrated information, and the analysis information as a result of the analysis is displayed on the screen of the display device 140 (for example, a liquid crystal display) or a printer. By having the device 150 (for example, a laser printer) print on paper, a creation function for creating analysis information is realized.

As the analysis information creation operation of the data analysis unit 133, for example, a well-known conventionally known operation described in Patent Document 1 can be applied, and therefore detailed description thereof will be omitted here.

The embodiments of the present invention have been described above. The above description is an example of a preferred embodiment of the present invention, and the scope of the present invention is not limited thereto. That is, the description of the configuration of each device and the operation of each device when used is an example, and it is clear that various changes and additions to these examples are possible within the scope of the present invention.

For example, in the above embodiment, the oxygen concentrator 110 is given as an example of a stationary medical device, and the pulse oximeter 120 is given as an example of a portable biometric information measuring device, but a sphygmomanometer is given as an example of a stationary medical device. A small electrocardiograph may be used as a portable biometric information measuring device. As described in Japanese Patent Application Laid-Open No. 2007-209608, the small electrocardiograph has a main body provided with electrodes arranged so as to be in contact with the measurement sites (for example, hands and chest) of the patient when measuring the electrocardiogram of the patient. In this case, the detection unit has a configuration capable of detecting the contact of the measurement site with the electrode as a state change of the biological information measuring device related to the start of measurement of the biological parameter. The contact of the measurement site with the electrode can be detected, for example, by detecting the impedance change of the electrode when the measurement site contacts the electrode.

The present invention can be widely applied to a portable biometric information measuring device used for home medical care together with a stationary medical device.

100 Home oxygen therapy management system 110 Oxygen concentrator 111 Oxygen supply control unit 112 Instrument operation log acquisition unit 113, 123 Clock / calendar function unit 114, 124, 131 Data transfer processing unit 115, 126 Short-range wireless communication unit 120 Pulse oximeter 121 Oxygen saturation measurement unit 122 Data integration unit 125 Data storage unit 127 Communication control unit 128 Detection unit 1281 Magnet 1282 Magnetic sensor 129 Step count measurement unit 130 Home oxygen therapy management device 132 Storage unit 133 Data analysis unit 140 Display device 150 Printer device

Claims (5)

A portable biometric information measuring device used for home medical care together with stationary medical equipment.
A measurement execution unit that measures the patient's biological parameters and / or activity to obtain measurement information,
An operation information acquisition unit that acquires operation information of the installation-type medical device by wireless communication with the installation-type medical device,
A sending unit that sends the measurement information and the operation information to the home medical care management device, and
A communication control unit that controls the wireless communication,
Have,
The communication control unit automatically starts the wireless communication at a fixed time to enable acquisition of the operation information.
A portable biometric information measuring device. The communication control unit
When the biological parameters and / or the activity amount are measured at the fixed time, the automatic start of the wireless communication is suspended.
The portable biological information measuring device according to claim 1. The communication control unit
When the measurement of the biological parameter and / or the activity amount is started during the wireless communication, the wireless communication is stopped.
The portable biological information measuring device according to claim 1. The wireless communication is short-range wireless communication.
The portable biological information measuring device according to claim 1. For computers of portable biometric information measuring devices used for home medical care together with stationary medical equipment
A measurement execution function that measures the patient's biological parameters and / or activity to obtain measurement information,
An operation information acquisition function that acquires operation information of the installation type medical device by wireless communication with the installation type medical device, and an operation information acquisition function.
A transmission function for transmitting the measurement information and the operation information to the home medical care management device, and
The communication control function that controls the wireless communication and
Realized,
The communication control function automatically starts the wireless communication at a fixed time and enables acquisition of the operation information.
Control program.

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