KR102484225B1 - A patch type impedance measurement device and method - Google Patents

Abstract

The present invention relates to a patch-type impedance measuring device and method, and more particularly, to a patch-type impedance measuring device, which is attached to a body measurement part of a patient and includes an impedance measuring unit for measuring skin impedance for monitoring a patient's heart failure condition; an impedance signal processing unit filtering the patient's tissue impedance measured by the impedance measuring unit and converting it into a digital signal; and a monitoring unit that compares the digital signal-processed skin impedance of the impedance signal processing unit with a threshold value of a preset impedance range and monitors it.
In addition, a patch-type impedance measurement method according to a feature of the present invention is a patch-type impedance measurement method, comprising: (1) measuring skin impedance for monitoring the patient's heart failure state by attaching an impedance measurement unit to a body part of a patient; (2) filtering the patient's tissue impedance measured by the impedance measurement unit in step (1) by the signal processing unit and converting it into a digital signal; and (3) performing monitoring by the monitoring unit to compare the digital signal processed skin impedance of the impedance signal processing unit in step (2) with a threshold value of a preset impedance range.
According to the patch-type impedance measuring device and method proposed in the present invention, an impedance measurement unit for measuring skin impedance for monitoring a patient's heart failure state, filtering the patient's tissue impedance measured from the impedance measurement unit, and converting it into a digital signal. By comprising an impedance signal processing unit that converts and a monitoring unit that compares and monitors the digital signal-processed skin impedance of the impedance signal processing unit with the threshold value of the preset impedance range, while continuously measuring tissue congestion through patch-type skin impedance measurement, It can monitor whether the heart failure condition is out of the critical range, and warn the heart failure patient of signs of worsening of the disease in advance so that action can be taken.
In addition, according to the patch-type impedance measuring device and method of the present invention, it is attached in the form of a patch to the patient's chest, abdomen, and lower limbs to measure and monitor skin impedance, thereby providing convenience in use according to the patient's physical condition at various measurement sites. and efficiency are increased, and early diagnosis is possible by directly monitoring the state of heart failure in daily life, enabling appropriate early measures, minimizing visits to the Inha hospital due to aggravation of heart failure, and stable control of the disease. can make it

Description

Patch type impedance measuring device and method {A PATCH TYPE IMPEDANCE MEASUREMENT DEVICE AND METHOD}

The present invention relates to a patch-type impedance measurement device and method, and more particularly, to a patch-type impedance measurement device and method for monitoring whether a heart failure state is out of a critical range while continuously measuring tissue congestion through patch-type skin impedance measurement. it's about

In general, the heart consists of two left and right atria and ventricles, and contracts and relaxes by electrical stimulation of the heart muscle. At this time, a case in which electrical stimulation is not generated in the heart and thus transmission is not performed or regular contraction and relaxation is not possible due to the generation of abnormally fast electrical stimulation may occur, which is called arrhythmia. These arrhythmias are the most common heart disease, and range from asymptomatic or non-treatment diseases to those in which heart function is completely paralyzed in an instant and death can occur immediately from heart failure if not treated immediately.

However, it is difficult to diagnose arrhythmia because it occurs and disappears over time. The most basic test for arrhythmia diagnosis is electrocardiogram (12-lead standard electrocardiogram), but the diagnosis rate of arrhythmia is not high. Various methods have been proposed to compensate for this problem and increase the diagnosis rate. Among them, active electrocardiography (Holter monitoring) is representative, and in medical institutions, real-time monitoring by a patient monitoring device, telemetry, and the like are sometimes used. However, these methods generally have limitations in that monitoring is performed temporarily, and arrhythmias are diagnosed by reading accumulated data after a period of time or abnormalities are determined post-mortem.

1 is a diagram illustrating physiological changes over time according to general worsening of heart failure. As shown in FIG. 1 , looking at the course of chronic heart failure, the most important symptoms in the diagnosis of heart failure are dyspnea and weight gain as the most common symptoms. Such heart failure can be easily aggravated in situations such as exacerbation of the underlying disease itself, arrhythmia, infection, excessive activity, high salt diet, and irregular medication intake. Pulmonary edema, increased pulmonary arterial pressure, and systemic edema due to right heart failure occur. In particular, in general, exacerbation of heart failure is preceded by pulmonary congestion before dyspnea occurs, and when pulmonary congestion occurs, tissue resistance around the heart decreases.

