KR101206581B1 - Defibrillator for Ubiquitous healthcare - Google Patents

Abstract

PURPOSE: A heart defibrillator is provided to consecutively monitor biological signal data and to deliver a message in an emergency situation. CONSTITUTION: A heart defibrillator comprises a bio-signal sensor module(100), a defibrillator main body(200), a control unit(300), and a relay server(400). The bio-signal sensor module measures the electrocardiogram and blood oxygen saturation value of a user and transmits the measured information wirelessly. The defibrillator main body determines the amount of electric shock and applies electric shock through an electrode pad. The control unit stores and analyzes biological signal data and displays a message in an emergency situation. The relay server transmits user position information and biological signal data to administrator and medical team by wire. [Reference numerals] (100) Bio-signal sensor module; (200) Defibrillator main body; (300) Control unit; (400) Relay server; (AA) Manager; (BB) Medical staff

Description

Cardiac defibrillator with patient monitoring for ubiquitous healthcare {Defibrillator for Ubiquitous healthcare}

The present invention relates to a cardiac defibrillator having a patient monitoring function for ubiquitous healthcare, and more particularly, to analyze the biosignal data by wirelessly connecting the defibrillator and the biosignal sensor module for measuring electrocardiogram and blood oxygen saturation attached to the user's body. And store and transmit a message in case of an emergency so that the people around them can make emergency treatment by electric shock as a means of operating the defibrillator main body and transmit biosignal data to the manager and medical staff through the relay server. The present invention relates to a cardiac defibrillator having a patient monitoring function for ubiquitous healthcare that enables patient management.

Generally, the term heart attack refers to a cardiac arrest caused by cardiac arrhythmia, which is caused by irregular activity of cardiac muscle cells contracting the heart muscle, or by a cardiac arrest in which the heart is stopped, To death.

The heart failure is a structural problem in the heart, such as coronary artery disease such as acute myocardial infarction, angina pectoris, myocardial disease such as dilated cardiomyopathy or hypertrophic cardiomyopathy, aortic disease such as aortic dissection, and valve disease such as aortic valve stenosis. Diseases are known to be the cause.

Here, coronary artery disease and cardiomyopathy are the most common, with about 50% of coronary artery disease deaths occurring in sudden cardiac events, sudden cardiac death in about 20% of patients with acute myocardial infarction, and coronary artery disease and cardiomyopathy It accounts for about 95% of cardiac patients.

In addition, QT prolongation syndrome (a prolonged QT interval in the electrocardiogram is prone to ventricular fibrillation), although structural abnormalities are not observed, but mutations in the innate ion channel can cause fatal arrhythmias, Brugada syndrome (Asian). Diseases that are frequently reported in young men may also cause sudden cardiac death.

If a heart attack is caused by the above causes, it is most desirable to survive by first performing CPR, and the patients who survived CPR need treatment to prevent recurrence in the long term. An implantable cardioverter-defibrillator (ICD) is used.

Here, the implantable defibrillator (ICD) is an electrode wire inserted into the body to give an electric shock to the heart to return to the normal rhythm, the electrode wire is placed in the heart through the subclavian vein and the electric shock generator is subcutaneous of the front chest By implanting in, it monitors the heart rate of patients and detects fatal arrhythmias that cause a heart attack.

However, even if CPR is performed as described above, many patients do not survive. In this case, since the cardiac fibrillation must be removed within a short time, a strong current can be avoided without using time-consuming drugs or other conventional methods. Electric shock is commonly used to remove cardiac fibrillation by inducing myocardial contraction by rapidly applying to the myocardium through the chest wall of the heart.

In order to perform the electric shock method on the patient, a cardiac electric shock device is required. In general, the cardiac electric shock device is installed in a hospital or an emergency rescue center. In the past, the general public had no other measures to take except for CPR. However, as of May 22, 2008, the public was required to install a defibrillator's public facilities. First aid rescue can be performed.

The cardiac electric shock device for a public facility as described above is formed in an easy-to-handle structure, and the user's instruction guided through the speaker is recorded so that it can be easily used by the general public. The cardiac electric shock device for public facilities having the configuration as described above was filed on June 22, 2009 under the name 'defibrillator' and was disclosed as Patent Registration No. 10-0948671 on March 12, 2010.

The cardiac shock device for public facilities, which is configured as described above, can be installed on one side of a public facility for use as an emergency rescue device for a heart attack patient who cannot know where and when it occurs. If it does not work at the moment when it occurs, it becomes useless, so the check on the waiting state should be made from time to time.

In this regard, the equipment manager of the central management center may check the standby state of the cardiac shocker from time to time.However, after the enactment of the legislation, the place where the cardiac shocker is rapidly increasing has been found. The problem is that checking is actually very difficult.

