JP2017148364A - Biological information display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a biological information display device which enables a medical worker to rapidly and exactly grasp the condition of a patient.SOLUTION: In a biological information monitor, waveforms W1, W2, W3, and W4 of biological information and measured values of the biological information corresponding to the waveforms W1, W2, W3, and W4 are overlapped and displayed. As a result, a waveform display area can be enlarged and the correspondence between a waveform and a measured value becomes easy to grasp, which enables a medical worker to rapidly and exactly grasp the condition of a patient.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a biological information display device such as a biological information monitor.

  The biological information monitor can measure biological information such as an electrocardiogram, blood pressure, and oxygen saturation, and can collectively display the measured values and waveforms on the display. Examples of the biological information monitor include a bedside monitor that is installed and used on the bedside of a hospital room or a central monitor that is installed and used on a nurse station.

  By looking at the measurement values and waveforms displayed on the biological information monitor, a health care worker (such as a doctor and a nurse) can grasp the patient's condition. In addition, since the biological information monitor generally has an alarm function for notifying an abnormality by an alarm sound or the like when an abnormality of a measured value occurs, a medical worker can immediately know the abnormality of the patient.

  In addition to the alarm function described above, the biological information monitor selects and displays a function for performing arrhythmia analysis, a function for displaying the progress of measured values over a long period (or a long time), or a screen according to the use environment. Various functions such as functions may be added. As described above, in recent years, multifunctional functions or advanced functions have been advanced.

  In the conventional biological information monitor, not only functional diversification and sophistication are progressing as described above, but also screen display modes are diversifying. For example, in the apparatus described in Patent Document 1, a screen indicating the type of alarm or the degree of urgency is displayed. Further, for example, in the apparatus described in Patent Document 2, a monitoring screen for a specific patient among a plurality of patients being monitored is displayed in a part of the display area, and a monitoring screen is to be displayed in another display area. Display a setting operation screen for specifying

JP 2008-200111 A JP 2002-263070 A

  By the way, in order for a medical worker to quickly and accurately grasp the patient's condition, it is preferable that the measurement waveform and the measurement value are displayed in a wide area. However, the more the types of biological information displayed on one screen and the more images (such as operation setting images) other than the biological information displayed on one screen, the smaller the area for displaying measurement waveforms and measurement values. This is considered inconvenient.

  In particular, when the screen size is small as in the portable biological information monitor, the area for displaying the measurement waveform and the measurement value becomes small, and the visibility of the measurement waveform and the measurement value becomes worse.

  The present invention has been made in consideration of the above points, and provides a biological information display device that allows a medical staff to quickly and accurately grasp the patient's condition.

One aspect of the biological information display device of the present invention is:
A biological information display device that displays an image including a measured waveform and a measured value on the same screen,
A display for displaying the image;
A display control unit for controlling the measured waveform and a predetermined measurement value to be displayed on the display;
It comprises.

  According to the present invention, the waveform display area can be enlarged and the correspondence between the waveform and the measurement value can be easily understood, so that the medical staff can quickly and accurately grasp the patient's condition. Can be realized.

The block diagram which shows the structure of the biological information monitor which concerns on embodiment A figure showing a conventional display form The figure which shows the display form of embodiment The figure which shows the layer structure of embodiment The figure which shows the display form of other embodiment

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

<Configuration>
FIG. 1 is a block diagram showing a configuration of a biological information monitor according to an embodiment of the present invention.

The biological information monitor 100 includes a connector unit 101. The connector unit 101 is a connector for connecting the biological information detection unit attached to the patient to the biological information monitor 100. The connector portion 101, electrocardiogram electrodes 111 for detecting an electrocardiogram, blood pressure cuff 112 for detecting the blood pressure, SpO ₂ sensor 114 for detecting the temperature sensor 113, SpO ₂ for detecting the temperature And a biological information detection unit such as a cardiac output sensor 115 for detecting the cardiac output. Of course, a biological information detection unit other than these may be connected to the connector unit 101. The connector unit 101 functions as an interface between the connected biological information detection unit and the measurement processing / alarm processing unit 102.

