KR101335024B1 - Method for measuring non-invasive blood pressure remotely - Google Patents

Abstract

The present invention relates to a remote blood pressure measurement method, and more specifically, (1) connecting the blood pressure monitor control device and the blood pressure measuring device via a wired or wireless communication network via a remote linkage; (2) when the medical staff inputs an initial pressure range setting mode for blood pressure measurement, controlling the pressure setting of the blood pressure measuring device by the blood pressure monitor controlling device based on the initial pressure range setting mode; (3) The blood pressure measuring device detects the biometric information of the oscillometric and the auditory sound through sequential driving of pressure, pressure stop, and decompression of the measurement site of the patient as the subject based on the control of the pressure setting of the blood pressure monitor control device. Making; (4) the blood pressure monitor controlling the blood pressure measurement device by interfacing the detected oscillometric and acoustic biometric information, and interlocking the signal waveform data of the oscillometric and acoustic (K-sound) showing systolic blood pressure and diastolic blood pressure, respectively. Providing via a display of the device; And (5) the sphygmomanometer control device storing the systolic blood pressure and diastolic blood pressure, which the medical staff selects and inputs from the signal waveform data for the oscillometric and auditory, as the final measured blood pressure values.
According to the remote blood pressure measuring method proposed by the present invention, by controlling the blood pressure monitor control device and the blood pressure measuring device in a remotely separated state, it is possible to build a medical environment for the medical service of remote blood pressure measurement In addition, by allowing the medical staff using the blood pressure monitor control device to control the pressure setting according to the patient's condition, it is possible to improve the accuracy of the blood pressure measurement by applying the oscillometric method and the hearing method and to improve the convenience of the pressure setting. have.
In addition, according to the present invention, the blood pressure measurement can be finally read out by the medical staff from different blood pressure measurements measured by the oscillometric method and the hearing method, thereby minimizing the inaccuracy of the system and accurately measuring the patient's condition. It is possible to derive and confirm the results of medical examinations and to ensure reliable medical care for both medical staff and patients.

Description

Remote blood pressure measurement method {METHOD FOR MEASURING NON-INVASIVE BLOOD PRESSURE REMOTELY}

The present invention relates to a remote blood pressure measurement method, and more specifically, the pressure setting of the blood pressure measuring device is controlled by the medical staff's blood pressure monitor in a state in which the blood pressure monitor of the medical staff and the blood pressure measuring device of the patient are remotely separated. The present invention relates to a remote blood pressure measurement method that enables accurate final blood pressure measurement to be read by a medical staff among blood pressures measured by an oscillometric method and a hearing method.

Common blood pressure measurement methods include a stethoscope (Korotkoff sound), an oscillometric (Oscillometric) method and toometric method (tonometric method). Auscultation method is a typical method of measuring pressure. In the process of depressurizing the flow of blood by applying enough pressure to the body part through which arterial blood flows, the pressure at the first pulse sound is measured by systolic pressure. The pressure at the moment the pulse disappears is measured by diastolic pressure. Such a blood pressure measurement method of the stethoscope method is a method that is easily applied by medical staff, and is a measurement method that many medical staff trust because the experience of the operator affects the accuracy and has a relatively high accuracy.

Oscillometric and tonometric methods are widely applied to digital blood pressure measuring devices. Like the stethoscope method, the oscillometric method uses systolic blood pressure by detecting a pulse wave generated in the process of depressurizing the body part through which arterial blood flows and decompressing at a constant speed or increasing the body part at a constant speed so that blood flow in the artery is blocked. And diastolic blood pressure is measured. The tonometric method is a method in which a constant pressure of a size that does not completely block the blood flow of an artery is applied to the body part, and blood pressure is continuously measured using the size and shape of the pulse wave generated at this time. Conventional digital blood pressure measuring devices employing an oscillometric method or tonometric method have a relatively low accuracy (5 to 10% error) of the measurement, and have lost the reliability of the accuracy to the medical staff.

