JP2016059771A - Display method in electrocardiogram examination apparatus, and electrocardiogram examination apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a display method in electrocardiogram examination apparatus, and an electrocardiogram examination apparatus capable of reducing an examination time for examining an abnormal region of the heart.SOLUTION: A plurality of template waveforms VPC1, VPC2, and VPC3, and a plurality of pacing waveforms PACE1 and PACE2 are displayed on the same screen simultaneously. Thereby, an examination time can be reduced as compared to the case where an abnormal region is determined while the template waveforms and the pacing waveforms are compared one by one.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a display method in an electrocardiogram examination apparatus and an electrocardiogram examination apparatus that simultaneously display a template waveform at the time of an abnormal heart and a measurement waveform such as a pacing waveform when an electrical stimulus is applied on the same screen.

  Currently, treatment is performed to suppress the occurrence of tachyarrhythmia by ablating the myocardium for tachyarrhythmias such as ventricular tachycardia (VT) and frequent premature ventricular contractions (VPC). Yes. At this time, each part of the heart is electrically stimulated, and a template waveform that is an electrocardiogram waveform of a spontaneous tachyarrhythmia is compared with a pacing waveform that is an electrocardiogram waveform that appears when each part is electrically stimulated, An electrical stimulation site where a pacing waveform that is the same as or similar to the template waveform is obtained is selected as a site to be ablated. Incidentally, as the electrocardiographic waveform, for example, a body surface 12-lead electrocardiogram is used.

  An example using such a template waveform and a pacing waveform will be described with reference to FIG. The template waveform W1 and the pacing waveform W2 are simultaneously displayed on the same screen of the display. When it is determined that the template waveform W1 and the pacing waveform W2 are similar, the doctor determines that the electrically stimulated site is the origin of VPC or the like, and ablate the site. Further, the similarity between the template waveform W1 and the pacing waveform W2 calculated by the apparatus is displayed on the display (“94.3”, “96.1” in FIG. 1), and the doctor refers to this similarity. Then, it is determined whether or not to ablate the part. A technique using such a template waveform and a pacing waveform is described in Patent Document 1, for example.

JP 2006-025836 A

  By the way, the inspection of the abnormal part of the heart is performed by comparing a plurality of pacing waveforms corresponding to each stimulation part of the heart with the template waveform. For this reason, the time required for the comparison becomes long, and as a result, the inspection time becomes long. In addition, when there are a plurality of abnormal portions of the heart, there are a plurality of template waveforms, and in such a case, the number of comparison targets increases, so that the examination time is further increased.

  The present invention has been made in view of the above points, and provides a display method and an electrocardiogram examination apparatus in an electrocardiogram examination apparatus, which can shorten an examination time for examining an abnormal part of the heart.

One aspect of the display method in the electrocardiogram examination apparatus of the present invention is:
A set of comparison waveforms consisting of one template waveform and one measurement waveform;
One or more template waveforms that are candidates for the comparison target waveform;
One or more measured waveforms that are candidates for the waveform to be compared;
Are simultaneously displayed on the same screen.

One aspect of the electrocardiogram examination apparatus of the present invention is:
A storage unit for storing one or more template waveforms and one or more measurement waveforms;
One set of comparison target waveforms composed of one template waveform and one measurement waveform, one or more template waveforms that are candidates for the comparison target waveform, and one or more measurement waveforms that are candidates for the comparison target waveform And a display control unit that simultaneously displays on the same screen,
It comprises.

  According to the present invention, the inspection time for inspecting an abnormal part of the heart can be shortened.

A diagram showing a display example of a conventional template waveform and pacing waveform Schematic showing the overall configuration of the polygraph according to the embodiment The figure which shows the example of a display of the template waveform and pacing waveform in embodiment The block diagram which shows the structure for implement | achieving the display by embodiment

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

<Overall configuration of polygraph>
FIG. 2 is an external view showing the overall configuration of the polygraph 100 according to the present embodiment. The polygraph 100 of the present embodiment is a polygraph used as a cardiac catheter inspection device. The polygraph 100 has a function of measuring and analyzing a body surface electrocardiogram and an intracardiac electrocardiogram. For this reason, the polygraph 100 can also be called an electrocardiogram examination apparatus.

