JP6227290B2 - Biological information monitoring device - Google Patents

Description

  The present invention relates to a biological information monitoring apparatus.

  2. Description of the Related Art Conventionally, a central monitor installed at a nurse station in a medical institution is known as a biological information monitoring apparatus that monitors a plurality of patient states. The central monitor receives each patient's biometric information (eg, ECG, blood pressure, arterial oxygen saturation, etc.) from the bedside monitor installed at the bedside of each patient in an intensive care unit or hospital room, and displays it on the screen. (For example, see Patent Document 1).

  The central monitor simultaneously displays biometric information received from each bedside monitor and a portable telemeter device carried by the patient as a basic screen on a single screen. The display mode of the basic screen in this central monitor can be changed according to the number of patients displayed simultaneously.

  As shown in FIG. 1, the conventional central monitor 1 displays a plurality of patients on a display screen 2 as patient information blocks corresponding to each patient, such as patient names and biological information data 3 corresponding to the patients. The areas 4a to 4f are displayed side by side. Thereby, the medical staff can simultaneously monitor the condition of a plurality of patients in a place such as a hospital bed or an intensive care unit away from the nurse station via the central monitor 1 arranged in the nurse station.

JP 2005-124903 A

  By the way, in the central monitor, the number of display areas to be displayed on the basic screen is set in advance, for example, 6 areas, 8 areas, or 16 areas. In addition, the number of waveforms of biological information data to be displayed in the display area associated with each patient is also set in advance. For example, six display areas 4a to 4f are displayed on the display screen 2 shown in FIG. 1, and two waveforms of biological information data are displayed in the display areas 4a, 4b, 4c, and 4e ( 6-bed 2-waveform display mode). When the number of display areas and the number of waveforms of biological information data to be displayed in the display areas are set in advance, the display size of the display areas is also set.

  Here, in the plurality of display areas displayed on the basic screen, the display area (for example, the display area 4f shown in FIG. 1) associated with the patient whose monitoring is interrupted during meals, or the monitoring is completed. Accordingly, a display area that is not associated with the patient (for example, the display area 4d shown in FIG. 1) may be included. Since biometric information data is not displayed in these display areas, an area that is not used for displaying biometric information data appears on the basic screen. That is, the usage efficiency of the basic screen is reduced.

  This invention is made | formed in view of this point, and it aims at providing the biological information monitoring apparatus which can suppress the utilization efficiency fall of a basic screen.

The biological information monitoring apparatus of the present invention is a biological information monitoring apparatus that monitors the states of a plurality of patients including at least the first, second, and third patients, and acquires the biological information data of the plurality of patients from the outside. Acquisition means, a basic screen having a plurality of display areas obtained by dividing a display area of biometric information data, display means for displaying biometric information data of individual patients in each display area, and operation means for accepting user operations And control means for managing settings related to individual patient monitoring and executing setting change processing for changing the settings in accordance with a user operation accepted by the operation means. a setting change process for paused or finished by the user operating the monitor for the first patient associated with one of the plurality of display areas I, wherein without changing the number of divisions of the display area, as well as reducing the display size of the first display area corresponding to a patient, only the zoomed out size of the first display area corresponding to the patient, the A configuration is adopted in which the display size of the display area corresponding to the second patient is enlarged while the display size of the display area corresponding to the third patient is not changed .

  According to the present invention, it is possible to suppress a decrease in use efficiency of the basic screen.

Diagram for explaining an example of a conventional central monitor The figure for demonstrating the central monitor which concerns on one embodiment of this invention The block diagram which shows the structure of the central monitor which concerns on one embodiment of this invention The figure for demonstrating the shortcut starting button which concerns on one embodiment of this invention The figure for demonstrating the shortcut menu which concerns on one embodiment of this invention The figure for demonstrating the setting change confirmation button which concerns on one embodiment of this invention The figure for demonstrating the basic screen after the setting change process which concerns on one embodiment of this invention The figure for demonstrating the personal screen starting button which concerns on embodiment The figure for demonstrating the personal screen which concerns on embodiment The figure for demonstrating the personal menu screen which concerns on embodiment The figure for demonstrating the setting change confirmation button via a personal screen which concerns on embodiment

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

  FIG. 2 is a diagram showing a central monitor 100 as a biological information monitoring apparatus according to an embodiment of the present invention.