In order to solve the problems of the conventional digital blood pressure measuring device, a method of applying an oscillometric method and a stethoscope method by introducing a stethoscope method to increase the accuracy of blood pressure measurement in the conventional digital blood pressure measuring device is promoted. It is becoming. However, the conventional digital blood pressure measuring device measures the maximum and minimum blood pressure values using an internal algorithm, but does not provide information for determining the value to the medical staff. In particular, when the maximum minimum blood pressure value of the oscillometric method and the blood pressure value judged by the hearing difference are judged by an internal algorithm and simply provided to the medical staff, it is not only possible to know what portion of the actual blood pressure measurement algorithm has been processed. There was a problem that can not determine the reliability of the blood pressure measurement. In addition, in the case of a conventional digital blood pressure measuring device using an oscillometric method and a hearing method, in order to improve the accuracy of blood pressure measurement in a patient's condition, that is, a high blood pressure patient or a low blood pressure patient, the pressure setting of the hearing method is changed and measured. Although it was necessary to set the pressure on it was not possible. That is, in the conventional digital blood pressure measuring device, since the measurement is made under standardized pressurization conditions, there is a problem that inaccuracy of blood pressure measurement occurs for each patient.

The present invention has been proposed to solve the above problems of the conventionally proposed methods, by allowing the blood pressure monitor control device and the blood pressure measuring device to be controlled in a remotely separated state, thereby providing a medical service of remote blood pressure measurement. It is possible to establish a medical environment for the patient and to control the pressure setting according to the condition of the patient by the medical staff using the blood pressure monitor control device to increase the accuracy of the blood pressure measurement using the oscillometric method and the hearing method, It is an object of the present invention to provide a method for measuring blood pressure remotely, which can improve convenience.

In addition, the present invention allows the blood pressure measurement to be finally read by the medical staff from different blood pressure measurements measured in the oscillometric method and the audible method, thereby minimizing the inaccuracy of the system as well as providing accurate blood pressure measurement according to the patient's condition. Another goal is to provide a remote blood pressure measurement method that enables the derivation and confirmation of results and ensures reliable medical care for both medical staff and patients.

Remote blood pressure measurement method according to a feature of the present invention for achieving the above object,

As a method for measuring blood pressure remotely by using a blood pressure measurement system in which a blood pressure monitor used by a medical staff and a blood pressure measuring device used by a patient who are a subject are remotely separated,

(1) connecting the blood pressure monitor and the blood pressure measuring device to be connected to each other via a wired or wireless communication network remotely;

(2) when the medical staff inputs an initial pressure range setting mode for blood pressure measurement, controlling the pressure setting of the blood pressure measuring device by the blood pressure monitor controlling device based on the initial pressure range setting mode;

(3) The blood pressure measuring device detects the biometric information of the oscillometric and the auditory sound through sequential driving of pressure, pressure stop, and decompression of the measurement site of the patient as the subject based on the control of the pressure setting of the blood pressure monitor control device. Doing;

(4) the blood pressure monitor controlling the blood pressure measurement device by interfacing the detected oscillometric and acoustic biometric information, and interlocking the signal waveform data of the oscillometric and acoustic (K-sound) showing systolic blood pressure and diastolic blood pressure, respectively. Providing via a display of the device; And

And (5) the sphygmomanometer control device storing the systolic and diastolic blood pressures selected by the medical staff in the signal waveform data for the oscillometric and auditory as the final measured blood pressure values.

Preferably, in the step (1)

The method may further include inputting user information of the patient who is the examinee.

Preferably, the initial pressure range setting mode,

The medical staff may set different information for each patient who is a subject based on the condition and the medical condition of the remote patient provided through the display screen of the blood pressure monitor control device.

Preferably, in the step (3)

When the blood pressure measuring device receives a signal for changing the pressure setting by a medical staff in the normal pressure process based on the control of the pressure setting, the blood pressure monitor control device is configured to perform the normal pressure process based on the pressure setting change signal. The method may further include changing and controlling the pressure setting of the blood pressure measuring device.

Preferably, in the step (3)

When the blood pressure measuring device receives a signal for stopping the pressurization by a medical staff in the normal pressurization process based on the control of the pressurization setting, the blood pressure monitor control device controls the blood pressure during the normal pressurization process based on the pressurization stop signal. The method may further include controlling to stop pressurization of the measuring device.

Preferably, in the step (4)

The oscillometric biometric information is detected through the pressure sensor of the blood pressure measuring device, the biometric information of the hearing is detected through a piezo film contact type microphone of the blood pressure measuring device,

The blood pressure measuring apparatus may analyze the detected signal by using the internal blood pressure measurement algorithm on the detected oscillometric biometric information and the biometric information of audible sound (K-sound).

Preferably, in the step (5)

The medical staff may visually directly read the systolic and diastolic blood pressures of the signal waveform data for the oscillometric and auditory sound provided through the display screen of the blood pressure monitor control device.

