KR101057787B1 - Defibrillator for sensing outside touch of patient and method for operating defibrillator - Google Patents

Abstract

PURPOSE: A defibrillator for sensing the outside contact to a outside object of a patient and a method operating thereof are provided to multiply the reliability of electrocardiogram measurement by restricting the contact to an object, prevent the generation of the leakage current, and not flowing noise in the electrocardiogram measurement. CONSTITUTION: A current measurement unit(103) is connected with electrode attachment to a human body and measures the current value between electrodes. A sensor unit(105) checks the enclosure contact of the human body if the measured current value does not keep a set value. Warning announcement information on the contact limit to the human body is generated and output if a processor(109) identifies the outside contact.

Description

Defibrillator and method of operating the defibrillator to detect external contact to the patient {DEFIBRILLATOR FOR SENSING OUTSIDE TOUCH OF PATIENT AND METHOD FOR OPERATING DEFIBRILLATOR}

Embodiments of the present invention, when the external contact with the object is confirmed, provides a warning notification information about the contact limit to the object, to provide a defibrillator and a method of operating the defibrillator that can limit the contact to the object. will be.

Defibrillator is a ventricular fibrillation of the heart that can cause death (sudden death), ventricular tachycardia, ventricular tachycardia, and sudden cardiac arrest. Provides a strong electrical shock, directly or indirectly, to the patient's heart, which instantly depolarizes the entire myocardium, restoring the heart to normal heart rhythm and allowing blood to flow smoothly through the heart. It is an essential emergency medical device to help you.

That is, the defibrillator may measure the current of the patient, and when the defibrillation is required as a result of analyzing the electrocardiogram using the measured current, may provide an electric shock to the patient. In this case, when the user of the defibrillator contacts the patient, the user's body may be damaged due to leakage current generated from the patient.

Therefore, there is a need for a technology that allows a user to safely use a defibrillator by limiting user contact with a patient to prevent the occurrence of leakage current.

According to an embodiment of the present invention, when contact with an external body to an object (eg, a human body) is confirmed, warning notification information regarding contact limitation to the object is provided to limit the contact to the object, thereby preventing the occurrence of leakage current. The purpose is to enable the user to safely use the defibrillator.

In addition, an embodiment of the present invention is to limit the contact to the object, to prevent the occurrence of leakage current, so that noise does not flow into the ECG measurement, it is possible to increase the reliability of ECG measurement.

The defibrillator for detecting external body contact to the patient according to an embodiment of the present invention, in conjunction with the electrode attachment to the object, the current measuring unit for measuring the current value held in the object, and the variation of the measured current value Considering whether or not, including a sensor unit for confirming the external body contact to the object, and if the external body contact is confirmed, the processor for generating warning notification information on the contact limit to the object and outputs through the speaker. .

In addition, the method of operating the defibrillator for detecting external body contact to the patient according to an embodiment of the present invention, in conjunction with the electrode attachment to the object, measuring the current value held in the object, the measured Checking external contact with the object in consideration of a change in the current value, and generating warning notification information on contact limitation to the object when the external contact is confirmed, and outputting the same through a speaker It includes.

According to an embodiment of the present invention, when contact with an external body to an object (for example, a human body) is confirmed, warning notification information regarding contact limitation to the object is provided to limit the contact to the object, thereby preventing the occurrence of leakage current. To allow the user to safely use the defibrillator.

In addition, according to an embodiment of the present invention, by limiting the contact to the object, to prevent the occurrence of leakage current, noise is not introduced into the ECG measurement, it is possible to increase the reliability of the ECG measurement.

1 is a view showing the configuration of a defibrillator for detecting external body contact to the patient according to an embodiment of the present invention.
2 is a diagram illustrating an example of use of a defibrillator for detecting external body contact with a patient according to an embodiment of the present invention.
3 is a diagram illustrating a matching circuit for a defibrillator for detecting external body contact with a patient according to an embodiment of the present invention.
4 is a diagram illustrating an example of sensing external body contact in the defibrillator.
5 is a flowchart illustrating a method of operating a defibrillator for detecting external body contact with a patient according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the defibrillator and the method of operation of the defibrillator for detecting external contact to the patient according to an embodiment of the present invention.