  The central monitor 100 in FIG. 2 is connected to a biological information collection device such as a bedside monitor or a medical telemeter that measures biological information data about a patient via a communication network. The central monitor 100 is used in a place away from the patient (for example, a nurse station) and constitutes a biological information monitoring system together with the biological information collecting device.

  A bedside monitor as a biological information collecting device in this biological information monitoring system is used in the vicinity of a patient in various scenes such as a hospital room, an operating room, an intensive care unit, or a patient transport. In addition, a medical telemeter as a biological information collection device is used for patients with relatively mild symptoms that can move within a hospital by themselves. In other words, a patient whose biological information data is measured using a medical telemeter is a patient whose symptoms are lighter than a patient whose biological information data is measured using a bedside monitor.

The patient's biological information data collected by the bedside monitor is, for example, electrocardiogram data, respiratory data, invasive blood pressure data, body temperature data, oxygen saturation (SpO ₂ ) data, or non-invasive blood pressure data. The patient's biological information data collected by the medical telemeter is, for example, electrocardiogram data, respiratory data, or SpO ₂ data. The patient's biological information data collected by a bedside monitor or a medical telemeter is transmitted to the central monitor 100.

Thereby, the central monitor 100 collects biometric information data (electrocardiogram data, respiration data, blood pressure data, body temperature data, SpO ₂ data, non-blood pressure data, etc.) collected by the bedside monitor, or a medical telemeter. Biological information data (electrocardiogram data, respiratory data, SpO ₂ data) is acquired.

  The central monitor 100 displays the biological information data for each patient, so that the user (medical staff) can monitor the biological information data of a plurality of patients.

  A display screen of the central monitor 100 shown in FIG. 2 will be described. On the display screen of the central monitor 100, display areas 220a to 220h are arranged in accordance with the display mode of the basic screen 210 designated in advance (in FIG. 2, the 8-bed 4-waveform display mode). The display areas 220a to 220h are arranged by dividing the display area of the basic screen 210 and display patient information and biological information data for each patient in the display areas 220a to 220h. Each of the display areas 220a to 220h includes a measurement value display unit, a waveform display unit, and a patient information display unit. Here, the display area 220b of the patient “Kota Sato” will be described.

The measurement value display unit 221b displays the biological information data of “Kota Sato” (specifically, heart rate (HR) data, SpO ₂ data, and non-invasive blood pressure (NIBP) data) in the form of measurement values. The In addition, the biological information data (specifically, electrocardiogram data, SpO ₂ data, and respiratory data) of “Kota Sato” is displayed in the waveform display unit 222b in the form of a waveform. The biological information data displayed on the measurement value display unit 221b and the waveform display unit 222b is not limited to the above-described ones. For example, blood pressure (BP) data, exhaled / inspired carbon dioxide concentration (CO ₂ ) data, Anesthetic gas concentration (Agent) data, oxygen concentration (O ₂ ) data, or the like may be used.

  In addition, patient information (specifically, name, sex, age classification, etc.) of “Kota Sato” is displayed on the patient information display unit 223b. The personal information displayed on the patient information display unit 223b is not limited to the above.

  Next, the configuration of the central monitor 100 according to an embodiment of the present invention is shown in FIG. The central monitor 100 includes a display unit 200 constituting a display unit of the present invention, a receiving unit 300, a control unit 400 constituting a control unit of the present invention, an information input unit 500, a storage unit 600, and an audio output unit. 700.

  The receiving unit 300 includes, for example, a telemeter receiver or the like, and includes an antenna and a wireless signal processing circuit that enable wireless communication with an external device (for example, a bedside monitor, a medical telemeter, or the like) that can wirelessly transmit biological information data. Have.

  The receiving unit 300 as an acquisition unit of the present invention receives the patient's biological information data transmitted from the bedside monitor or the medical telemeter via a wireless communication channel. The biological information data received by the receiving unit 300 is supplied to the control unit 400. Thereby, the central monitor 100 can acquire the biological information data of each patient in real time from the bedside monitor or the medical telemeter.

  The central monitor 100 may be connected to the bedside monitor via a communication network capable of bidirectional communication using connection means such as a LAN cable. For example, a LAN cable connected to a bedside monitor is connected to a network connector (for example, a LAN connector) of the central monitor 100 to acquire biological information data from the bedside monitor, and from the central monitor 100 Various data may be transmitted. The connector is not limited to the LAN connection connector, and may be a serial connector, a USB connector, or a connection connector dedicated to various external devices.