Preferably, in the step (5)

The blood pressure monitor may be provided to a screen through a display of a blood pressure measuring device that interlocks the final measured blood pressure value, so that the patient as a subject can check the measured blood pressure.

According to the remote blood pressure measuring method proposed by the present invention, by controlling the blood pressure monitor control device and the blood pressure measuring device in a remotely separated state, it is possible to build a medical environment for the medical service of remote blood pressure measurement In addition, by allowing the medical staff using the blood pressure monitor control device to control the pressure setting according to the patient's condition, it is possible to improve the accuracy of the blood pressure measurement by applying the oscillometric method and the hearing method and to improve the convenience of the pressure setting. have.

In addition, according to the present invention, the blood pressure measurement can be finally read out by the medical staff from different blood pressure measurements measured by the oscillometric method and the hearing method, thereby minimizing the inaccuracy of the system and accurately measuring the patient's condition. It is possible to derive and confirm the results of medical examinations and to ensure reliable medical care for both medical staff and patients.

1 is a view showing a blood pressure measuring system for implementing a remote blood pressure measuring method according to an embodiment of the present invention.
2 is a block diagram illustrating an internal configuration of a blood pressure monitor control device and a blood pressure measuring device of a blood pressure measuring system for implementing a remote blood pressure measuring method according to an embodiment of the present invention.
Figure 3 is a flow diagram of a remote blood pressure measurement method according to an embodiment of the present invention.
Figure 4 is a diagram showing the detailed flow of the step of detecting the biometric information of the oscillometric and hearing in the remote blood pressure measurement method according to an embodiment of the present invention.
5 is a view showing a screen provided through the display of the medical staff in the remote blood pressure measurement method according to an embodiment of the present invention.
6 is a diagram illustrating a pressure setting and a pressure stop process on the screen provided through the display of the medical staff in the remote blood pressure measurement method according to an embodiment of the present invention.
FIG. 7 is a diagram illustrating signal waveform data of an oscillometric and audible in which systolic blood pressure and diastolic blood pressure are respectively displayed in a remote blood pressure measuring method according to an exemplary embodiment of the present invention. FIG.
FIG. 8 is a diagram illustrating a final measured blood pressure value screen of systolic blood pressure and diastolic blood pressure read and selected by a medical staff in a remote blood pressure measuring method according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order that those skilled in the art can easily carry out the present invention. In the following detailed description of the preferred embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In the drawings, like reference numerals are used throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . In addition, the term 'comprising' of an element means that the element may further include other elements, not to exclude other elements unless specifically stated otherwise.

1 is a view showing a blood pressure measuring system for implementing a remote blood pressure measuring method according to an embodiment of the present invention. As shown in FIG. 1, a blood pressure measuring system for implementing a remote blood pressure measuring method according to an embodiment of the present invention may include a blood pressure monitor control device 100 and a blood pressure measuring device 200.

Sphygmomanometer control device 100 is a terminal device used to control the blood pressure measurement device 200 remotely separated by a medical staff to implement a remote blood pressure measurement method according to an embodiment of the present invention. The blood pressure monitor control device 100 is configured to be remotely separated from the blood pressure measuring device 200 to be used by the patient as a subject, and is connected to the blood pressure measuring device 200 through a wired or wireless communication network. Detailed configuration of the blood pressure monitor control device 100 will be described in detail later with reference to FIG. 2.

The blood pressure measuring device 200 is a digital blood pressure monitor used by a patient who is a subject to implement a remote blood pressure measuring method according to an embodiment of the present invention. The blood pressure measuring device 200 is connected to and interlocked with a remote blood pressure monitor control device 100 through a wired or wireless communication network, and measures pressure setting, oscillometric pressure, and blood pressure of hearing under the control of the blood pressure monitor control device 100. The patient is provided with the final measured blood pressure read by the medical staff. That is, the blood pressure measuring device 200 measures blood pressure by using an oscillometric method and a hearing method in performing blood pressure measurement of a patient who is a subject. The detailed configuration of the blood pressure measuring device 200 will be described in detail later with reference to FIG. 2.