After symptoms have already occurred in these heart failure patients, many cases have already progressed to multiple organ failure, resulting in a slow response to treatment and a poor prognosis. That is, current heart failure patients have a limitation in not being able to adequately cope with frequently changing conditions, and in particular, they cannot predetermine signs of aggravation of heart failure patients and are limited to post-mortem treatment and treatment when the disease worsens. In addition, in the current medical situation, patients are reluctant to visit the hospital for various reasons, so they visit the emergency room only after the symptoms have progressed considerably, which leads to a considerable length of hospitalization and has a poor prognosis. Korean Patent Publication No. 10-2012-0133793 has been disclosed as a prior art document.

The present invention has been proposed to solve the above problems of the previously proposed methods, and includes an impedance measurement unit for measuring skin impedance for monitoring a patient's heart failure state, and a patient's tissue impedance measured from the impedance measurement unit. By comprising an impedance signal processing unit that filters and converts into a digital signal, and a monitoring unit that compares and monitors the skin impedance processed by the digital signal of the impedance signal processing unit with a threshold value of a preset impedance range, tissue through patch-type skin impedance measurement An object of the present invention is to provide a patch-type impedance measuring device and method that continuously measures congestion, monitors whether the heart failure state is out of a critical range, and warns in advance of signs of aggravation of a heart failure patient so that measures can be taken.

In addition, the present invention measures and monitors skin impedance by attaching it in the form of a patch to the patient's chest, abdomen, lower extremities, etc., thereby increasing the convenience and efficiency of use according to the patient's physical condition with various measurement sites, and increasing daily life Appropriate early measures are possible as early diagnosis is possible by directly monitoring the state of heart failure while performing heart failure, minimizing hospital visits due to aggravation of heart failure, and enabling stable control of the disease. A patch-type impedance measuring device and Another purpose is to provide a method.

The patch-type impedance measuring device according to the features of the present invention for achieving the above object,

As a patch-type impedance measurement device,

an impedance measuring unit attached to a body measurement part of the patient and measuring skin impedance for monitoring the heart failure state of the patient;

an impedance signal processing unit filtering the patient's tissue impedance measured by the impedance measurement unit and converting it into a digital signal; and

It is characterized in that it includes a monitoring unit that compares the digital signal-processed skin impedance of the impedance signal processing unit with a threshold value of a preset impedance range and monitors it.

Preferably, the impedance measurement unit,

In order to measure the skin impedance for monitoring the patient's heart failure state, it may be attached to a patient's body part in the form of a patch.

More preferably, the impedance measuring unit,

As a body measurement part of a patient for measuring skin impedance in order to monitor the patient's heart failure state, it may function to measure skin impedance by being attached in the form of a patch to any one of the chest, abdomen, and lower extremities of the patient.

Preferably, the impedance measurement unit,

a patch unit attached to the skin of a patient's body part; and

It may be configured to include an electrode unit attached to the skin contact surface of the patch unit and having at least one or more electrode sensors for detecting the skin impedance of the patient's body measurement region.

More preferably, the impedance signal processing unit,

a filter unit for removing noise of the patient's skin impedance measured by the impedance measuring unit; and

It may be configured to include an AD conversion unit that converts the skin impedance of the analog signal from which the noise is filtered by the filter unit into a digital signal.

More preferably, the monitoring unit,

The skin impedance processed by the digital signal of the impedance signal processing unit is monitored by comparing it with the threshold value of the preset impedance range, but if the measured skin impedance of the patient is out of the threshold value of the preset impedance range, early action is possible for signs of heart failure. warning can be issued.

Even more preferably, the monitoring unit,

a symptom determination unit comparing the digital signal-processed skin impedance of the impedance signal processing unit with a threshold value of a preset impedance range to determine a heart failure symptom of the patient; and

As a result of the determination of the symptom determination unit, if it is determined that the patient has a heart failure symptom, a warning unit outputting a warning of the heart failure symptom may be included so that the patient can take an early action.