  The information input unit 500 is a keyboard or mouse for manually inputting patient information by a user, or a card reader for reading patient information recorded on a magnetic card. The information input unit 500 receives input of patient information of the target patient of the biological information data and supplies it to the control unit 400. The patient information for each patient mainly includes data indicating the patient's identification number, name, gender, and age category (newborn / infant / infant / child / adult), as well as hospital rooms, floors, wards, etc. Data indicating the name or number of the file is included. Further, it may additionally include data indicating the number of the wireless communication channel or the names of doctors and nurses in charge of the patient.

  The information input unit 500 can also be used when changing various settings of the central monitor 100.

  The control unit 400 includes, for example, an arithmetic processing unit (CPU: Central Processing Unit), and controls the operation of each unit in the central monitor 100 by executing a program stored in the storage unit 600. This program includes a program for executing a setting change processing operation described later.

  The control unit 400 performs control for displaying the biological information data of each patient sequentially supplied from the receiving unit 300 on the display unit 200 in real time in association with the patient information of the patient.

  For example, the control unit 400 generates image data so that the biological information data of a plurality of patients is displayed according to the display mode of the basic screen 210 that is specified in advance (in FIG. 2, the 8-bed 4-waveform display mode). To do. In addition to the basic screen 210 that displays the biological information data of a plurality of patients over the entire screen, the control unit 400 generates image data of a personal screen that displays the biological information data of a specific patient in the area on the right side of the screen. . The generated image data is supplied to the display unit 200.

  The control unit 400 forms a plurality of screen layers by image processing, and generates screen image data for each layer. Therefore, the image data obtained as a result of the image processing has a layer structure. Thereby, for example, at the same time as displaying the basic screen 210, various operation screens can be popped up on the front side of the basic screen 210.

  Further, the control unit 400 manages the biological information data by storing the biological information data of each patient sequentially supplied from the receiving unit 300 in the storage unit 600 in association with the patient information. In addition, biometric data or patient information is transmitted to a device connected to a hospital information system (HIS) such as an electronic medical record via a communication network.

  Moreover, the control part 400 can receive the determination result whether the abnormality of the patient's condition has arisen from the bedside monitor via a communication network. When an abnormality occurs in the patient's condition, the control unit 400 displays a screen for notifying the user of the occurrence of the abnormality on the display unit 200, or sounds an alarm sound for notifying the user of the occurrence of the abnormality. Or output from the output unit 700. In addition, when the control unit 400 obtains each patient's biological information data from the medical telemeter, the patient's condition is abnormal by performing, for example, threshold determination or arrhythmia detection on the biological information data. You may determine whether there is.

  The display unit 200 is a liquid crystal display device including a touch panel input unit, for example, and has a display function and an input function. The display unit 200 displays the basic screen 210 on the display unit 200, for example, based on the image data sequentially supplied from the control unit 400. The display unit 200 can also display a personal screen based on the image data supplied from the control unit 400.

  Further, when a user operation (specifically, a touch operation) is accepted, the display unit 200 generates an operation signal indicating the operation content and transmits the operation signal to the control unit 400. The user can change the setting related to the monitoring of the central monitor 100 by touching an operation unit described later. Patient information can be input from the display unit 200.

  The storage unit 600 is a storage device such as a semiconductor memory device or a hard disk, for example, and stores programs executed by the control unit 400 and various data supplied from the control unit 400.

  The audio output unit 700 is a speaker and outputs an alarm sound or the like.

  The central monitor 100 according to the present embodiment has a single configuration of the display unit 200, the reception unit 300, the control unit 400, the information input unit 500, the storage unit 600, and the audio output unit 700. Although an integrated configuration housed in a housing is adopted, an independent construction in which these components are housed in separate housings and connected via connection means may be employed.

  Next, the setting change processing operation for changing the setting related to the monitoring of the central monitor 100 of this embodiment and the basic screen after the operation is completed will be described.

