JP2018161470A - Electrocardiograph and electrocardiogram transmission system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To continuously acquire an electrocardiogram even when electrocardiogram information wirelessly transmitted from an electrocardiograph is interrupted by adding a memory function to an electrocardiograph.SOLUTION: An electrocardiograph 1 mounted on a subject acquires 12-lead electrocardiogram information on the subject, and causes a display terminal connected to the outside to display an electrocardiogram. The electrocardiograph 1 includes a memory 11 that stores the electrocardiogram information, and can read out the stored electrocardiogram information when necessary, and a transmitter 15 that regularly transmits the electrocardiogram information to the display terminal by short-distance communication.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an electrocardiograph and an electrocardiogram transmission system.

  Cases in which an electrocardiogram of a subject is acquired include during a medical examination, during patient transportation in an ambulance, and during surgery. There is an electrocardiogram transmission system disclosed in Patent Document 1 as one used during patient transportation in an ambulance. This system is mainly used when an electrocardiogram of a patient being transported by an ambulance is transmitted from the ambulance to a doctor in the hospital. In this system, an electrocardiogram acquired by a 12-lead electrocardiograph is displayed on a doctor's personal computer (also referred to as a display terminal) through a computer network.

  In recent years, for example, it has been recommended that patients who have undergone surgery for myocardial infarction undergo gait training on the second day after surgery. In the rehabilitation of patients with heart disease, a cardiopulmonary exercise test is performed. During walking and rehabilitation, the patient is monitored for electrocardiogram by a 12-lead electrocardiograph.

Japanese Patent No. 5654964

  The conventional electrocardiograph is designed to be used in a resting state where the subject does not walk or exercise, so it is difficult to obtain an electrocardiogram of the subject during walking or rehabilitation. It was. In the system of Patent Document 1, it is possible to acquire the electrocardiogram information from the electrocardiograph by wireless transmission. However, when the subject moves by walking or exercising, the wireless transmission cannot be performed. In that case, the electrocardiogram information from the electrocardiograph is interrupted. As a result, the electrocardiogram created based on the electrocardiogram information is also interrupted, and the electrocardiogram of the subject who is walking or rehabilitating cannot be continuously acquired.

  An object of the present invention is to add a memory function to an electrocardiograph so that the electrocardiogram can be continuously acquired even if electrocardiogram information transmitted wirelessly from the electrocardiograph is interrupted.

  The first invention is an electrocardiograph that is attached to a subject, acquires 12-lead ECG information of the subject, and displays the electrocardiogram on a display terminal connected to the outside. The electrocardiograph includes a memory that stores electrocardiogram information, the stored electrocardiogram information can be read out when necessary, and a transmitter that constantly transmits the electrocardiogram information to the display terminal by short-range communication.

  According to the first invention, the electrocardiograph includes a memory for storing an electrocardiogram signal. Therefore, even if communication from the electrocardiograph to the external display terminal is interrupted, the electrocardiogram signal is continuously stored in the electrocardiograph. That is, when the communication is interrupted, the electrocardiogram at that time is not displayed on the external display terminal, but the electrocardiogram signal is stored in the electrocardiograph memory during that time.

  For example, when a supervisor approaches a subject who is walking or rehabilitating, short-range communication is possible, an electrocardiogram signal is transmitted from the electrocardiograph, and an electrocardiogram is displayed on the display terminal. Therefore, the monitor can monitor the condition of the subject from the state of the subject and the electrocardiogram. If the monitor is away from the subject and short-distance communication is disabled, the electrocardiogram is not displayed on the display terminal, but the electrocardiogram signal is continuously stored in the memory in the electrocardiograph. Therefore, the doctor can diagnose the subject by acquiring an electrocardiogram based on the electrocardiogram signal stored in the memory as necessary.

  The second invention is an electrocardiogram transmission system for transmitting an electrocardiogram created based on the electrocardiogram information of the electrocardiograph according to claim 1 to a diagnostician who diagnoses the cardiac function of the subject based on the electrocardiogram. . And it is provided for the monitor who monitors the electrocardiogram of the subject while observing the state of the subject, and creates and displays the electrocardiogram based on the electrocardiogram information transmitted from the electrocardiograph by short-range communication. A monitoring display terminal that transmits the electrocardiogram to the diagnostician when necessary, and a diagnostic display terminal that is provided for the diagnostician and receives and displays the electrocardiogram from the monitoring display terminal through a computer network. .

  According to the second invention, the electrocardiogram can be displayed on the diagnostic display terminal in accordance with an instruction from the monitoring display terminal to allow the diagnostician to diagnose the condition of the subject. Therefore, for example, when the subject feels an abnormality himself / herself, the electrocardiogram can be immediately transmitted to the diagnostic display terminal so that the diagnostician can diagnose the condition based on the electrocardiogram.