Even more preferably, the warning unit,

Based on the determination of the patient as a heart failure symptom by the symptom determination unit, a heart failure symptom warning is output so that the patient can take an early action, but either a warning sound warning the heart failure symptom or a danger warning display or both may be output. .

The patch-type impedance measurement method according to the features of the present invention for achieving the above object is,

As a patch-type impedance measurement method,

(1) measuring skin impedance for monitoring the heart failure state of the patient by attaching the impedance measuring unit to a body part of the patient;

(2) filtering the patient's tissue impedance measured by the impedance measurement unit in step (1) by the signal processing unit and converting it into a digital signal; and

(3) It is characterized in that the monitoring unit includes the step of performing monitoring to compare the digital signal processed skin impedance of the impedance signal processing unit in step (2) with a threshold value of a preset impedance range.

Preferably, the impedance measuring unit in step (1),

In order to measure the skin impedance for monitoring the patient's heart failure state, it may be attached to a patient's body part in the form of a patch.

More preferably, the impedance measuring unit,

As a body measurement part of a patient for measuring skin impedance in order to monitor the patient's heart failure state, it may function to measure skin impedance by being attached in the form of a patch to any one of the chest, abdomen, and lower extremities of the patient.

Preferably, the impedance measurement unit,

a patch unit attached to the skin of a patient's body part; and

It may be configured to include an electrode unit attached to the skin contact surface of the patch unit and having at least one or more electrode sensors for detecting the skin impedance of the patient's body measurement region.

More preferably, the impedance signal processing unit in step (2),

a filter unit for removing noise of the patient's skin impedance measured by the impedance measuring unit; and

It may be configured to include an AD conversion unit that converts the skin impedance of the analog signal from which the noise is filtered by the filter unit into a digital signal.

More preferably, the monitoring unit in step (3),

The skin impedance processed by the digital signal of the impedance signal processing unit 120 is monitored by comparing it with the threshold value of the preset impedance range, but if the measured skin impedance of the patient is out of the threshold value of the preset impedance range, early action is possible Warnings of signs of heart failure can be performed.

Even more preferably, the monitoring unit,

a symptom determination unit comparing the digital signal-processed skin impedance of the impedance signal processing unit with a threshold value of a preset impedance range to determine a heart failure symptom of the patient; and

As a result of the determination of the symptom determination unit, if it is determined that the patient has a heart failure symptom, a warning unit outputting a warning of the heart failure symptom may be included so that the patient can take an early action.

Even more preferably, the warning unit,

Based on the determination of the patient as a heart failure symptom by the symptom determination unit, a heart failure symptom warning is output so that the patient can take an early action, but either a warning sound warning the heart failure symptom or a danger warning display or both may be output. .

According to the patch-type impedance measuring device and method proposed in the present invention, an impedance measurement unit for measuring skin impedance for monitoring a patient's heart failure state, filtering the patient's tissue impedance measured from the impedance measurement unit, and converting it into a digital signal. By comprising an impedance signal processing unit that converts and a monitoring unit that compares and monitors the digital signal-processed skin impedance of the impedance signal processing unit with the threshold value of the preset impedance range, while continuously measuring tissue congestion through patch-type skin impedance measurement, It can monitor whether the heart failure condition is out of the critical range, and warn the heart failure patient of signs of worsening of the disease in advance so that action can be taken.

In addition, according to the patch-type impedance measuring device and method of the present invention, it is attached in the form of a patch to the patient's chest, abdomen, and lower limbs to measure and monitor skin impedance, thereby providing convenience in use according to the patient's physical condition at various measurement sites. and efficiency are increased, and early diagnosis is possible by directly monitoring the state of heart failure in daily life, enabling appropriate early measures, minimizing visits to the Inha hospital due to aggravation of heart failure, and stable control of the disease. can make it

1 is a diagram showing physiological changes over time according to general worsening of heart failure.
2 is a diagram showing the results of measuring chest tissue impedance in a heart failure patient and a normal group.
3 is a view showing the results of reduction in chest tissue impedance during congestion due to acute heart failure.
4 is a diagram showing the configuration of a patch-type impedance measurement device according to an embodiment of the present invention in functional blocks.
5 is a diagram showing the configuration of an impedance measurement unit of a patch-type impedance measurement device according to an embodiment of the present invention in functional blocks.
6 is a diagram showing the configuration of the impedance signal processing unit of the patch-type impedance measuring device according to an embodiment of the present invention in functional blocks.
7 is a diagram showing the configuration of a monitoring unit of a patch-type impedance measuring device according to an embodiment of the present invention in functional blocks.
8 is a flow diagram illustrating a method for measuring patch-type impedance according to an embodiment of the present invention.