1 is a view showing the configuration of a defibrillator for detecting external body contact to the patient according to an embodiment of the present invention.

Referring to FIG. 1, the defibrillator 101 for detecting external body contact with a patient according to an embodiment of the present invention includes a current measuring unit 103, a sensor unit 105, an oscillator 107, and a processor 109. ).

The current measuring unit 103 measures a current value held in the object in conjunction with attachment of an electrode to an object (eg, a human body). In this case, the current measuring unit 103 may measure the current value held in the object by measuring the current value between the first and second pads as the first and second pads including the electrodes are attached to the object.

In detail, the current measuring unit 103 may allow a predetermined current to flow through the object to measure a current flowing through the object, or measure a current flowing through the object.

For example, the current measuring unit 103 forms a field between the electrodes spaced apart from each other with respect to the object, and measures a magnitude of the current induced by the field as the current value, thereby allowing a predetermined current to flow through the object. The current flowing through the object can be measured.

In addition, the current measuring unit 103 may measure the current flowing through the object by measuring the magnitude of the current flowing between the electrodes spaced apart from each other with respect to the object as the current value.

The sensor unit 105 checks the external body contact with the object in consideration of whether the measured current value changes. At this time, the sensor unit 105 determines that the second electric field induced by the second electrode by the first electric field generated by the first electrode decreases below the predetermined electric field according to the external body contact. External contact can be confirmed.

In addition, after the sensor unit 105 outputs the warning notification information regarding the contact limit to the object by the processor 109, the sensor unit 105 may recheck whether or not the current value is changed and check the external body contact again.

The sensor unit 105 periodically checks the external body contact with the object in consideration of whether the current value changes, and transmits the confirmation result to the processor 109 to determine a control (eg, apply) to the electric shock. Criterion of suspension or resumption) may be provided.

The oscillator 107 may generate an electric shock and apply the generated electric shock to the electrode attached to the object.

Here, the oscillator 107 may generate an electric shock of a predetermined strength, but is not limited thereto, and may determine the strength corresponding to the current value of the object, and may generate the electric shock of the determined strength. Accordingly, the oscillator 107 may generate an electric shock in which the intensity is adaptively adjusted according to the state of the object.

When the external contact is confirmed, the processor 109 generates warning notification information regarding the contact limit to the object and outputs the warning notification information through the speaker so that the user can easily recognize the warning about the contact limit to the object.

In addition, when the external body contact is confirmed when the electric shock is generated, the processor 109 stops the electric shock to be applied to the electrode, thereby preventing the occurrence of leakage current due to the external body contact. Damage can be prevented.

The processor 109 controls the oscillator 107 to resume the application of the suspended electric shock if the external unit contact is not confirmed by the sensor unit 105 as a result of rechecking whether the current value held in the object is changed. can do. That is, the processor 109 outputs the warning notification information regarding the contact limit to the object, and when the user who has recognized the warning notification information releases contact with the object, the processor 109 returns the suspended electric shock to the object again. Can be authorized.

On the other hand, when the predetermined time elapses after the processor 109 outputs the warning notification information regarding the contact limit to the object, the oscillator 107 resumes the suspended electric shock application regardless of external contact. Can be controlled. For example, when three seconds have elapsed after the processor 109 outputs the warning notification information regarding the contact limit to the object, the oscillator 107 resumes the suspended electric shock application regardless of maintaining or releasing external contact. ) Can be controlled.

That is, after outputting the warning notification information, the processor 109 forcibly resumes the application of the suspended electric shock even if the user does not recognize the warning notification information and maintains external contact. It is possible to effectively cope with an emergency of an object such as a human body without delay.

In addition, the defibrillator for detecting external contact to the patient according to an embodiment of the present invention, when measuring the electrocardiogram, by limiting the contact to the object, by preventing the occurrence of leakage current, noise is not introduced into the electrocardiogram measurement It is possible to increase the reliability of ECG measurement.

2 is a diagram illustrating an example of use of a defibrillator for detecting external body contact with a patient according to an embodiment of the present invention. 3 is a diagram illustrating a matching circuit for a defibrillator for detecting external contact to a patient according to an embodiment of the present invention, Figure 4 is a diagram showing an example of detecting an external contact in the defibrillator. .