It is a system configuration figure of one embodiment of the present invention. It is a block diagram which shows the detail of the electrocardiograph in the said embodiment.

  FIG. 1 illustrates one embodiment of the present invention. This embodiment is a system for transmitting electrocardiograms of subjects who are heart disease patients during gait training to a display terminal of a doctor at a remote location in a hospital.

  The electrocardiograph 1 is a 12-lead electrocardiograph, which captures an electrocardiogram signal from the surface of the subject's body and creates electrocardiogram information as a basis for creating an electrocardiogram. In this case, there are a plurality of electrocardiographs 1 (only two are shown in FIG. 1) corresponding to a plurality of patients who are walking, and are provided for each subject. The electrocardiogram information created by the electrocardiograph 1 is transmitted to the monitoring display terminal 2 by short-range communication. The monitoring display terminal 2 includes a personal computer, a tablet terminal, a smartphone, and the like possessed by a physical therapist (monitoring person) who monitors the subject's electrocardiogram while observing the state of the subject. Note that Bluetooth (registered trademark), which is generally used, is used as the short-range communication.

  The monitoring display terminal 2 stores and displays the electrocardiogram information from the electrocardiograph 1 as an electrocardiogram associated with the measurement time of the electrocardiogram signal. The monitoring display terminal 2 is connected to an internetwork (corresponding to the computer network of the present invention) 3 via a wireless LAN, and a diagnostic display terminal 4 and a server 5 are connected to the internetwork 3. . Therefore, the electrocardiogram stored in the monitoring display terminal 2 can be transmitted to the diagnostic display terminal 4 and the server 5. In this case, the diagnostic display terminal 4 is a personal computer or a tablet terminal owned and used by a doctor (diagnostic) in the hospital, and displays the electrocardiogram transmitted from the monitoring display terminal 2. The server 5 is a server computer installed in the system management area, and stores an electrocardiogram transmitted from the monitoring display terminal 2. Therefore, the electrocardiogram stored in the server 5 can be shared via the internetwork 3 in the diagnostic display terminal 4 or another personal computer when necessary. The internetwork 3 and the monitoring display terminal 2, the diagnostic display terminal 4, and the server 5 may be connected by wire or wirelessly.

  FIG. 2 shows a detailed configuration of the electrocardiograph 1. The electrocardiograph 1 includes an electrocardiogram amplifier 14 that receives an electrocardiogram signal from a plurality of detection terminals attached to the body surface of the subject, amplifies the electrocardiogram signal, and controls the controller 12. Transmit to. On the other hand, the controller 12 sends a command signal instructing the electrocardiogram amplifier 14 to create an electrocardiogram. As is well known, the controller 12 receives an electrocardiogram signal from the electrocardiogram amplifier 14 and creates electrocardiogram information as a basis for creating an electrocardiogram. A memory 11, a display device 13, and a transmitter 15 are connected to the controller 12.

  The memory 11 receives electrocardiogram information from the controller 12 and sequentially stores it. The memory 11 can be configured by a flash memory such as a USB memory or an SD card. Of course, a memory other than the flash memory can also be used.

  The display 13 displays the electrocardiogram waveform created by the controller 12. The display 13 can be easily visually recognized by the examinee himself and a caregiver around the examinee. In this case, the display 13 displays only a part of the waveform of the 12-lead ECG. This is because the display 13 is not for viewing an electrocardiogram for the purpose of diagnosis, but only for checking whether or not the electrocardiograph 1 is functioning normally. Therefore, when a failure occurs in the system and an electrocardiogram is not displayed on the monitoring display terminal 2 or the diagnostic display terminal 4, it is easy to identify the cause of the failure depending on whether or not the electrocardiograph 1 is operating normally. doing.

  In the transmitter 15, the electrocardiogram information created by the controller 12 is transmitted to the monitoring display terminal 2. The transmitter 15 is configured to realize near field communication as described above.

  According to the above embodiment, when a physical therapist approaches one of the walking subjects A, short-distance communication between the electrocardiograph 1 of the subject A and the monitoring display terminal 2 is possible. Thus, the electrocardiogram information is transmitted from the electrocardiograph 1 of the subject A to the monitoring display terminal 2. The monitoring display terminal 2 creates and displays an electrocardiogram based on the electrocardiogram information. Therefore, the physical therapist can monitor the condition of the subject A from the state of the subject A and the electrocardiogram.