2 is a block diagram illustrating an internal configuration of a blood pressure monitor control device and a blood pressure measuring device of a blood pressure measuring system for implementing a remote blood pressure measuring method according to an embodiment of the present invention. As shown in FIG. 2, the blood pressure monitor control device 100 may include a display 110 and a display 110 that display a UI screen for remote blood pressure measurement provided to a medical staff, as illustrated in FIGS. 1 and 5. The input unit 120 and the blood pressure monitor control device 100 for the medical staff to control the initial pressure range setting mode and input information such as the pressure change, the pressure stop, and the reading result while watching the UI screen of the patient. The control unit 130 for controlling the overall configuration of the), a communication module 140 for a wired or wireless communication connection, and a camera 150 for taking images of the medical staff can be configured.

As shown in FIG. 2, the blood pressure measuring device 200 includes a pressurizing unit 210 for pressurizing a measurement site of a patient, which is a subject, to a set value according to an initial pressure range setting mode, and listening according to a hearing method (K−). Sound) Piezo film contact type microphone 220 for the detection of waveform data, pressure sensor 230 for detecting the signal waveform of the oscillometric method of the oscillometric method, and stores the internal blood pressure measurement algorithm, and the microphone 220 Blood pressure measurement module 240 for processing the oscillometric and acoustic biometric information detected by the pressure sensor 230, the display 250 for providing blood pressure measurement information to the patient as a subject, wired or wireless communication connection It may be configured to include a communication module 260, and a camera 270 for capturing an image of a patient as a subject.

Blood pressure measuring system for implementing a remote blood pressure measuring method according to an embodiment of the present invention as described above, the blood pressure monitor 100 used by the medical staff and the blood pressure measuring device 200 used by the patient who is the subject By connecting to the wired or wireless communication network through the interworking, so that the effect such as the medical staff and the patient face to face in the remote medical treatment can be generated, and to establish the environment of remote medical care do.

3 is a view showing the flow of a remote blood pressure measurement method according to an embodiment of the present invention. As shown in Figure 3, the remote blood pressure measurement method according to an embodiment of the present invention, the step of operating the blood pressure monitor control device 100 and the blood pressure measuring device 200 remotely (S100), the initial pressure range setting mode Controlling the pressure setting of the blood pressure measuring apparatus 200 to be interlocked based on the operation (S200), and detecting, by the blood pressure measuring apparatus 200, biometric information of an oscillometric and audible (S300), the blood pressure measuring apparatus 200. Providing the systolic blood pressure and diastolic blood pressure through the display 110 of the sphygmomanometer control device 100 that interworks with the signal waveform data of the oscillometric and audible (K-sound) (S400), and the sphygmomanometer control device ( 100 may be implemented by storing the systolic blood pressure and diastolic blood pressure that the medical staff selects as the final measured blood pressure value (S500).

In step S100, the blood pressure monitor control device 100 and the blood pressure measuring device 200 may be connected to each other via a wired or wireless communication network. In this case, in operation S100, user information of a patient who is a subject may be input through the input unit 120 of the medical staff (S110). The user information of the patient may be applied to a UI screen provided through the display 110 of the blood pressure monitor control device 100.

In operation S200, when the medical staff inputs an initial pressure range setting mode for blood pressure measurement through the input unit 120, the blood pressure monitor 100 presses the blood pressure measuring device 200 to be interlocked based on the initial pressure range setting mode. You will control the settings. That is, in step S200 it is possible to control the blood pressure measuring device 200 used by the patient as a subject through the blood pressure monitor control device 100 used by the remote medical staff. Here, the initial pressure range setting mode may be set by the medical staff differently for each patient who is a subject based on the condition and the medical condition of the remote patient provided through the display 110 screen of the blood pressure monitor control device 100. In this way, the remote medical staff to control the pressure setting separately, in the hearing method used by many medical staff, the manual pump is used as the pressure method. By increasing or lowering according to the use, it is used to increase the accuracy of blood pressure measurement according to patient-specific characteristics. This method provides the convenience of applying a method that was difficult to set by the doctor because the setting is complicated in the conventional digital blood pressure measuring device, and prevents cases where the accuracy of blood pressure measurement for hypertension patients and hypotension patients is degraded. For sake.