Referring to FIG. 2, the defibrillator 101 which detects external body contact to a patient is linked to attachment of a first pad 201 and a second pad 203 to an object, for example, a human body. The value can be measured. That is, the defibrillator 101 for detecting external body contact to the patient measures the current value between the first pad 201 and the second pad 203 attached to each other to measure the current value maintained in the human body. can do. For example, the defibrillator 101 that detects external body contact with a patient may measure a current value between the first pad 201 attached to the right chest and the second pad 203 attached to the left flank. .

The defibrillator 101 that detects external body contact with the patient may check external body contact with the object in consideration of whether the measured current value changes.

The matching circuit for the defibrillator for sensing external contact to the patient is as shown in FIG. 3. That is, the defibrillator for detecting external contact with the patient may receive a signal detected at both ends of a resistance corresponding to the patient, for example, and measure a current maintained in the patient. Here, the defibrillator for detecting external body contact to the patient can determine whether the leakage current is generated due to the resistance corresponding to the user according to the user's contact through the change in the current maintained in the patient.

Specifically, as shown in FIG. 4, the defibrillator for detecting external body contact to the patient is induced in the second electrode 403 by the first electric field generated by the first electrode 401 according to the external body contact. By measuring the second electric field, and confirming that the measured second electric field decreases below the predetermined electric field, it is possible to confirm the external body contact with the object. Here, the predetermined electric field may be, for example, the first electric field.

When the external body contact is detected, the defibrillator 101 detects the external body contact, and generates warning notification information regarding the contact limit to the object and outputs it through the speaker, thereby allowing the user to limit the contact with the object. Make it easy to recognize warnings. Accordingly, the defibrillator 101 for detecting external body contact with the patient may prevent the user from being damaged by allowing the user to release the contact with the object.

5 is a flowchart illustrating a method of operating a defibrillator for detecting external body contact with a patient according to an embodiment of the present invention.

Referring to FIG. 5, in step 501, a defibrillator for detecting external body contact with a patient measures a current value held in the object in association with attachment of an electrode to an object (eg, a human body).

In detail, the defibrillator for detecting external body contact with the patient may allow a predetermined current to flow through the object to measure a current flowing through the object, or measure a current flowing through the object.

For example, a defibrillator that detects external body contact with a patient forms a field between the electrodes that are spaced apart from the object and measures the magnitude of the current induced by the field as the current value, thereby providing a predetermined The current flows, and the current flowing in the object can be measured.

In addition, the defibrillator for detecting external body contact to the patient can measure the current flowing through the object by measuring the magnitude of the current flowing between the electrodes attached to the object spaced apart from each other by the current value.

In step 503, the defibrillator detecting external contact to the patient checks external contact to the object in consideration of whether the measured current value changes. At this time, the defibrillator for detecting external body contact with the patient measures the second electric field induced at the second electrode by the first electric field generated at the first electrode, and the measured second electric field is reduced below the preset electric field. By confirming that the external contact with the object can be confirmed.

In step 505, the defibrillator sensing external contact to the patient, if external contact is not confirmed, in step 507 applies an electrical shock to the electrode attached to the object.

That is, the defibrillator for detecting external body contact with the patient may perform defibrillation by applying electric shock to the human body when external body contact is not confirmed.

On the other hand, in step 505, when the external body contact is detected, the defibrillator stops applying the electric shock to the electrode attached to the object in step 509, and in step 511, the contact with the object. By generating warning notification information on the restriction and outputting it through the speaker, the user can easily recognize the warning about the contact limit to the object.

Thereafter, the defibrillator detecting external contact to the patient repeats steps 501, 503, and 505 to reconfirm whether or not the current value held in the object is changed. The electric shock application can be resumed.

On the other hand, the defibrillator for detecting external body contact with the patient outputs the warning notification information regarding the contact limit to the object, and when the predetermined time elapses, the suspended electric shock is applied regardless of the external body contact. You can resume it. That is, after the defibrillator for detecting external body contact with the patient outputs the warning notification information, the user does not recognize the warning notification information and, even when the external body contact is maintained, forcibly applies the stopped electric shock. By resuming, it is possible to effectively cope with an emergency of an object such as a human body.

According to an embodiment of the present invention, when contact with an external body to an object (for example, a human body) is confirmed, warning notification information regarding contact limitation to the object is provided to limit the contact to the object, thereby preventing the occurrence of leakage current. To allow the user to safely use the defibrillator.