  If the physical therapist leaves the subject A and short-distance communication is disabled, the electrocardiogram is not displayed on the monitoring display terminal 2, but the electrocardiogram information is stored in the electrocardiograph 1 of the subject A. It continues to be stored in the memory 11. Therefore, the electrocardiogram of the subject A during a period that cannot be monitored by the physical therapist can be read later from the memory 11 and diagnosed as necessary by an analysis device (not shown).

  When a physical therapist away from the subject A approaches another subject B, the electrocardiogram information is transmitted from the electrocardiograph 1 of the subject B to the monitoring display terminal 2 this time. The monitoring display terminal 2 creates and displays an electrocardiogram based on the electrocardiogram information. Therefore, the physical therapist can monitor the condition of the subject B from the state of the subject B and the electrocardiogram. Thus, the physical therapist can monitor the patient while confirming the electrocardiogram even when the patient is walking. Moreover, a single physical therapist can monitor a plurality of patients.

  As mentioned above, although specific embodiment was described, this invention is not limited to those external appearances and structures, A various change, addition, and deletion are possible in the range which does not change the summary of this invention. For example, in the above embodiment, the electrocardiogram transmission system of the present invention is applied to the case of monitoring and diagnosing the electrocardiogram of a subject who is a patient during gait training, but the patient being transported by an ambulance is the subject It can also be applied to. When a patient being transported by an ambulance is a subject, the electrocardiogram information created by the electrocardiograph 1 is converted into an electrocardiogram by the monitoring display terminal 2 and transmitted to the diagnostic display terminal 4. The electrocardiogram transmitted at this time is only a fixed time of about 10 seconds. Since the electrocardiograms for all periods including before and after that are stored in the memory 11, after the ambulance arrives at the hospital, it can be read out from the memory 11 by an analysis device (not shown).

  Further, the electrocardiogram transmission system of the present invention can be applied to a case where an outpatient who normally lives at home or the like is a subject. In this case, the subject wears the monitor display terminal 2 together with the electrocardiograph 1 and lives, and the electrocardiogram information created by the electrocardiograph 1 is continuously stored in the memory 11. The electrocardiogram information stored in the memory 11 is delivered to a doctor for diagnosis after a predetermined period of time, as in the case of an electrocardiogram stored by a normal Holter electrocardiograph. However, if the subject feels abnormal even before the determined time has elapsed, the electrocardiogram at that time can be transmitted to the diagnostic display terminal 4 by operating the monitoring display terminal 2. . Therefore, it is possible to have a doctor diagnose the electrocardiogram at the time of abnormality without waiting for the elapse of a predetermined time.

  Furthermore, the electrocardiogram transmission system of the present invention can be configured based on a Holter electrocardiograph. That is, since the Holter electrocardiograph has functions other than the display 13 and the transmitter 15 in the electrocardiograph 1 described in the above embodiment, at least a transmission function is added to the Holter electrocardiograph. An electrocardiogram transmission system can be realized. In addition, when the function of the display device 13 is not provided, the operation state of the Holter electrocardiograph cannot be confirmed. However, when the patient who has the Holter electrocardiograph communicates with the monitoring display terminal 2 in close proximity, The electrocardiogram acquired by the Holter electrocardiograph can be displayed on the monitoring display terminal 2. Further, by reading the electrocardiogram information recorded in the memory of the Holter electrocardiograph, a doctor can be diagnosed when necessary.

1 ECG 11 Memory 12 Controller 13 Display 14 ECG Amplifier 15 Transmitter 2 Monitoring Display Terminal (Display Terminal)
3 Internet work (computer network)
4 Diagnosis display terminal 5 Server

Claims (2)

An electrocardiograph attached to a subject to acquire 12-lead electrocardiogram information of the subject and displaying the electrocardiogram on a display terminal connected to the outside,
A memory capable of storing electrocardiogram information and reading the stored electrocardiogram information when necessary;
An electrocardiograph comprising: a transmitter that constantly transmits electrocardiogram information by short-range communication toward the display terminal. An electrocardiogram transmission system for transmitting an electrocardiogram created based on the electrocardiogram information of the electrocardiograph according to claim 1 to a diagnostician who diagnoses the cardiac function of the subject based on the electrocardiogram,
It is provided for the monitor who monitors the electrocardiogram of the subject while observing the state of the subject, and creates and displays an electrocardiogram based on the electrocardiogram information transmitted from the electrocardiograph by short-range communication A monitoring display terminal for transmitting an electrocardiogram to the diagnostician when necessary;
An electrocardiogram transmission system comprising: a diagnostic display terminal which is provided for the diagnostician and receives and displays an electrocardiogram from the monitoring display terminal through a computer network.

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