  The polygraph 100 includes a main body unit 200, an interface unit 300, and an EPS (Electrophysiological Study) unit 400. The main unit 200 and the interface unit 300 are connected by a cable L1, and the interface unit 300 and the EPS unit 400 are connected by a cable L2. Although the figure shows an example in which the main unit 200 and the EPS unit 400 are connected via the interface unit 300, the main unit 200 and the EPS unit 400 may be directly connected by the cable L2.

  The main unit 200 is connected to an input device 10 such as a dedicated keyboard 11, keyboard 12, mouse 13, a plurality of displays 20 (21, 22, 23), and a recording device such as a thermal recorder 30. The interface unit 300 is connected to the main unit 200. The main unit 200 has a function as a central processing unit of the polygraph 100. The main unit 200 displays each biological information on the display 20 in a desired display form by performing arithmetic processing and analysis processing according to the program on each biological information input via the interface unit 300. The main unit 200 controls the display form of each biological information, the operation of the interface unit 300 and the EPS unit 400, and the devices connected to them based on the operation signal input from the input device 10. It has become.

The interface unit 300 includes a biological information input terminal group 310 including an ECG (electrocardiogram) input terminal, a non-invasive blood pressure input terminal, an SpO ₂ input terminal, and a body temperature input terminal. The interface unit 300 includes an ECG output terminal 311 and an open blood pressure output terminal 312. The interface unit 300 has an input terminal 313 for connecting a dedicated keyboard.

  The interface unit 300 includes an amplifier, and a predetermined signal input from the biological information input terminal group 310 is amplified by the amplifier and then output to the main unit 200.

  The EPS unit 400 includes a terminal 411 to which a stimulation cable is connected and a terminal 412 to which an ablator cable is connected. The EPS unit 400 is connected to a stimulation device (not shown) via these terminals 411 and 412. ) And an ablator device (not shown). The EPS unit 400 has a body surface electrocardiogram input terminal 413, to which an electrode attached to the body surface of the subject is connected. Thereby, a body surface electrocardiogram when a stimulus is applied to a predetermined part of the heart by the stimulation device can be obtained. In this embodiment, an electrode for obtaining a 12-lead electrocardiogram is connected to the body surface electrocardiogram input terminal 413.

  Furthermore, the EPS unit 400 includes terminals 414 and 415 to which the relay boxes 500 and 510 are connected. Each relay box 500, 510 is provided with a number of terminals 600 for connecting terminals corresponding to the electrodes provided on the electrode catheter.

  In the case of this embodiment, one relay box 500 (510, 520, 530) is provided with 40 channels (that is, 80 terminals 600) in a bipolar manner. The EPS unit 400 can connect two relay boxes 500 and 510. Therefore, the EPS unit 400 can input an intracardiac electrocardiogram for 80 (= 2 × 40) channels.

  Further, an EPS unit 410 for expansion can be connected to the EPS unit 400. The expansion EPS unit 410 can also connect the two relay boxes 520 and 530. Therefore, when the expansion EPS unit 410 is connected to the EPS unit 400, the intracardiac radio waves for 160 (= 4 × 40) channels. Shape signal can be input.

  The EPS unit 400 and the expansion EPS unit 410 incorporate an amplifier. The intracardiac electrocardiogram waveform input from the relay boxes 500, 510, 520, and 530 is amplified by the amplifier and then passed through the interface unit 300. To the main unit 200. A stimulation signal from a stimulation device (not shown) input from a terminal 411 to which a stimulation cable is connected is output to an electrode catheter (not shown) via a relay box 500 (510, 520, 530). Is done. Furthermore, the stimulation waveform based on the stimulation signal actually applied from the electrode catheter to the heart is amplified by the amplifier of the EPS unit 400 and the expansion EPS unit 410 together with the intracardiac electrocardiogram waveform, and then via the interface unit 300. It is sent to the main unit 200. The EPS unit 400 includes an ECG output terminal 416 and a speaker 417.

<Display of template waveform and pacing waveform>
FIG. 3 is a diagram showing a display example of the template waveform and the pacing waveform according to the present embodiment. 3 is displayed on the display 20 (that is, any one of the displays 21, 22, and 23).

  As shown in FIG. 3, in the present embodiment, a plurality of template waveforms VPC1, VPC2, and VPC3 and a plurality of pacing waveforms (shown as “measurement target waveforms” in the figure) PACE1 and PACE2 are displayed on the same screen. It is designed to display at the same time.