Furthermore, if the cardiac shock device is left alone due to the above problems because it is difficult to check the standby state of the cardiac shock device, when an emergency patient is caused by a heart attack, the cardiac shock device malfunctions or fails to operate. There is a fear that a situation may occur that does not save patients who may be saved due to the occurrence of.

In addition, heart disease does not know the location of the AEDs even in case of sudden cardiac disease suddenly in an emergency that the patient and the people around him do not know. Because of the difficulty in making a rescue request, a system is needed that can easily provide first aid to a patient with such a heart disease or promptly call a first aid agency.

The present invention has been made in order to solve the above problems, the biosignal sensor module and the defibrillator main body attached to the user body to measure the electrocardiogram and blood oxygen saturation is wirelessly connected through a ubiquitous network It provides a cardiac defibrillator with patient monitoring function for ubiquitous healthcare that can continuously monitor the data and deliver a message in case of an emergency so that people around them can quickly get first aid.

The present invention includes a biosignal sensor module attached to the user body for measuring the electrocardiogram and blood oxygen saturation of the user and transmitting the measured information wirelessly; A defibrillator main body configured to determine whether an electric shock and an electric shock amount are generated according to a user's biosignal data signal, and an electric shock is made through an electrode pad; Receive measurement information transmitted from the biosignal sensor module to analyze and store biosignal data, and then display a message in case of an emergency so that emergency treatment by electric shock can be performed. A control device unit for transmitting the biosignal data through a communication network; A cardiac defibrillator having a patient monitoring function for ubiquitous healthcare, comprising a relay server wirelessly connected to the control unit and transmitting the user location information and the biosignal data to the administrator and the medical staff by wire or wireless.

In addition, the biosignal sensor module; A measurement unit attached to the user for measuring an electrocardiogram and blood oxygen saturation of the user and a measurement information transmitter for wirelessly transmitting the measured information;

The defibrillator body includes; A microcontroller unit for controlling and checking the operation of the connected components while determining whether the electric shock and the amount of electric shock by the bio-signal data signal of the user, and the high-pressure electric shock controlled by the microcontroller unit through the electrode pad A high voltage generation unit, a high voltage switching unit for discharging the current generated in the high voltage generation unit to the human body, and is formed on one side of the microcontroller unit to store the standby state information and use state information of the components connected to the microcontroller unit Cardiac defibrillator having a ubiquitous healthcare patient monitoring function comprising a memory unit.

In addition, the control unit; A biosignal data detection unit for receiving electrocardiogram and blood oxygen saturation of the user by receiving measurement information transmitted from the biosignal sensor module, a storage unit for inputting the detected biosignal data of the user, and an abnormality of the biosignal data And a message transmitter for displaying and alarming the signal, and a wireless transmitter for generating the stored biosignal data information and transmitting the information through a wireless communication network.

The relay server; A cardiac defibrillator having a data monitoring unit having a data transmission / reception module wirelessly connected to a control unit and a data communication unit for transmitting user location information and biosignal data to a manager and a medical staff by wire or wireless. do.

According to the present invention, the biosignal sensor module attached to the user's body and the defibrillator main body are wirelessly connected to monitor the biosignal data through the ubiquitous network to continuously measure the electrocardiogram and blood oxygen saturation of the user. By transmitting a message when the occurrence of the people around the means to operate the defibrillator main body has an effect that can quickly prompt emergency treatment by the electric shock through the electric pad.

In addition, the present invention transmits the user location information and bio-signal data to the administrator and the remote medical staff in wired and wireless in real time through the ubiquitous network to effectively cope with the user's continuous management and emergencies, and transfer the patient in case of emergency There is an effect that can facilitate the back.

1 is an overall block diagram of a cardiac defibrillator having a patient monitoring function for ubiquitous healthcare according to the present invention.
Figure 2 is a block diagram showing an embodiment of a cardiac defibrillator having a ubiquitous healthcare patient monitoring function according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, 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.

The present invention can be continuously attached to the user's body to monitor the biological signal data through the ubiquitous network by wirelessly connecting the biosignal sensor module and the defibrillator main body to measure the electrocardiogram and blood oxygen saturation degree, and in case of emergency It features a cardiac defibrillator with a patient monitoring function for ubiquitous health care so that people around you can quickly make emergency treatment by delivering a message to the patient.

Cardiac defibrillator having a ubiquitous healthcare patient monitoring function according to the present invention, the biosignal sensor module 100, the defibrillator main body 200, the control unit 300 and the relay server 400 is composed of.

Biological signal sensor module 100; Low power, light weight and sensor is provided and attached to the measurement site of the user, such as heart disease patients, the measurement unit 110 for measuring the electrocardiogram and blood oxygen saturation of the user and a measurement information transmission unit for transmitting the measured information wirelessly ( 120).