The measurement processing / alarm processing unit 102 executes a predetermined measurement process to thereby detect a biological information detection unit (electrocardiographic electrode 111, blood pressure measurement cuff 112, body temperature sensor 113, SpO ₂ sensor 114) connected to the connector unit 101. And the patient's biological information is measured using the cardiac output sensor 115). In addition, since the conventionally well-known thing is applicable about the measuring method of various biological information using the said biological information detection part, the detailed description is abbreviate | omitted here.

  The measurement value calculation unit 103 calculates measurement values (maximum value, minimum value, average value, etc.) of each biological information using the measurement results obtained by the measurement processing / alarm processing unit 102, and displays the calculated measurement values The data is sent to the control unit 106. The waveform forming unit 104 forms the waveform of each biological information using the measurement result obtained by the measurement processing / alarm processing unit 102 and sends the formed waveform to the display control unit 106. In addition, the measurement processing / alarm processing unit 102 performs alarm determination by comparing the obtained measurement result with an alarm threshold value.

  The display control unit 106 uses the measurement value measured by the measurement value calculation unit 103 and the waveform formed by the waveform formation unit 104 to form a display image to be displayed on the display 107, and displays the display image on the display 107 is displayed.

  The display 107 is a liquid crystal display with a touch panel, for example, and has not only a display function for displaying biological information, but also a function as an input unit that receives an input operation by an operator. Specifically, the display 107 can change the display format of the display 107 by sending an operation signal corresponding to the touch operation by the operator to the display control unit 106. The display 107 can change the measurement mode by sending an operation signal corresponding to the touch operation by the operator to the measurement processing / alarm processing unit 102 via the operation unit 108.

  The operation unit 108 includes operation buttons (for example, a power switch, a measurement start / stop button, a data recording button, and the like) provided on the front surface of the housing of the biological information monitor 100, and a mouse and a keyboard connected to the biological information monitor 100. Includes an operation input section. In addition, touch operation information from the display 107 is input to the operation unit 108, and a touch operation from the user is also output. A display control operation in the display control unit 106 and a measurement operation in the measurement processing / alarm processing unit 102 are controlled by an operation signal from the operation unit 108.

  In addition, the measurement processing / alarm processing unit 102 performs an alarm determination by comparing each measured biological information with a predetermined alarm threshold, and when a determination result indicating that an alarm is necessary is obtained, the alarm indicator 109, the speaker 110, and An alarm instruction signal is output to the display control unit 106. The alarm indicator 109 is provided in the upper part of the housing of the biological information monitor 100, and emits red light, for example, when an alarm instruction signal is input. The speaker 110 outputs an alarm sound when an alarm instruction signal is input. The display control unit 106 displays an alarm image on the display 107 when an alarm instruction signal is input.

<Display image>
Next, the display form of the biological information in the present embodiment displayed on the display 107 of the biological information monitor 100 will be described with reference to FIGS. FIG. 2 shows a conventional display form, and FIG. 3 shows a display form according to the present embodiment.

  As shown in FIG. 2, in the conventional display form, the screen 130 is divided into a patient information display area 131, a waveform display area 132, a measured value display area 133, and a menu bar display area 134.

In the waveform display area 132, the state of fluctuation of the measurement value of each biological information is drawn as a waveform. In this example, an electrocardiogram (ECG) waveform W1, an oxygen saturation (SpO ₂ ) waveform W2, a blood pressure (BP) waveform W3, and a respiratory waveform (RESP) W4 are drawn. The type and drawing position of the biological information to be drawn can be changed as appropriate by setting operation.

In the measurement value display area 133, the measurement value of each biological information is drawn as a number. In this example, the measured values of heart rate (HR), oxygen saturation (SpO ₂ ), blood pressure (BP), and respiratory rate (RR) are drawn. The type and drawing position of the biological information to be drawn can be changed as appropriate by setting operation.

  In the menu bar display area 134, each rectangular area such as “Home” and “Menu” constituting the menu bar is an input area. For example, when an input area 136 having the notation “menu” is touched, a setting operation screen for presenting a setting operation menu for general monitoring is displayed as a sub screen.