  In addition, a medical staff such as a doctor selects a template waveform and a pacing waveform from a plurality of template waveforms VPC1, VPC2, and VPC3 displayed simultaneously and a plurality of pacing waveforms PACE1 and PACE2 on the screen. The selected template waveform and pacing waveform are displayed adjacent to each other, and the similarity between these waveforms is calculated and displayed on the screen. In the example of FIG. 3, the template waveform VPC1 and the pacing waveform PACE1 are selected, displayed adjacent to the left side of the screen, and their similarity (“91”, “98” in FIG. 3) is calculated. Is displayed. Note that the selected set of template waveform and pacing waveform may be displayed in an overlapping manner without being displayed adjacently.

  FIG. 4 shows a configuration for realizing display according to the present embodiment as shown in FIG.

  The template waveform storage unit 201, the pacing waveform storage unit 202, the display control unit 203, and the similarity calculation unit 204 are provided in the main unit 200.

  The template waveform storage unit 201 stores an electrocardiographic waveform at the time of heart abnormality such as VPC as a template waveform. The pacing waveform storage unit 202 stores an electrocardiographic waveform as a pacing waveform when electrical stimulation is applied to each examination site of the heart by the stimulation device. In the polygraph 100 of FIG. 2, a 12-lead ECG waveform obtained based on an electrical signal from a 12-lead ECG electrode connected to the interface unit 300 or the EPS unit 400 is a template waveform storage unit 201 as a template waveform and a pacing waveform, respectively. And stored in the pacing waveform storage unit 202. In addition, the template waveform memorize | stored in the template waveform memory | storage part 201 is not restricted to what was measured by the polygraph 100, The electrocardiogram waveform at the time of the heart abnormality previously measured with the other electrocardiograph may be sufficient.

  The template waveform storage unit 201 stores one or more template waveforms. That is, since the electrocardiogram waveform is different when the abnormal part is different, when there are a plurality of abnormal parts, a plurality of electrocardiographic waveforms corresponding to the respective abnormal parts are stored as template waveforms. Similarly, the pacing waveform storage unit 202 stores one or more pacing waveforms. That is, since the electrocardiogram waveform is different when the site to which the electrical stimulation is applied is different, when there are a plurality of sites to which the electrical stimulation is applied, a plurality of electrocardiogram waveforms corresponding to the respective stimulation sites are stored as pacing waveforms.

  In the present embodiment, the 12 waveforms of the 12-lead waveform are defined as one template waveform and one pacing waveform regardless of the lead, and are not defined as twelve waveforms. Please be careful.

  The display control unit 203 displays the electrocardiographic waveforms stored in the template waveform storage unit 201 and the pacing waveform storage unit 202 on the display 20. In the example of FIG. 3, up to three template waveforms can be displayed as the “template waveform history”, and up to three pacing waveforms can be displayed as the “measurement target waveform history”.

  Here, when there are more than three electrocardiograms stored in the template waveform storage unit 201 and the pacing waveform storage unit 202, the “template history editing” and “measurement waveform history editing” icons are clicked. Thus, the template waveform displayed as “template waveform history” and the pacing waveform displayed as “measurement target waveform history” can be edited.

  A medical worker such as a doctor selects a set of template waveforms and pacing waveforms to be compared with the input device 10 while viewing a plurality of template waveforms and a plurality of pacing waveforms displayed simultaneously on the same screen. Then, the display control unit 203 displays a set of template waveforms and pacing waveforms to be compared on the display 20 adjacent to each other based on the operation signal from the input device 10 (in the example of FIG. 3, the template waveform VPC1 and Pacing waveform PACE 1). Further, the similarity calculation unit 204 calculates the similarity for the selected set of template waveform and pacing waveform. The calculated similarity is displayed on the display 20 by the display control unit 203.

  In addition, a “delete” icon is displayed on the screen to prevent the displayed template waveform and pacing waveform from being displayed, and the user does not display a waveform that the user does not want to display by clicking this icon. Can be. This makes it easier to select the comparison target waveform because it is clearly out of scope and can be erased from the screen when it is displayed on the screen.