  Here, the display unit 200 displays patient information and biological information data of a plurality of patients in real time based on image data generated by image processing of the control unit 400. Specifically, as shown in FIG. 4, display areas 220 a to 220 h are arranged on the basic screen 210. In the present embodiment, as an example of the setting change process for one patient associated with the display area, a process for changing the setting related to the monitoring of “Kota Sato” will be described. In addition, here, a case where the setting change process is suspension of monitoring (in other words, suspension of monitoring) will be described as an example. For convenience of explanation, it is assumed that the most severe patient other than “Kota Sato” is “Kotaro Sato”.

  First, the user performs a user operation (in this embodiment, a touch operation) for starting the setting change process on the operation unit. In the present embodiment, as shown in FIG. 4, this operation means is a shortcut menu activation button 223b 'as a selection menu activation button arranged in the patient information display unit 223b.

  The user touches the shortcut menu activation button 223b 'to activate the setting change process. Since the shortcut menu activation button 223b ′ is arranged in the patient information display unit 223b, the user can perform an operation while confirming the patient information. Therefore, even if the number of patients displayed on the basic screen 210 is large, It is possible to reliably prevent a patient whose setting is to be changed from being mistaken.

  Note that the shortcut menu activation button 223b 'is transparent. Here, “the shortcut menu activation button 223b ′ is transparent” means that the patient information is not hidden even when the arrangement position of the shortcut menu activation button 223b ′ and the patient information display position of the patient information display unit 223b overlap. This means that the shortcut menu activation button 223b ′ itself is invisible. Although the shortcut menu activation button 223b ′ is not visible, the shortcut menu activation button 223b ′ is arranged over the entire area of the patient information display section 223b, so that the entire area of the patient information display section 223b is displayed in the shortcut menu activation button 223b ′. Therefore, even if the user cannot visually recognize the button itself, the user can surely recognize the position. Further, when the shortcut menu activation button 223b ′ is opaque, even if the shortcut menu activation button 223b ′ is arranged over the entire area of the patient information display unit 223b, it is a case where it is partially arranged. However, although the amount of information that can be displayed in the patient information display unit 223b is reduced, the shortcut menu activation button 223b ′ is transparent in the present embodiment, so that it is not necessary to reduce the displayable amount of patient information. . When the shortcut menu activation button 223b 'is arranged so as not to overlap with the patient information, the shortcut menu activation button 223b' may be opaque.

  When the setting change process is started, as shown in FIG. 5, a shortcut menu 230 as a selection menu for allowing the user to select a setting change content from a plurality of candidates is arranged and displayed in the display area 220b. The In the present embodiment, since the shortcut menu 230 is arranged in the waveform display unit 222b, the display of the shortcut menu 230 does not affect the visibility of the measurement value display unit 221b that is relatively often viewed by the user. . The shortcut menu 230 is translucent. As a result, it is possible to minimize a decrease in the visibility of the waveform in the waveform display unit 222b. Note that when the shortcut menu 230 is arranged in a blank portion in the waveform display portion 222b, it is possible to prevent a reduction in waveform visibility without making the shortcut menu 230 translucent.

  The shortcut menu 230 includes a button (change content selection button) for allowing the user to select a change content. In the present embodiment, as a change content selection button, an entry button 231 for selecting start of monitoring, an interruption button 232 for selecting suspension of monitoring, and an exit button 233 for selecting termination of monitoring. , And an alarm setting button 234 for selecting the threshold setting of the biological information data to be monitored. Note that the types of buttons (that is, the number) included in the shortcut menu 230 are not limited to those described above, and can be appropriately changed by a user operation. However, in practice, there is an upper limit to the number of change content selection buttons that can be arranged in relation to the size of the display area 220b or the waveform display unit 222b. Therefore, the shortcut menu 230 should include at least an interruption button 232 and an exit button 233 for interruption (pause of monitoring) and exit (monitoring end) without relatively detailed setting work. Good.

  Note that the user operation for interruption or leaving is performed when monitoring is not performed for a certain patient. In this case, since there is no problem even if the amount of information displayed in the display area 220b associated with the patient is reduced, if the change is limited to at least one of interruption and leaving, the shortcut menu 230 is displayed as a waveform. It may be displayed not only on the display unit 222b but also on the measurement value display unit 221b, or may be opaque.

  When the user touches the suspend button 232, as shown in FIG. 6, a setting change confirmation button 240 for allowing the user to confirm whether or not to temporarily stop monitoring is displayed in the same manner as the shortcut menu 230. It arrange | positions in the part 222b. The setting change confirmation button 240 is translucent like the shortcut menu 230. The setting change confirmation button 240 includes an execution button 241 for executing the changed content and a cancel button 242 for canceling the execution of the changed content.