Compared with the conventional display form shown in FIG. 2, in the present embodiment shown in FIG. 3, the waveform of biological information and the measurement value of biological information corresponding to each waveform are displayed in an overlapping manner. Yes. Specifically, the heart rate “160” is displayed superimposed on the electrocardiogram (ECG) waveform W1, the oxygen saturation “92” is displayed superimposed on the oxygen saturation (SpO ₂ ) waveform W2, and the blood pressure (BP) waveform is displayed. The blood pressure value “116/78” is displayed superimposed on W3, and the respiratory rate “15” is displayed superimposed on the respiratory waveform (RESP) W4.

  As a result, a display area dedicated to measurement values (measurement value display area 133 in FIG. 2) is not required, so that a long-time measurement waveform can be displayed, and the medical staff can grasp the patient's condition. It becomes easy. Actually, the biological information monitor 100 is set to the full width waveform display mode (which may be referred to as a waveform / measurement value superposition mode) as shown in FIG. 3, or the waveform / measurement value as shown in FIG. The user can select whether to enter the separation mode.

  Further, in the present embodiment, the display control unit 106 arranges the measurement value image on the front layer 201 shown in FIG. 4 and the waveform image on the rear layer 202, whereby the measurement value and the waveform are arranged. Overlapping display is realized. And the transparency of the measured value arrange | positioned at the front side layer 201 can be adjusted by the user. In the case of the present embodiment, the color density of the waveform arranged in the back layer can be adjusted.

  By arranging the measurement values in the layer in front of the waveform in this way, the measurement values can be displayed more conspicuously than the waveform. Further, in order to make the waveform less conspicuous than the measured value, the waveform may be adjusted to have a darkness similar to the background color. Here, the medical staff often looks at the measured value to determine the patient's condition. In the present embodiment, since the measurement value is arranged in the layer in front of the waveform, the measurement value can be made conspicuous even when superimposed on the waveform, so that inconvenience due to superposition can be suppressed.

  In the present embodiment, the transparency of the measurement value can be adjusted. Thereby, when it is desired to make the waveform stand out, the transparency of the measured value should be increased.

  In this embodiment, since the waveform and the measured value are displayed at the same position, the correspondence between the waveform and the measured value is compared with the conventional case where the measured value is displayed beside the waveform. It becomes easy to grasp the relationship.

Further, if the waveform color and the measurement value color are set to the same system for each type of biological information, it becomes easier to grasp the correspondence between the waveform and the measurement value. For example, the electrocardiogram (ECG) waveform W1 and the heart rate “160” displayed in a superimposed manner are both displayed in a green system, and the oxygen saturation (SpO ₂ ) waveform W2 and the oxygen saturation “92” displayed in a superimposed manner are both displayed. The blood pressure (BP) waveform W3 and the blood pressure value “116/78” displayed in a yellow system and displayed in an overlapping manner are both displayed in an orange system, and the respiration (RESP) waveform W4 and the respiration rate “15” displayed in an overlapping manner are displayed. May be displayed in a white system.

  Furthermore, if the waveform and the measurement value of the present embodiment are superimposed and displayed, an alarm display that can easily call a medical worker can be performed.

  For example, an alarm display such as increasing the size of the measurement value can be performed. That is, in the conventional display as shown in FIG. 2, since the size of the measurement value display area 133 is determined, the screen configuration must be changed in order to increase the size of the measurement value. On the other hand, in the display of the present embodiment, the size of the measurement value can be freely increased regardless of the screen configuration, so that an alarm display such as increasing the size of the measurement value can be easily performed.

  Further, as described above, when the waveform displayed in a superimposed manner and the color of the measurement value are the same system, the color of the measurement value may be changed when an alarm instruction is given. In this way, the medical staff can immediately recognize that the color of the measurement value is different from the color of the waveform, and suppress oversight of the alarm. Here, as a conventional alarm display method, there is a method of changing the background color of the measurement value, but in the case of this embodiment, if such a method is adopted, the waveform is hidden, so the color of the measurement value Alarm display such as changing is preferable. The method for displaying the measured value when an alarm is generated may be selectable by the user.

  Further, at the time of an alarm, the transparency of the measurement value (or the background color of the measurement value) may be reduced in order to emphasize the alarm state. Further, the alarm state may be emphasized by adjusting the waveform so as to have a darkness similar to the background color so that the waveform does not stand out.