Hereinafter, preferred embodiments will be described in detail so that those skilled in the art can easily practice the present invention with reference to the accompanying drawings. However, in describing a preferred embodiment of the present invention in detail, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. In addition, the same reference numerals are used throughout the drawings for parts having similar functions and actions.

In addition, throughout the specification, when a part is said to be 'connected' to another part, this is not only the case where it is 'directly connected', but also the case where it is 'indirectly connected' with another element in between. include In addition, 'including' a certain component means that other components may be further included, rather than excluding other components unless otherwise specified.

In general, chronic heart failure (Chronic heart failure) is a disease in which the heart cannot pump blood and adequately supply oxygen to the body. It is known that such heart failure symptoms result in lower tissue impedance than usual when function deteriorates due to congestion due to deterioration of cardiac function. FIG. 2 is a view showing the measurement results of chest tissue resistance of patients with heart failure and normal groups. As a result of a study evaluating pulmonary impedance of patients with chronic heart failure by non-invasive pulmonary impedance induction treatment, chest tissue before hospitalization due to aggravation of symptoms in patients with heart failure. It can be seen that the resistance value tends to decrease.

Also, when heart failure worsens, pulmonary congestion usually precedes dyspnea. FIG. 3 is a view showing the result of reduction of chest tissue resistance value during congestion due to acute decompensated heart failure. When pulmonary congestion occurs, the impedance value of living tissue around the heart decreases. Therefore, it can be determined that congestion has occurred when the biotissue resistance value of the chest of the patient is monitored and the biotissue resistance value is lower than the reference value.

4 is a diagram showing the configuration of a patch-type impedance measuring device according to an embodiment of the present invention in functional blocks, and FIG. FIG. 6 is a diagram showing the configuration of the impedance signal processing unit of the patch-type impedance measuring device according to an embodiment of the present invention in functional blocks, and FIG. 7 is a patch-type impedance measuring device according to an embodiment of the present invention. It is a diagram showing the configuration of the monitoring unit in functional blocks. As shown in FIGS. 4 to 7 , the patch-type impedance measuring device 100 according to an embodiment of the present invention includes an impedance measurement unit 110, an impedance signal processing unit 120, and a monitoring unit 130. can be configured to include

The impedance measuring unit 110 is attached to a body part of the patient to measure skin impedance to monitor the heart failure state of the patient. The impedance measurement unit 110 may be attached in the form of a patch to a body part of the patient to measure skin impedance for monitoring the heart failure state of the patient. Here, the impedance measuring unit 110 is a body measurement part of a patient for measuring skin impedance for monitoring the patient's heart failure state, and is attached in the form of a patch to one of the patient's chest, abdomen, and lower extremities to measure skin impedance. can function to measure.

In addition, as shown in FIG. 5, the impedance measuring unit 110 is attached to the patch unit 111 attached to the skin of the patient's body measurement area and the skin contact surface of the patch unit 111 to measure the patient's body. It may be configured to include an electrode unit 112 having at least one or more electrode sensors for detecting the skin impedance of the site. Here, the patch unit 111 is made of a hydrogel having excellent skin adhesion and a patch member having air permeability that can be attached in the form of a patch to any one of the patient's chest, abdomen, and lower extremities, and the patch member is air permeable. It may be composed of any one of permeable nonwoven fabric, polyethylene (PE) or polyurethane (PU).

The impedance signal processing unit 120 is a component that filters the patient's tissue impedance measured by the impedance measurement unit 110 and converts it into a digital signal. As shown in FIG. 6, the impedance signal processing unit 120 includes a filter unit 121 that removes noise of the patient's skin impedance measured by the impedance measurement unit 110, and noise from the filter unit 121 is filtered. It may be configured to include an AD conversion unit 122 that converts the skin impedance of the analog signal into a digital signal.