  As described above, according to the present embodiment, a plurality of template waveforms VPC1, VPC2, and VPC3 and a plurality of pacing waveforms PACE1 and PACE2 are simultaneously displayed on the same screen, so that the template waveform and the pacing waveform are displayed. Compared with the case where an abnormal part is judged while comparing each of the above, the examination time can be shortened. In clinical practice, there is also an advantage that it is easier to compare if a plurality of objects to be compared are displayed.

  In the above-described embodiment, the case where three template waveforms and pacing waveforms are simultaneously displayed on the same screen has been described. However, the present invention is not limited to this. For example, two template waveforms and five pacing waveforms may be simultaneously displayed on the same screen. One template waveform may be displayed and a plurality of pacing waveforms may be displayed. Even in this case, the inspection time can be shortened as compared with the conventional case where one template waveform and one pacing waveform are displayed simultaneously.

  Moreover, although the case where the display method in the electrocardiogram examination apparatus of the present invention is applied to the polygraph 100 has been described in the above-described embodiment, it can be widely applied to electrocardiogram examination apparatuses other than the polygraph 100.

  Furthermore, in the above-described embodiment, the case where the target waveform to be compared with the template waveform is a pacing waveform has been described, but the measurement waveform other than the pacing waveform may be compared with the template waveform. That is, the present invention can be widely applied when comparing a template waveform and a measured electrocardiogram waveform, and the same effects as those of the above-described embodiment can be obtained. For example, an electrocardiogram waveform when an exercise load or a drug load is applied may be used as a measurement waveform to be compared.

  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 can be applied to a display method in an electrocardiogram examination apparatus and an electrocardiogram examination apparatus that simultaneously display a template waveform at the time of an abnormal heart and a pacing waveform when an electrical stimulus is applied on the same screen.

DESCRIPTION OF SYMBOLS 10 Input device 20 Display 100 Polygraph 200 Main body unit 201 Template waveform memory | storage part 202 Pacing waveform memory | storage part 203 Display control part 204 Similarity calculation part 300 Interface unit 400 EPS (Electrophysiological Study: Electrophysiological examination) unit 500,510,520, 530 Relay box VPC1, VPC2, VPC3 Template waveform PACE1, PACE2 Pacing waveform

Claims (10)

A set of comparison waveforms consisting of one template waveform and one measurement waveform;
One or more template waveforms that are candidates for the comparison target waveform;
One or more measured waveforms that are candidates for the waveform to be compared;
On the same screen at the same time,
A display method in an electrocardiogram examination apparatus. The set of comparison target waveforms are those selected by the user from the template waveform and the measurement waveform that are simultaneously displayed on the same screen.
The display method in the electrocardiogram examination apparatus according to claim 1. The one template waveform that is the set of comparison target waveforms and the one measurement waveform are displayed adjacent to or overlapped on the same screen.
The display method in the electrocardiogram examination apparatus according to claim 1 or 2. Calculating the similarity between the one template waveform that is the set of comparison target waveforms and the one measurement waveform, and displaying the calculated similarity on the same screen;
The display method in the electrocardiogram examination apparatus according to any one of claims 1 to 3. The measured waveform is a pacing waveform;
The display method in the electrocardiogram examination apparatus according to any one of claims 1 to 4. A storage unit for storing one or more template waveforms and one or more measurement waveforms;
One set of comparison target waveforms composed of one template waveform and one measurement waveform, one or more template waveforms that are candidates for the comparison target waveform, and one or more measurement waveforms that are candidates for the comparison target waveform And a display control unit that simultaneously displays on the same screen,
An electrocardiogram inspection apparatus comprising: The display control unit
One template waveform and one measurement waveform selected by the user from one or more template waveforms that are candidates for the comparison target waveform and one or more measurement waveforms that are candidates for the comparison target waveform, Are displayed as the set of comparison target waveforms.
The electrocardiogram inspection apparatus according to claim 6. The display control unit
The one template waveform that is the set of comparison target waveforms and the one measurement waveform are displayed adjacent to or overlapped on the same screen.
The electrocardiogram inspection apparatus according to claim 6 or 7. A similarity calculation unit for calculating the similarity between one template waveform selected by the user and one measurement waveform;
The display control unit displays the similarity calculated by the similarity calculation unit on the same screen;
The electrocardiogram inspection apparatus according to any one of claims 6 to 8. The measured waveform is a pacing waveform;
The electrocardiogram inspection apparatus according to any one of claims 6 to 9.

Images