In addition, according to an embodiment of the present invention, by limiting the contact to the object, to prevent the occurrence of leakage current, noise is not introduced into the ECG measurement, it is possible to increase the reliability of the ECG measurement.

Embodiments of the present invention may be implemented in the form of program instructions that can be executed through various computer means and recorded on a computer readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. Program instructions recorded on the media may be those specially designed and constructed for the purposes of the present invention, or they may be of the kind well-known and available to those having skill in the computer software arts. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tape, optical media such as CD-ROMs, DVDs, and magnetic disks, such as floppy disks. Magneto-optical media, and hardware devices specifically configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine code generated by a compiler, but also high-level language code that can be executed by a computer using an interpreter or the like. The hardware device described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above embodiments, and those skilled in the art to which the present invention pertains various modifications and variations from such descriptions. This is possible.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the claims below but also by the equivalents of the claims.

101: Defibrillator to detect external contact to the patient
103: current measuring unit
105: sensor unit
107: oscillation part
109: processor

Claims (12)

A current measuring unit measuring the current value between the electrodes in association with the attachment of the electrode to the human body;
A sensor unit configured to check external body contact with the human body when the measured current value does not maintain a preset value; And
A processor for generating and outputting warning notification information on contact limitation to the human body when the external body contact is confirmed
Defibrillator for sensing external contact to the patient comprising a. The method of claim 1,
The current measuring unit,
A defibrillator for sensing external body contact to the patient, forming a field between the electrodes to be spaced apart from each other, and measuring the magnitude of the current induced by the field as the current value. The method of claim 1,
The current measuring unit,
A defibrillator for detecting external body contact to the patient, for measuring the magnitude of the current flowing between the electrodes to be spaced apart from each other with respect to the human body to the current value. The method of claim 1,
Oscillator which generates electric shock and applies it to the electrode
Further comprising:
When the external body contact is confirmed when the electric shock is generated,
The processor comprising:
A defibrillator for sensing external body contact with a patient that stops applying the electric shock to the electrode. The method of claim 4, wherein
The sensor unit includes:
After outputting the warning notification information, reconfirm the contact with the external body to the human body,
The processor comprising:
A defibrillator for sensing external body contact to a patient if the external body contact is not confirmed as a result of the re-check at the sensor unit, controlling the oscillator to resume the suspended electric shock application. The method of claim 4, wherein
The processor comprising:
And a defibrillator for detecting external body contact with a patient, when the predetermined time has elapsed after outputting the warning notification information, controlling the oscillator to resume the application of the suspended electric shock. The method of claim 1,
The sensor unit includes:
A defibrillator for detecting external body contact to a patient if the first electric field generated at the first electrode and the second electric field induced at the second electrode by the first electric field are different. Measuring, at a current measurement unit of the defibrillator, a current value between the electrodes in association with attachment of an electrode to a human body;
Checking, by the sensor unit of the defibrillator, contacting the external body with the human body when the measured current value does not maintain a predetermined value; And
In the processor of the defibrillator, if the contact with the external body is confirmed, generating and outputting warning notification information about the contact limit to the human body
Method of operation of the defibrillator for sensing external contact to the patient comprising a. The method of claim 8,
Generating an electric shock in the oscillator of the defibrillator; And
At the processor, stopping application of the electric shock to the electrode when contact with the external body is confirmed
Method of operation of the defibrillator for sensing external body contact to the patient further comprising. 10. The method of claim 9,
Reconfirming, by the sensor unit, the external body contact with the human body after outputting the warning notification information; And
In the processor, if the external contact is not confirmed as a result of the reconfirmation, resuming the suspended electric shock application
Method of operation of the defibrillator for sensing external body contact to the patient further comprising. 10. The method of claim 9,
In the processor, when the predetermined time elapses after outputting the warning notification information, resuming the suspended electric shock application;
Method of operation of the defibrillator for sensing external body contact to the patient further comprising. The method of claim 8,
Checking the external body contact to the human body,
If the first electric field generated at the first electrode is different from the second electric field induced at the second electrode by the first electric field, confirming the external body contact.
Method of operation of the defibrillator for sensing external contact to the patient comprising a.

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