The monitoring unit 130 is a component that compares the digital signal-processed skin impedance of the impedance signal processing unit 120 with a threshold value of a preset impedance range and monitors it. The monitoring unit 130 monitors the digital signal processed by the impedance signal processing unit 120 by comparing the skin impedance with a preset threshold of the impedance range, but the measured skin impedance of the patient is outside the preset threshold of the impedance range. can carry out warnings of signs of heart failure so that early action can be taken.

In addition, as shown in FIG. 7 , the monitoring unit 130 compares the digital signal-processed skin impedance of the impedance signal processing unit 120 with a threshold value of a preset impedance range to determine the heart failure symptom of the patient. 131 and a warning unit 132 outputting a warning of the heart failure symptom so that the patient can take early action if the patient is determined to have a heart failure symptom as a result of the determination of the symptom determination unit 131. Here, the warning unit 132 outputs a warning of the heart failure symptom so that the patient can take an early action based on the determination of the patient as a heart failure symptom by the symptom determination unit 131, but a warning sound or a danger warning display warning the heart failure symptom Either one or both can be output.

In the patch-type impedance measuring device 100 including the impedance measurement unit 110, the impedance signal processing unit 120, and the monitoring unit 130, the impedance measurement unit 110 is in the form of a patch on the patient's chest, abdomen, and lower extremities. It can be attached to various parts of the back to measure patch-type skin impedance, and can be implemented in a portable wearable form that the patient can directly monitor. Through this, it is possible to easily monitor the state of heart failure in daily life and easily determine whether there is an abnormality in heart function before symptoms occur. That is, the patch-type impedance measurement device 100 according to the present invention can monitor the state of heart failure while continuously measuring tissue congestion due to deterioration of heart function through measurement of skin impedance of a patient, and continuously monitoring management accordingly. Appropriate measures can be taken early before symptoms occur, stable control of the disease can be promoted, early diagnosis and management of signs of worsening disease in heart failure patients can be performed, and arrhythmia and heart failure can be prevented through early diagnosis of signs of worsening disease It can function as a quick replacement for diseases such as back.

8 is a diagram illustrating a flow of a method for measuring patch-type impedance according to an embodiment of the present invention. As shown in FIG. 8 , in the patch-type impedance measuring method according to an embodiment of the present invention, the impedance measuring unit is attached to the patient's body measurement part to measure the skin impedance for monitoring the heart failure state of the patient (S110). , the signal processing unit filters the patient's tissue impedance measured from the impedance measurement unit in step (1) and converts it into a digital signal (S120), and the monitoring unit processes the digital signal of the impedance signal processing unit in step (2) It may be implemented by including the step of performing monitoring to compare the measured skin impedance with a threshold value of a preset impedance range (S130).

In step S110, the impedance measurement unit 110 is attached to the body part of the patient to measure the skin impedance for monitoring the heart failure state of the patient. In this step S110, the impedance measuring unit 110 may be attached in the form of a patch to a body part of the patient to measure skin impedance for monitoring the heart failure state of the patient. Here, the impedance measuring unit 110 is a body measurement part of a patient for measuring skin impedance for monitoring the patient's heart failure state, and is attached in the form of a patch to one of the patient's chest, abdomen, and lower extremities to measure skin impedance. can function to measure.

In addition, as shown in FIG. 5, the impedance measuring unit 110 is attached to the patch unit 111 attached to the skin of the patient's body measurement area and the skin contact surface of the patch unit 111 to measure the patient's body. It may be configured to include an electrode unit 112 having at least one or more electrode sensors for detecting the skin impedance of the site.

In step S120, the signal processing unit 120 filters the patient's tissue impedance measured by the impedance measuring unit 110 in step S110 and converts it into a digital signal. As shown in FIG. 6, the impedance signal processing unit 120 in step S120 includes a filter unit 121 for removing noise of the patient's skin impedance measured by the impedance measuring unit 110, and a filter unit 121 It may be configured to include an AD conversion unit 122 that converts the skin impedance of the analog signal from which noise has been filtered out into a digital signal.