  As described above, according to the present embodiment, the waveform display area can be enlarged and the waveform can be enlarged by displaying the waveform of the biological information and the measurement value of the biological information corresponding to the waveform in an overlapping manner. Since it is easy to grasp the correspondence between the measured value and the measured value, it is possible to realize the biological information monitor 100 that allows the medical staff to quickly and accurately grasp the patient's condition.

  In the above-described embodiment, as shown in FIG. 3, when the measured values corresponding to the waveforms W1, W2, W3, and W4 are displayed over the measured waveforms W1, W2, W3, and W4, That is, the case where one measurement value is displayed superimposed on one waveform has been described, but the present invention is not limited to this, and the measurement values of a plurality of related parameters are displayed superimposed on one waveform. Also good.

FIG. 5 shows the display form. In the example of FIG. 5, HR “60” is displayed superimposed on the electrocardiogram (ECG) waveform W1, BP1 “116/77 (62)” is displayed superimposed on the blood pressure (BP) waveform W2, and the oxygen saturation (SpO ₂ ) SpO ₂ value “92” and NIBP value “120/82 (99)” are superimposed on waveform W3, and RESP value “30” and EtCO ₂ value “38” are superimposed on respiratory waveform (RESP) W4. It is displayed. Thus, in the oxygen saturation (SpO ₂ ) waveform W3, the NIBP value “120/82 (99)” is displayed in addition to the SpO ₂ value “92”, and the respiratory waveform (RESP) W4 In addition to the RESP value “30”, the EtCO ₂ value “38” is displayed in an overlapping manner. Which measurement value is superimposed on which waveform and displayed can be selected and set by the user according to the clinical setting. Alternatively, which measurement value is to be displayed on which waveform may be set by selecting a related parameter by the apparatus according to the clinical setting. By doing so, the relationship between one waveform and a plurality of measured values can be grasped at a glance, so that the medical staff can grasp the patient's condition more quickly and accurately. Incidentally, as shown in FIG. 5, when a plurality of measurement values are displayed on one waveform, the measurement value label is displayed near the measurement value to indicate what the measurement value is displayed. (For example, “HR”, “BP1”, “SpO ₂ ”, “NIBP”, “RESP”, “EtCO ₂ ”) is preferably displayed.

  In the above-described embodiment, the case where the present invention is applied to a biological information monitor has been described. However, the present invention is not limited to a biological information monitor, and is widely applied to biological information display devices that display waveforms and measured values on the same screen. For example, it can be applied to a display device for a ventilator or an anesthesia machine.

  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 main features thereof.

  The present invention is suitable for a biological information display device that displays an image including a measured waveform and a measured value on the same screen.

DESCRIPTION OF SYMBOLS 100 Biological information monitor 102 Measurement processing / alarm processing unit 103 Measurement value calculation unit 104 Waveform formation unit 106 Display control unit 107 Display

Claims (9)

A biological information display device that displays an image including a measured waveform and a measured value on the same screen,
A display for displaying the image;
A display control unit for controlling the measured waveform and a predetermined measurement value to be displayed on the display;
A biological information display device comprising: The predetermined measurement value displayed to be superimposed on the measured waveform is a measurement value corresponding to the measured waveform.
The biological information display device according to claim 1. The predetermined measurement value displayed to be superimposed on the measured waveform is a measurement value selected and set according to a clinical setting.
The biological information display device according to claim 1. A plurality of measurement values are displayed in a superimposed manner on the one measured waveform.
The biological information display device according to claim 1. The display control unit arranges the waveform in a predetermined layer and arranges the measured value in a layer on the front side of the layer in which the waveform is arranged.
The biological information display device according to any one of claims 1 to 4. The transparency of the measured value is adjustable,
The biological information display device according to any one of claims 1 to 5. The display control unit, when an alarm, makes the measurement value stand out by reducing the transparency of the measurement value,
The biological information display device according to any one of claims 1 to 6. The display control unit makes the waveform inconspicuous by adjusting the waveform so that it has a darkness similar to the background color at the time of an alarm,
The biological information display device according to any one of claims 1 to 7. The display control unit displays the corresponding waveform and the color of the measurement value to be the same system, and changes the color of the measurement value at the time of an alarm.
The biological information display device according to any one of claims 1 to 8.