The defibrillator main body 200 includes a microcontroller unit 210 for controlling and checking the operation of connected components while determining whether the electric shock and the amount of electric shock are affected by the biosignal data signal of the user, and the microcontroller unit 210. A high voltage generation unit 220 controlled by the high voltage electric shock through the electrode pad, a high voltage switching unit 230 for discharging a current generated in the high voltage generation unit 220 to the human body, and the microcontroller unit It is formed on one side of the 210 comprises a memory unit 240 for storing the standby state information and the use state information of the components connected to the microcontroller unit 210. The defibrillator main body 200 is preferably installed at a short distance close to the activity radius of the user.

The control unit 300 is; It is provided in the form of the defibrillator main body 200, the biosignal data detection unit 310 for receiving the measurement information transmitted from the biosignal sensor module 100 to analyze the electrocardiogram and blood oxygen saturation of the user, and the A storage unit 320 for inputting the detected biosignal data of the user, a message transmitter 330 for displaying and alerting an abnormality of the biosignal data, and generating the stored biosignal data information to generate a wireless communication network. It consists of a wireless transmitter 340 to transmit through.

Further comprising an output unit 322 for outputting the bio-signal data input to the storage unit 320 using a printer, the security setting to output and through the set identification number to store and manage the unique identification number Preferably, the unit 324 is provided, and the biosignal data may be output through the wireless transmitter 340 using a printer.

The message transmitting unit 330 is a means for displaying and alerting an abnormality of the biosignal data when a neighboring person is aware of an emergency situation as a means for operating the defibrillator main body 200 through an electric pad. By the first aid, the message transmission unit 330 is further provided with a voice processing unit 332 for converting and outputting the voice so that people around the voice can recognize when an emergency occurs.

The wireless transmitter 340 may transmit the biosignal data directly to a remote medical team. The wireless transmission method may include Bluetooth, Zigbee, and the like.

The relay server 400 is; It includes a data transmission / reception module 410 that is wirelessly connected to the control unit 300 and the data communication unit 420 for transmitting the user location information and the bio-signal data to the administrator and medical staff by wire or wireless.

The relay server 400, the device control unit 430 that operates only when necessary according to the use of the battery of the bio-signal sensor module 100 and the defibrillator main body 200 and can vary the transmission scheme and characteristics for each device It may further include.

The user's location information can be checked through the base station of the 3G.4G network or using Wi-Fi (AP) wireless AP information when operating in GPS or indoors.

The data communication unit 420 may include information including a measurement time of the biosignal sensor module 100, battery usage of the biosignal sensor module 100 and the defibrillator main body 200, an error occurrence and error analysis data of the device, and the like. Can transmit In this case, the control unit 300 is further provided with means for analyzing and detecting the information to transmit the data generated by this information, of course.

When described in detail by the accompanying drawings an embodiment according to the cardiac defibrillator having a ubiquitous healthcare patient monitoring function of the present invention as follows.

The present invention attaches the biosignal sensor module 100 to a user's measurement unit such as a heart disease patient to measure the electrocardiogram and blood oxygen saturation of the user through the measurement unit 110 provided in the biosignal sensor module 100. The measured information is wirelessly transmitted to the control unit 300 provided in the defibrillator main body 200 by the measurement information transmitter 120.

The control unit 300 that receives the measurement information measuring the user's biosignal from the biosignal sensor module 100 analyzes whether the user's ECG and blood oxygen saturation are abnormal by the biosignal data detection unit 310. The detected biosignal data of the user is input to the storage 320.

In addition, when the analyzed information of the biosignal data input to the storage unit 320 is out of the normal range, the message transmitting unit 330 displays an alarm to recognize that the user's state is an emergency. By letting the voice to people around you by means of operating the defibrillator main body 200 installed in close proximity to the user's activity radius to enable first aid by electric shock through the electric pad.

In this case, the defibrillator main body 200 controls and checks whether the connected components are operated while determining whether the electric shock and the electric shock amount are caused by the biosignal data signal of the user by the microcontroller 210 and the high voltage generator 220. And high voltage by the high voltage switching unit 230 and repeats the operation of discharging the generated current to the human body, while rapidly applying a strong current to the myocardium through the chest wall of the heart to induce myocardial contraction. Have first aid to eliminate cardiac fibrillation.

The defibrillator main body 200 stores the standby state information and the use state information by the memory unit 240 so as to transmit and check information including an error occurrence and error analysis data of the device.

On the other hand, the wireless transmitter 340 of the control unit 300 generates the stored bio-signal data information and the radio is transmitted to the relay server 400 via a wireless communication network, such as Bluetooth (Bluetooth), Zigbee (Zigbee), etc. The biosignal data is directly transmitted to a remote medical team.