In step S130, the monitoring unit 130 performs monitoring to compare the digital signal processed skin impedance of the impedance signal processing unit 120 in step S120 with a threshold value of a preset impedance range. In this step S130, the monitoring unit 130 compares the skin impedance processed by the digital signal of the impedance signal processing unit 120 with a threshold value of a preset impedance range and monitors it, but the measured skin impedance of the patient is within the preset impedance range. Exceeding thresholds triggers warnings of signs of heart failure to enable early action.

In addition, as shown in FIG. 7 , the monitoring unit 130 compares the digital signal-processed skin impedance of the impedance signal processing unit 120 with a threshold value of a preset impedance range to determine the heart failure symptom of the patient. 131 and a warning unit 132 outputting a warning of the heart failure symptom so that the patient can take early action if the patient is determined to have a heart failure symptom as a result of the determination of the symptom determination unit 131. Here, the warning unit 132 outputs a warning of the heart failure symptom so that the patient can take an early action based on the determination of the patient as a heart failure symptom by the symptom determination unit 131, but a warning sound or a danger warning display warning the heart failure symptom Either one or both can be output.

As described above, the patch-type impedance measuring device and method according to an embodiment of the present invention include an impedance measurement unit for measuring skin impedance for monitoring a patient's heart failure state, and a patient's tissue impedance measured from the impedance measurement unit. By comprising an impedance signal processing unit that filters and converts into a digital signal, and a monitoring unit that compares and monitors the skin impedance processed by the digital signal of the impedance signal processing unit with a threshold value of a preset impedance range, tissue through patch-type skin impedance measurement While continuously measuring congestion, it is possible to monitor whether the state of heart failure is out of the critical range, and to warn patients with heart failure in advance of signs of disease deterioration so that measures can be taken. By measuring and monitoring impedance, the convenience and efficiency of use according to the patient's physical condition are increased with various measurement parts, and appropriate early diagnosis is possible by directly monitoring the state of heart failure in daily life. It is possible to take measures, thereby minimizing the visit to the Inha hospital due to aggravation of heart failure and enabling stable control of the disease.

The present invention described above can be variously modified or applied by those skilled in the art to which the present invention belongs, and the scope of the technical idea according to the present invention should be defined by the claims below.

100: patch-type impedance measurement device according to an embodiment of the present invention
110: impedance measuring unit
111: patch unit
112: electrode part
120: impedance signal processing unit
121: filter unit
122: AD converter
130: monitoring unit
131: symptom determination unit
132: warning unit
S110: Measuring skin impedance for monitoring the heart failure state of the patient by attaching the impedance measuring unit to the patient's body measurement part
S120: Filtering, by the signal processing unit, the patient's tissue impedance measured from the impedance measurement unit in step (1) and converting it into a digital signal.
S130: the monitoring unit performs monitoring to compare the digital signal processed skin impedance of the impedance signal processing unit in step (2) with a threshold value of a preset impedance range

Claims (16)