  Note that the user operation for interruption or leaving is performed when monitoring is not performed for a certain patient. In this case, since there is no problem even if the amount of information displayed in the display area 220b associated with the patient decreases, the setting change confirmation button 240 for interruption or leaving is not only the waveform display unit 222b but also the measured value. It may be displayed on the display unit 221b, and the setting change confirmation button 240 may be opaque.

  When the user touches the execute button 241, the monitoring is interrupted, and the setting change process is completed. As a result, as shown in FIG. 7, no waveform or measurement value is displayed in the display area 220b of the basic screen 210 (interruption area 250).

  Here, in the conventional central monitor 1 shown in FIG. 1, the display area 4f in which the waveform and the measured value are not displayed due to the interruption of the monitoring is displayed on the basic screen with the display size before the execution of the monitoring interruption. For this reason, when the monitoring is interrupted, the display area 4f, which is originally an area for displaying waveforms and measurement values, is not used for displaying waveforms and measurement values, so that the use efficiency of the basic screen is reduced. . In such a case, in the conventional central monitor 1, it was possible to reduce the display size of the display area 4f in which the waveform and the measured value are no longer displayed, but an operation for that is necessary.

  On the other hand, in the present embodiment, the control unit 400 automatically reduces the display size of the display area 220b as the monitoring is interrupted (FIG. 7). The display area 220b is a display that can display a maximum of three waveforms of biological information data from a display size (specifically, a display size that can display a maximum of four waveforms of biological information data) before the monitoring is interrupted. Reduced to size. The display size of the reduced display area 220b is not particularly limited, and may be a display size that can display, for example, a maximum of one waveform or two waveforms of biological information data.

  Thus, in this embodiment, since the reduction of the display size of the display area 220b is automated, it does not take time to reduce the display size.

Further, in the present embodiment, the control unit 400 reduces the display size of the display area 220b and corresponds to the patient “Kotaro Sato” who has the highest severity among patients other than “Kota Sato” who has been interrupted for monitoring. The display size of the attached display area 220a is automatically enlarged (FIG. 7). The display area 220a is enlarged by an area obtained by reducing the display size of the display area 220b (specifically, an area necessary for displaying one waveform of biological information data). Furthermore, the waveform of biological information data (here, blood pressure data) different from the four waveforms of biological information data (here, ECG data, SpO ₂ data, respiratory data) displayed in the display area 220a before enlargement. Is displayed in the enlarged display area 220a. As a result, a part of the display area 220b of “Kota Sato” whose waveform is no longer displayed due to the interruption is used for the additional waveform display of “Kotaro Sato”, so that the use efficiency of the basic screen 210 is surely prevented. be able to. In addition, it is possible to display more biometric information data of the patient “Kotaro Sato” with high severity.

  However, the display area for expanding the display size is not limited to the display area associated with the patient with the highest severity. For example, the number of waveforms to be measured among patients other than “Kota Sato” who has been interrupted for monitoring and whose biometric information data is measured the most (in other words, patients other than “Kota Sato”) Or the display area associated with the patient whose measurement number is set to the largest), or the display area adjacent to the display area associated with the patient for whom monitoring was interrupted. Also good. Further, applications such as enlarging the amplitude of an electrocardiogram (ECG) waveform or increasing guidance for display, or expanding the font of NIBP measurement values that are frequently measured to improve visibility are conceivable.

  In addition, in the interruption area 250 shown in FIG. 7, the name of the patient and the elapsed time during the monitoring interruption are displayed, and a restart button 251 indicating the resumption of monitoring is displayed. The display mode of the interruption area 250 is not limited to this, and the patient's name and the time during which the monitor is interrupted may not be displayed together, or only one of them may be displayed.

  Here, when the resume button 251 is touched while monitoring is suspended, monitoring is resumed. As the monitoring is resumed, the control unit 400 restores the display sizes of the display areas 220a and 220b. Specifically, the display size of the display area 220a that can display the biometric information data with the maximum of 5 waveforms is reduced to the display size that can display the biometric information data with the maximum of 4 waveforms, and the display area 220b corresponds to the reduced area. Increase the display size of. As a result, the display sizes of the display areas 220a and 220b are automatically restored to the original display size. This eliminates the time and effort required for restoring the display sizes of the display areas 220a and 220b each time monitoring is resumed. However, this restoration may be performed manually.

