JP2017148365A - Biological information monitoring system and biological information monitor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a biological information monitoring system and a biological information monitor capable of improving reliability of an alarm by suppressing output of an unnecessary alarm.SOLUTION: The biological information monitoring system comprises: a movement detection unit 104 which detects the movement of a telemeter transmitter or a movable bedside monitor; and an alarm control unit 103 which determines an alarm on the basis of biological information and suppresses the alarm on the basis of a result of the movement detection by the movement detection unit 104, thereby being capable of improving reliability of an alarm by suppressing output of an unnecessary alarm.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a biological information monitoring system and a biological information monitor that monitor biological information using a movable biological information monitor.

  Medical telemeter systems must be able to monitor radiological information signals such as electrocardiograms remotely using radio waves, so they must be used as a tool to help improve medical services and reduce the burden on healthcare professionals. Being present. Such a medical telemeter system is disclosed in Patent Document 1, for example.

  A medical telemeter system generally includes a sensor, a telemeter transmitter, and a biological information monitor that receives a signal from the telemeter transmitter. Here, there are sensors and transmitters that are integrated and those that are separate. In this specification, a sensor and a transmitter integrated with each other and a sensor and a transmitter separated from each other will be referred to as a telemeter transmitter.

  In recent years, portable telemeter transmitters have become widespread. The portable telemeter transmitter is small and light enough to be worn on the patient's body, and is convenient because it can acquire biological information even when the patient leaves the bed. The telemeter transmitter acquires biological information such as an electrocardiogram waveform, a respiratory waveform, a pulse waveform, blood pressure, body temperature, and oxygen saturation, and transmits this biological information wirelessly.

  The biological information wirelessly transmitted from the telemeter transmitter is received by, for example, a biological information monitor provided in the nurse station, that is, a central monitor, and thereby the biological information of each patient is monitored by the central monitor. In this central monitor, the reception frequency corresponding to the transmission channel of each telemeter transmitter is registered. As a result, the central monitor can identify each patient and monitor the biological information of each patient. In the central monitor, the position information transmission frequency of each telemeter transmitter, the channel number of each telemeter transmitter, and the monitor number are registered in association with each other. Thereby, the central monitor can monitor the position information received from the position information antenna via the LAN (Local Area Network).

  Similarly to the case of using a telemeter transmitter, if a movable biological information monitor (which may be called a bedside monitor) is used, the biological information of a moving patient can be transmitted wirelessly to the central monitor. it can. In this case, the various sensors for measuring biological information attached to the patient and the movable biological information monitor are separate from each other and connected by wire to transmit the input biological information wirelessly. In this specification, for convenience, the telemeter transmitter is described separately from the movable biological information monitor, but the telemeter transmitter is originally a kind of movable biological information monitor.

  By the way, the central monitor of the nurse station arranges the biological information wirelessly transmitted from the telemeter transmitter or the movable biological information monitor, for example, on the whip antenna directly attached to the receiving part of the central monitor or on the back of the ceiling in the hospital Is received via the antenna system. In some cases, biometric information is received by a dedicated wireless receiver, and the biometric information is input to the central monitor via the LAN. In some cases, the biological information wirelessly transmitted from the telemeter transmitter is once received by the bedside monitor, and the biological information is input to the central monitor via the bedside monitor.

JP 2005-177342 A

By the way, when a patient who can walk or move is moving, since weak biological signals are affected by body movements and vibrations to cables, for example, heart rate and SpO ₂ monitoring numerical values are disturbed. There was an inconvenience that a false alarm was output, and as a result, the reliability of the alarm in the central monitor was lowered.

  The present invention has been made in consideration of the above points, and provides a biological information monitoring system and a biological information monitor that can improve the reliability of alarms by suppressing unnecessary alarm output.

One aspect of the biological information monitoring system of the present invention is:
Biological information detection means for detecting biological information;
Movement detection means for detecting movement of the biological information detection means;
Alarm control means for performing alarm determination based on the biological information detected by the biological information detection means, and suppressing an alarm based on a movement detection result by the movement detection means;
It comprises.