In step S300, the blood pressure measuring device 200 oscillates and listens to the measurement site of the patient as a subject through sequential driving of pressure, pressure stop, and decompression based on the control of the pressure setting of the blood pressure monitor control device 100. Biometric information can be detected. 4 is a diagram illustrating a detailed flow of detecting the biometric information of the oscillometric and auditory in the remote blood pressure measurement method according to an embodiment of the present invention. As shown in FIG. 4, in operation S310, when the blood pressure measuring device 200 receives a signal for changing the pressure setting by a medical staff in the normal pressure process S300 based on the control of the pressure setting, the blood pressure monitor control device ( 100 may change and control the pressurization setting of the blood pressure measuring device 200 in a normal pressurization process based on the pressurization setting change signal. In operation S320, when the blood pressure measuring device 200 receives a signal for stopping the pressurization by the medical staff in the normal pressurization process S300 based on the control of the pressurization setting, the blood pressure monitor control apparatus 100 receives the pressurization stop signal. On the basis of the control to stop the pressure of the blood pressure measuring device 200 in the normal pressure process.

In step S400, the blood pressure measuring device 200 signals the detected oscillometric and acoustic biometric information, respectively, and then interlocks the signal waveform data of the oscillometric and auditory (K-sound) in which systolic blood pressure and diastolic blood pressure are respectively displayed. It may be provided through the display 110 of the blood pressure monitor control device 100. Here, the oscillometric biometric information in step S400 is detected through the pressure sensor 230 of the blood pressure measuring device 200, the biometric information of the hearing is the piezo film contact type microphone 220 of the blood pressure measuring device 200 Can be detected. The blood pressure measuring apparatus 200 analyzes the detected signal by using the internal blood pressure measuring algorithm in the blood pressure measuring module 240 for the detected oscillometric biometric information and the biometric information of the acoustic sound (K-sound).

In step S500, the blood pressure monitor control device 100 stores the systolic blood pressure and diastolic blood pressure, which the medical staff selects and inputs, from the signal waveform data for the oscillometric and auditory sound as the final measured blood pressure values. At this time, in step S500, the medical staff visually directly reads each systolic and diastolic blood pressure of the signal waveform data for the oscillometric and hearing provided through the display 110 screen of the blood pressure monitor control device 100 . In addition, in step S500, the blood pressure monitor control device 100 provides a screen through the display 250 of the blood pressure measuring device 200 in conjunction with the final measured blood pressure value is stored, so that the patient as a subject can easily check the measured blood pressure can do.

5 is a view showing a screen provided through the display of the medical staff in the remote blood pressure measurement method according to an embodiment of the present invention. As shown in FIG. 5, the UI screen is a screen that a medical staff using the blood pressure monitor control device 100 is provided through the display 110 at a remote location, and the medical staff watches the UI screen of the display 110 to measure the blood pressure measurement device ( 200), it is possible to remotely consider the condition and the medical condition of the patient who is a subject measuring blood pressure.

FIG. 6 is a diagram illustrating a pressure setting and a pressure stopping process on a screen provided through a display of a medical staff in a remote blood pressure measuring method according to an embodiment of the present invention. As shown in FIG. 6, the pressure range of the cuff is displayed on the lower left side of the UI screen provided through the display 110 of the blood pressure monitor control device 100. Fig. 6A shows the press setting of the medical staff, and Fig. 6B shows a button for allowing the medical staff to stop the pressurization arbitrarily. The medical staff performs a control to set, change, and stop the pressure of the blood pressure measuring device 200 at a remote location through a direct touch of the UI screen provided through the display 110 or an input of the input unit 120.

FIG. 7 is a diagram illustrating signal waveform data of an oscillometric and audible in which systolic blood pressure and diastolic blood pressure are respectively displayed in a remote blood pressure measurement method according to an embodiment of the present invention. As shown in FIG. 7, in the UI screen provided through the display 110 of the blood pressure monitor control device 100, oscillometric and acoustic signal waveform data, that is, measurement of systolic blood pressure and diastolic blood pressure have different values. The medical staff can change the judgment value of each measurement value, and can confirm the evidence signal of the judgment value.

FIG. 8 is a diagram illustrating a final measured blood pressure value screen of systolic blood pressure and diastolic blood pressure read and selected by a medical staff in a remote blood pressure measuring method according to an exemplary embodiment of the present invention. As shown in FIG. 8, the UI screen provided through the display 110 of the blood pressure monitor control device 100 shows systolic blood pressure and diastolic blood pressure measured in an oscillometric manner, and also systolic blood pressure measured in a hearing manner. And diastolic blood pressure, and an example in which the final blood pressure measurement value, which is directly read and input by the medical staff in consideration of the patient's condition, is applied as the final measurement result value.