  As described above, in the present embodiment, the operation means necessary for a series of user operations from starting the setting change process for one patient (“Kota Sato”) to completing it is the shortcut menu start button 223b. ', The shortcut menu 230 and the setting change confirmation button 240, but other operation means may be used. For example, when a setting change related to monitoring is performed via a personal screen, the setting change process can be executed in accordance with a user operation accepted by another operation means.

  When the monitoring is interrupted via the personal screen, first, the personal screen activation button 221b ′ (FIG. 8) arranged in the measurement value display unit 221b is touch-operated (first step). The width (size in the height direction) of 220h is reduced and gathered to the left half of the display screen, and the right half of the display screen is opened. At the same time, the personal screen 260 is displayed on the right side of the basic screen 210. (FIG. 9). Such a display mode is particularly effective in the case of a horizontally long display screen.

  Next, the user touches the menu button 261 in the personal screen 260 (second step), and displays the personal menu screen 270 shown in FIG. Next, the user touches the interruption button 271 in the personal menu screen 270 (third step), and further touches the execution button 281 (FIG. 11) in the setting change confirmation button 280 displayed thereafter (first step). 4 steps), the setting change process is completed.

  Even when the setting change process is executed via the personal screen 260, the control unit 400 can change the display sizes of the display areas 220a and 220b as described above. The monitoring setting change is completed through four steps. On the other hand, in this embodiment, the monitoring setting change can be completed by a three-step touch operation, so that the operation time can be reduced.

  Furthermore, in the present embodiment, the shortcut menu activation button 223b 'is arranged in the patient information display unit 223b, while the personal screen activation button 221b' is arranged in the measurement value display unit 221b. That is, the shortcut menu activation button 223b 'and the personal screen activation button 221b' are arranged apart from each other. This reduces the possibility that the user will operate these buttons by mistake. The personal screen activation button 221b 'is preferably transparent, like the shortcut menu activation button 223b'.

  Although the embodiment of the present invention has been described above, the above description is an illustration of a preferred embodiment of the present invention, and the scope of the present invention is not limited to this. Therefore, the above embodiment can be implemented with various modifications.

100 Central monitor 200 Display unit 210 Basic screen 220a, 220b, 220c, 220d, 220e, 220f, 220g, 220h Display area 221b Measurement value display unit 221b 'Personal screen start button 222b Waveform display unit 223b Patient information display unit 223b' Shortcut menu Start button 230 Shortcut menu 231 Entrance button 232, 271 Stop button 233 Exit button 234 Alarm setting button 240, 280 Setting change confirmation button 241, 281 Execution button 242 Cancel button 250 Stop area 251 Restart button 260 Personal screen 261 Menu button 270 Personal menu screen

Claims (4)

A biological information monitoring device for monitoring the status of a plurality of patients including at least a first, a second and a third patient ,
Obtaining means for obtaining biological information data of the plurality of patients from the outside;
In the basic screen having a plurality of display areas obtained by dividing the display area of the biological information data, display means for displaying the biological information data of each patient in each display area;
An operation means for accepting a user operation;
Control means for managing settings related to individual patient monitoring and executing setting change processing for changing the settings in accordance with a user operation received by the operation means;
Have
The control means includes the number of divisions of the display area in accordance with a setting change process for temporarily suspending or terminating monitoring of the first patient associated with any of the plurality of display areas by a user operation. The display size of the display area corresponding to the first patient is reduced without changing the display area, and the display area corresponding to the second patient is reduced by the display size reduction of the display area corresponding to the first patient. The display size of the display area corresponding to the third patient is not changed,
Biological information monitoring device. For each individual patient, a severity is set,
The second patient is a more severe patient than the third patient;
The biological information monitoring apparatus according to claim 1. For each individual patient, the number of waveforms to be measured or the number of measured values is set,
The second patient is a patient having a larger number of waveforms or measured values than the third patient.
The biological information monitoring apparatus according to claim 1. The control means restores the display size of the display area corresponding to the first patient in accordance with a setting change process for resuming monitoring of the first patient by a user operation.
The biological information monitoring apparatus according to claim 1.