One aspect of the biological information monitor of the present invention is:
Receiving means for receiving biological information detected by the biological information detecting means; movement detecting means for detecting movement of the biological information detecting means;
Alarm control means for performing alarm determination based on the biological information detected by the biological information detection means, and suppressing an alarm based on a movement detection result by the movement detection means;
It comprises.

  According to the present invention, unnecessary alarm output can be suppressed and the reliability of the alarm can be improved.

The figure which shows schematic structure of the biological information monitoring system which concerns on embodiment Block diagram showing schematic configuration of telemeter transmitter Block diagram showing the main configuration of Central Monitor

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

  FIG. 1 is a diagram illustrating a schematic configuration of a biological information monitoring system according to an embodiment. The biological information monitoring system 10 in FIG. 1 is disposed, for example, in a hospital.

  The nurse monitor is provided with a central monitor 100. The central monitor 100 is biometric information of each patient wirelessly transmitted from a telemeter transmitter 200 or a bedside monitor 30-1 as biometric information detecting means attached to each patient. Receive. Actually, the biological information wirelessly transmitted from the telemeter transmitter 200 and the bedside monitor 30-1 is received by the antennas 20-1 to 20-3 whose position can be specified, and then via a LAN (Local Area Network). Transmitted to the central monitor 100. Specifically, the antennas 20-1 to 20-3 are configured to output identification information of their own antennas together with biological information when receiving the position information transmission frequency from the telemeter transmitter. As a result, the central monitor 100 can recognize at which antenna the biological information is received.

  In addition, the central monitor 100 can receive the biological information wirelessly transmitted from the telemeter transmitter 200 directly from the telemeter transmitter 200 and the bedside monitor 30-1 via the whip antenna AN0 without using the LAN. It has become.

  In the central monitor 100, the reception frequency corresponding to the transmission channel of each telemeter transmitter 200 is registered. Thereby, the central monitor 100 can identify each patient and monitor the biological information of each patient. In the central monitor 100, the position information transmission frequency of each telemeter transmitter 200, the channel number of each telemeter transmitter 200, and the monitor number are registered in association with each other. As a result, the central monitor 100 can monitor the position information received from the antennas 20-1 to 20-3 via the LAN.

  Similarly to the case where the telemeter transmitter 200 is used, if the movable bedside monitor 30-1 is used, the biological information of the moving patient can be wirelessly sent to the central monitor 100. In this case, the various sensors for measuring biological information attached to the patient and the bedside monitor 30-1 are separated from each other and connected by wire, and the bedside monitor 30-1 receives the input biological information. Send by radio.

  FIG. 2 is a block diagram illustrating a schematic configuration of the telemeter transmitter 200.

Since the telemeter transmitter 200 has a known configuration, it will be briefly described here. The telemeter transmitter 200 inputs biometric information obtained by the sensor group 201 composed of an electrocardiogram measurement electrode, an SpO ₂ measurement probe, a sphygmomanometer, and the like attached to a patient by wire. The telemeter transmitter 200 includes an operation unit 202 for performing a radio frequency setting operation, a display unit 203 for performing alarm display, a wireless transmission unit 204 for wirelessly transmitting biological information, a control unit 205, and a battery 206. With this configuration, the telemeter transmitter 200 can wirelessly transmit the biological information obtained by the sensor group 201. The configuration of the bedside monitor 30-1 is functionally substantially the same as the configuration of the telemeter transmitter 200.

  FIG. 3 is a block diagram showing a main configuration of the central monitor 100 according to the present embodiment.

  The central monitor 100 receives the information transmitted via the LAN by the receiving unit 101. Further, the central monitor 100 receives the wirelessly transmitted information by the whip antenna AN0 and the receiving unit 101. In the case of the present embodiment, the receiving unit 101 includes positional information indicating the positions of the telemeter transmitter 200 and the bedside monitor 30-1 in addition to the biological information transmitted from the telemeter transmitter 200 and the bedside monitor 30-1. Receive.

  This position information is, for example, information indicating the position and reception time of an antenna that has received a signal transmitted from the telemeter transmitter 200 or the bedside monitor 30-1 among the plurality of antennas 20-1 to 20-3. That is, since the signal from the telemeter transmitter 200 or the bedside monitor 30-1 is received by the antennas 20-1 to 20-3 closest to the telemeter transmitter 200 or the bedside monitor 30-1, the antenna is specified. Thus, the position of the telemeter transmitter 200 or the bedside monitor 30-1 can be recognized.