According to the remote blood pressure measurement method according to an embodiment of the present invention as described above, the remote medical staff to set the blood pressure monitor while viewing the patient through the UI screen of the display 110, and the measured value to listen to the sound and oscillometric information This will allow you to check your blood pressure readings as you would. In addition, by using the image, sound, auditory data, oscillometric data, etc., the measured image provides a medical service that enables medical staff and patients to have more reliable medical treatment for blood pressure measurement.

The present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics of the invention.

100: blood pressure monitor control device 110: display
120: input unit 130:
140: communication module 150: camera
200: blood pressure measuring device 210: pressing unit
220: microphone 230: pressure sensor
240: blood pressure measurement module 250: display
260: communication module 270: camera
S100: step of remotely interlocking the blood pressure monitor control device and the blood pressure measuring device
S110: step of inputting user information of a patient who is a subject
S200: controlling the pressure setting of the blood pressure measuring device to be interlocked based on the initial pressure range setting mode;
S300: step for detecting blood pressure measurement device oscillometric and hearing biometric information
S310: controlling changing the pressure setting of the blood pressure measuring device
S320: controlling to stop pressurization of the blood pressure measuring device
S400: the step of providing a blood pressure measurement device through the display of the blood pressure monitor control device interlocking the signal waveform data of the oscillometric and auditory (K-sound) displayed systolic blood pressure and diastolic blood pressure, respectively
S500: storing, by the blood pressure monitor controller, the systolic and diastolic blood pressures selected by the medical staff as the final measured blood pressure values.

Claims (8)

As a method for measuring blood pressure remotely by using a blood pressure measurement system in which a blood pressure monitor used by a medical staff and a blood pressure measuring device used by a patient who are a subject are remotely separated,
(1) connecting the blood pressure monitor and the blood pressure measuring device to be connected to each other via a wired or wireless communication network remotely;
(2) when the medical staff inputs an initial pressure range setting mode for blood pressure measurement, controlling the pressure setting of the blood pressure measuring device by the blood pressure monitor controlling device based on the initial pressure range setting mode;
(3) The blood pressure measuring device detects the biometric information of the oscillometric and the auditory sound through sequential driving of pressure, pressure stop, and decompression of the measurement site of the patient as the subject based on the control of the pressure setting of the blood pressure monitor control device. Making;
(4) the blood pressure monitor controlling the blood pressure measurement device by interfacing the detected oscillometric and acoustic biometric information, and interlocking the signal waveform data of the oscillometric and acoustic (K-sound) showing systolic blood pressure and diastolic blood pressure, respectively. Providing via a display of the device; And
(5) the sphygmomanometer control device storing the systolic blood pressure and diastolic blood pressure, which the medical staff selects and inputs from the signal waveform data for the oscillometric and auditory, as final measured blood pressure values;
In the step (3),
When the blood pressure measuring device receives a signal for changing the pressure setting or stopping the pressurization by a medical staff in a normal pressurization process based on the control of the pressurization setting, the blood pressure monitor control device may change the pressurization setting change signal or the pressurization stop signal. And controlling to change or stop the pressure setting of the blood pressure measuring device in the normal pressure process based on the
In the step (5),
The blood pressure monitor by providing a screen through the display of the blood pressure measuring device in conjunction with the last measured blood pressure value stored in the blood pressure control device, characterized in that the patient to check the measured blood pressure, remote blood pressure measurement method.
2. The method according to claim 1, wherein in the step (1)
Remote user blood pressure measurement method, characterized in that further comprising the step of inputting the user information of the patient as the subject.
The method of claim 1, wherein the initial pressure range setting mode,
Remote blood pressure measurement method, characterized in that the medical staff to set differently for each patient based on the condition and medical conditions of the remote patient provided through the display screen of the blood pressure monitor control device.
delete delete The method according to claim 1, wherein in the step (4)
The oscillometric biometric information is detected through a pressure sensor of the blood pressure measuring device, the biometric information of the hearing is detected through a piezo film contact microphone of the blood pressure measuring device,
The blood pressure measuring device is characterized in that for analyzing the detected signal using the internal blood pressure measurement algorithm of the detected oscillometric biometric information and the hearing (K-sound), remote blood pressure measurement method.
2. The method according to claim 1, wherein in the step (5)
And a medical staff visually directly reading the systolic and diastolic blood pressures of the oscillometric and audio signal waveform data provided through the display screen of the blood pressure monitor control device.
delete

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