In addition, the relay server 400 wirelessly connected to the control device unit 300 transmits the user's location information and the biosignal data to the administrator and the remote medical staff in a wired or wireless manner to effectively cope with the user's continuous management and emergencies. To help.

And by the device control unit 430 provided in the relay server 400 means to operate only when necessary according to the use of the battery of the bio-signal sensor module 100 and the defibrillator main body 200 can reduce the battery consumption In addition, when the user's location information is operating in GPS or indoors, Wi-Fi (Wifi) wireless AP information can be used or confirmed through a base station of 3G.4G network, thereby facilitating patient transfer in case of emergency.

The biosignal data input to the storage unit 320 of the control unit 300 is output by using the printer through the output unit 322, and the identification set by storing and managing a unique identification number through the security setting unit 324. This ensures that the output is made through a number, which prevents the leakage of personal information.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

100: biosignal sensor module 110: measuring unit
120: measurement information transmitter 200: defibrillator main body
210: microcontroller 220: high voltage generator
230: high voltage switching unit 240: memory unit
300: control unit 310: biological signal data detection unit
320: storage unit 322: output unit
324: security setting unit 330: message delivery unit
332: voice processing unit 340: wireless transmission unit 400: relay server 410: data transmission / reception module 420: data communication unit 430: device control unit

Claims (9)

A biosignal sensor module 100 attached to the user's body to measure the electrocardiogram and blood oxygen saturation of the user and to wirelessly transmit the measured information;
A defibrillator main body (200) which determines whether an electric shock and an electric shock amount are determined by a biosignal data signal of a user, and an electric shock is made through an electrode pad;
Receive measurement information transmitted from the biosignal sensor module to analyze and store biosignal data, and then display a message in case of an emergency so that emergency treatment by electric shock can be performed. A control device unit 300 for transmitting the biosignal data through a communication network;
And a relay server 400 wirelessly connected to the control unit and transmitting user location information and biosignal data to a manager and a medical staff in a wired or wireless manner.
The control unit 300 is; A biosignal data detection unit 310 for receiving the measurement information transmitted from the biosignal sensor module 100 to analyze the electrocardiogram and blood oxygen saturation of the user, and a storage unit 320 for inputting the detected biosignal data of the user. And a message transmitter 330 for displaying and alerting an abnormality of the biosignal data, and generating and transmitting the stored biosignal data information through a wireless communication network.
Further comprising an output unit 322 for outputting the bio-signal data input to the storage unit 320 using a printer, the security setting to output and through the set identification number to store and manage the unique identification number Cardiac defibrillator having a patient monitoring function for ubiquitous healthcare, characterized in that it comprises a portion (324).
The method of claim 1,
The biosignal sensor module 100 includes; Ubiquitous healthcare patient, characterized in that consisting of a measuring unit 110 for measuring the electrocardiogram and blood oxygen saturation of the user attached to the user and a measurement information transmitter 120 for wirelessly transmitting the measured bio-signal data Cardiac defibrillator with monitoring function.
The method of claim 1,
The defibrillator main body 200; The microcontroller unit 210 controls and checks the operation of the connected components while determining whether the electric shock and the amount of electric shock are performed by the biosignal data signal of the user, and are controlled by the microcontroller unit 210 and are controlled by the electrode pads. It is formed on one side of the high voltage generator 220 for applying a high-voltage electric shock, the high voltage switching unit 230 for discharging the current generated in the high voltage generator 220 to the human body, and the microcontroller unit 210 The cardiac defibrillator having a patient monitoring function for ubiquitous healthcare, characterized in that it comprises a memory unit 240 for storing the standby state information and the use state information of the components connected to the microcontroller unit 210.
delete delete The method of claim 1,
The message transmitter 330, the cardiac defibrillator having a patient monitoring function for ubiquitous healthcare, characterized in that it further comprises a voice processing unit 332 for converting and outputting the voice.
The method of claim 1,
The relay server 400 is; Ubiquitous comprising a data communication unit 420 having a data transmission / reception module 410 is wirelessly connected to the control unit 300 and transmits the user location information and bio-signal data to the administrator and medical staff, wired or wireless Cardiac defibrillator with patient monitoring for healthcare.
8. The method of claim 7,
The relay server 400, the ubiquitous healthcare, characterized in that it further comprises a device control unit 430 to operate only when necessary according to the use of the battery of the bio-signal sensor module 100 and the defibrillator main body 200 Cardiac defibrillator with patient monitoring function.
8. The method of claim 7,
The user location information is GPS or WiFi wireless AP information. 3G. Cardiac defibrillator having a patient monitoring function for ubiquitous healthcare, characterized in that the position can be identified by any one selected from the base stations of the 4G network.

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