  The biological information received by the receiving unit 101 is output to the display control unit 102 and the alarm control unit 103. On the other hand, the position information received by the receiving unit 101 is output to the movement detecting unit 104.

  The movement detection unit 104 detects the movement of the telemeter transmitter 200 or the bedside monitor 30-1. In the following description, in order to simplify the description, the term “telemeter transmitter 200” includes the bedside monitor 30-1. For example, the movement detection unit 104 detects the movement of the telemeter transmitter 200 based on changes in the antennas 20-1 to 20-3 that are receiving signals from the telemeter transmitter 200. For example, when the telemeter transmitter 200 is moving, the antennas 20-1 to 20-3 that receive signals from the telemeter transmitter 200 change, so that the telemeter transmitter 200 is moving based on the change. And moving speed can be detected.

  Note that the method of detecting the movement of the telemeter transmitter 200 by the movement detector 104 is not limited to this. For example, when the central monitor 100 inputs information on the received electric field strength of the signal from the telemeter transmitter 200 as position information, the movement of the telemeter transmitter 200 may be detected based on the received electric field strength.

The display control unit 102 inputs biological information and displays biological information such as an electrocardiogram, SpO ₂ and blood pressure on the display 105. Further, when an alarm output instruction signal is input from the alarm control unit 103, the display control unit 102 displays an alarm on the display 105. Further, an alarm output instruction signal from the alarm control unit 103 is also input to an alarm indicator 106 including an LED (Light Emitting Diode), a speaker, and the like, and an alarm is output even with light or sound.

  In addition, the display control unit 102 inputs a movement detection result and displays the movement detection result on the display 105. As a result, the medical staff can know that the patient is moving and the moving speed, and can determine whether or not the cause is due to movement when there is disturbance in the patient's biological information. Become.

  The alarm control unit 103 makes an alarm determination by comparing the biological information with a predetermined threshold, and outputs an alarm when the biological information exceeds the predetermined threshold. In addition to this, the alarm control unit 103 is configured to suppress the alarm based on the movement detection result by the movement detection unit 104. Thereby, even if the numerical value of the biological information is disturbed due to movement of the patient by walking or the like, unnecessary alarms can be suppressed.

  The alarm suppression based on the movement detection result according to the present embodiment will be described in detail. In suppressing the alarm, more preferable alarm control can be performed by performing the following devices.

  (I) The greater the degree of movement of the telemeter transmitter 200, the greater the degree of alarm suppression. For example, the degree of alarm suppression is determined according to the detection of movement or the frequency of movement detection. As a result, it is possible to perform alarm suppression adapted to the magnitude of the disturbance of the biological information. Incidentally, the degree of alarm suppression can be determined by setting the alarm judgment threshold in such a direction that the alarm is hard to be output, or the alarm delay time (time until the alarm is sounded when the alarm state continues) Set the direction in which the alarm is hard to be output, or set the alarm threshold integral value (the time until the alarm of the numerical value obtained by integrating the difference between the alarm threshold and the measured value) to the direction in which the alarm is hard to be output. It depends on what you do.

(Ii) The degree of alarm suppression is changed according to the type of biological information. Disturbance of numerical biometric information due to movement, respiration>electrocardiogram> SpO _2, is considered to vary depending on the type of biometric information as. In consideration of this, even when the same movement is detected, the degree of suppression of the electrocardiogram alarm may be made larger than that of SpO _{2 and} the degree of suppression of the respiration alarm may be made larger than that of the electrocardiogram. In addition, disturbances in the numerical values of biological information due to movement are considered to vary depending on the measurement method and the situation at the clinical site, so even if the same movement is detected, an alarm is generated according to the measurement method and the situation at the clinical site. The degree of suppression may be changed.

  (Iii) The degree of alarm suppression is changed according to the patient to which the telemeter transmitter 200 is attached. Depending on the patient, there may be patients whose biological information is likely to be disturbed by movement and those who are not likely to be disturbed, and some patients should not suppress the alarm even if they move (for example, patients who are instilled, severe Since it is considered that there are patients, patients who move in wheelchairs, it is preferable to take such measures.