As a patch-type impedance measuring device 100,
an impedance measuring unit 110 attached to a body part of the patient to measure skin impedance for monitoring the heart failure state of the patient;
an impedance signal processing unit 120 for filtering the patient's tissue impedance measured by the impedance measuring unit 110 and converting it into a digital signal; and
A monitoring unit 130 for comparing and monitoring the digital signal-processed skin impedance of the impedance signal processing unit 120 with a threshold value of a preset impedance range,
The impedance measuring unit 110,
As a body measurement part of a patient for measuring skin impedance for monitoring the patient's heart failure state, it is attached in the form of a patch to any one of the chest, abdomen, and lower limbs of the patient to measure skin impedance,
The monitoring unit 130,
The skin impedance processed by the digital signal of the impedance signal processing unit 120 is monitored by comparing it with a threshold value of a preset impedance range, but if the measured skin impedance of the patient is out of the threshold value of the preset impedance range, an early action is possible Carry out warning of signs of heart failure;
The monitoring unit 130,
The symptom determination unit 131 for determining the heart failure symptom of the patient by comparing the digital signal processed skin impedance of the impedance signal processing unit 120 with a threshold value of a preset impedance range, and the determination result of the symptom determination unit 131 , If it is determined that the patient has a heart failure symptom, the patch-type impedance measuring device characterized in that it comprises a warning unit 132 outputting a warning of the heart failure symptom so that the patient can take an early action.
The method of claim 1, wherein the impedance measuring unit 110,
A patch-type impedance measuring device characterized in that it is attached in the form of a patch to a patient's body measurement part to measure skin impedance for monitoring the heart failure state of the patient.
delete The method of claim 1, wherein the impedance measuring unit 110,
a patch unit 111 attached to the skin of a patient's body part; and
Characterized in that it comprises an electrode unit 112 attached to the skin contact surface of the patch unit 111 and having at least one electrode sensor for detecting the skin impedance of the patient's body measurement part, characterized in that the patch-type impedance measuring device.
The method of claim 4, wherein the impedance signal processing unit 120,
a filter unit 121 that removes noise of the patient's skin impedance measured by the impedance measurement unit 110; and
Characterized in that it comprises an AD conversion unit 122 for converting the skin impedance of the analog signal from which the noise is filtered from the filter unit 121 into a digital signal.
delete delete The method of claim 1, wherein the warning unit 132,
Based on the determination of the patient as a heart failure symptom by the symptom judgment unit 131, a heart failure symptom warning is output so that the patient can take an early action, but either a warning sound warning the heart failure symptom or a danger warning display or both of them are output. Characterized in that the output, patch-type impedance measuring device.
As a patch-type impedance measurement method 100,
(1) measuring skin impedance for monitoring the heart failure state of the patient by attaching the impedance measuring unit 110 to a body part of the patient;
(2) filtering, by the signal processing unit 120, the patient's tissue impedance measured by the impedance measurement unit 110 in step (1) and converting it into a digital signal; and
(3) monitoring by the monitoring unit 130 comparing the digital signal processed skin impedance of the impedance signal processing unit 120 in step (2) with a threshold value of a preset impedance range,
The impedance measuring unit 110,
As a body measurement part of a patient for measuring skin impedance for monitoring the patient's heart failure state, it is attached in the form of a patch to any one of the chest, abdomen, and lower limbs of the patient to measure skin impedance,
The monitoring unit 130 in step (3),
The skin impedance processed by the digital signal of the impedance signal processing unit 120 is monitored by comparing it with the threshold value of the preset impedance range, but if the measured skin impedance of the patient is out of the threshold value of the preset impedance range, early action is possible Carry out warning of signs of heart failure;
The monitoring unit 130,
The symptom determination unit 131 for determining the heart failure symptom of the patient by comparing the digital signal processed skin impedance of the impedance signal processing unit 120 with a threshold value of a preset impedance range, and the determination result of the symptom determination unit 131 , A patch-type impedance measuring method characterized in that it comprises a warning unit 132 outputting a warning of the heart failure symptom so that the patient can take early action if it is determined to be the patient's heart failure symptom.
The method of claim 9, wherein the impedance measurement unit 110 in step (1),
A patch-type impedance measurement method, characterized in that it is attached in the form of a patch to a body part of a patient to measure skin impedance for monitoring the heart failure state of the patient.
delete The method of claim 9, wherein the impedance measuring unit 110,
a patch unit 111 attached to the skin of a patient's body part; and
Characterized in that it comprises an electrode unit 112 attached to the skin contact surface of the patch unit 111 and having at least one electrode sensor for detecting the skin impedance of the patient's body measurement part, characterized in that the patch-type impedance How to measure.
The method of claim 12, wherein the impedance signal processing unit 120 in step (2),
a filter unit 121 that removes noise of the patient's skin impedance measured by the impedance measurement unit 110; and
Characterized in that it comprises an AD conversion unit 122 for converting the skin impedance of the analog signal from which the noise is filtered from the filter unit 121 into a digital signal.
delete delete The method of claim 9, wherein the warning unit 132,
Based on the determination of the patient as a heart failure symptom by the symptom judgment unit 131, a heart failure symptom warning is output so that the patient can take an early action, but either a warning sound warning the heart failure symptom or a danger warning display or both of them are output. Characterized in that the output, patch-type impedance measurement method.

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