  (IV) Movement detection is distinguished from clinical alarms and treated as technical (ie, artificial) error alarms. That is, when movement is detected, a technical error alarm is output, for example, as in the case where the electrode is detached. Then, a technical error alarm is output, and countermeasures such as suppressing a clinical alarm as described above are taken. This makes it clear that the alarm is based on patient movement detection, not an alarm when the medical condition worsens, and the reliability of the clinical alarm can be improved.

  As described above, according to the present embodiment, the alarm detection is performed based on the biological detector and the movement detection unit 104 that detects the movement of the telemeter transmitter 200 or the movable bedside monitor 30-1. By providing the alarm control unit 103 that suppresses an alarm based on the movement detection result by the movement detection unit 104, an unnecessary alarm output can be suppressed and the reliability of the alarm can be improved. In addition, the central monitor 100 can be realized.

  Also, by outputting the movement detection result as a technical alarm, the medical staff can know that the patient is moving and the degree of movement, and if the patient's biological information is disturbed, the cause is It becomes possible to judge whether it is due to movement.

  In the above-described embodiment, the telemeter transmitter 200 is changed based on changes in the antennas 20-1 to 20-3 receiving signals from the telemeter transmitter 200 or the movable bedside monitor 30-1. Although the case of detecting movement has been described, the method of detecting movement of the telemeter transmitter 200 or the movable bedside monitor 30-1 according to the present invention is not limited to this. For example, an acceleration sensor may be mounted on the telemeter transmitter 200 or the movable bedside monitor 30-1, and movement may be detected based on the sensor output. Moreover, even if it detects whether it is moving by providing the operation switch which sets that it is moving to the telemeter transmitter 200 or the movable bedside monitor 30-1, and whether the operation switch was operated. Good.

  In the above-described embodiment, the movement detection unit 104 and the alarm control unit 103 are provided in the central monitor 100 and the central monitor 100 performs alarm suppression based on movement detection. However, the present invention is not limited to this. The alarm suppression based on the movement detection may be performed by a biological information monitor such as the bedside monitor 30-n.

  In the above-described embodiment, for convenience, the telemeter transmitter is described separately from the movable biological information monitor. However, the telemeter transmitter may be considered as a kind of movable biological information monitor.

  The above-described embodiments are merely examples of implementation in carrying out the present invention, and the technical scope of the present invention should not be construed as being limited thereto. That is, the present invention can be implemented in various forms without departing from the gist or the main features thereof.

  The present invention can be applied to a biological information monitoring system and a biological information monitor that monitor biological information using a telemeter transmitter or a movable biological information monitor.

DESCRIPTION OF SYMBOLS 10 Biological information monitoring system 20-1-20-3 Antenna 30-1, 30-n Bedside monitor 100 Central monitor 101 Receiving part 102 Display control part 103 Alarm control part 104 Movement detection part 105 Display 106 Alarm indicator 200 Telemeter transmitter

Claims (6)

Biological information detection means for detecting biological information;
Movement detection means for detecting movement of the biological information detection means;
Alarm control means for performing alarm determination based on the biological information detected by the biological information detection means, and suppressing an alarm based on a movement detection result by the movement detection means;
A biological information monitoring system comprising: The degree of alarm suppression of the alarm control means varies depending on the type of biological information detected by the biological information detection means,
The biological information monitoring system according to claim 1. The degree of alarm suppression of the alarm control means varies depending on the patient to which the biological information detection means is attached.
The biological information monitoring system according to claim 1 or 2. The alarm control unit suppresses a clinical alarm based on a movement detection result by the movement detection unit and outputs a technical error alarm based on a movement detection result by the movement detection unit.
The biological information monitoring system according to any one of claims 1 to 3. The biological information detection means is a movable biological information monitor,
The biological information monitoring system according to any one of claims 1 to 4. Receiving means for receiving biological information detected by the biological information detecting means; movement detecting means for detecting movement of the biological information detecting means;
Alarm control means for performing alarm determination based on the biological information detected by the biological information detection means, and suppressing an alarm based on a movement detection result by the movement detection means;
A biological information monitor comprising:

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