BG67001B1 - Real time telemonioring method and system of cardiac activity - Google Patents

Abstract

The invention relates to a real-time telemetry monitoring method and system of cardiac activity which are used for observation of both hospital patients and outpatients. The wide range of applications includes monitoring of air transport, maritime transport, fitness training, insurance risks, and others. The real-time cardiac telemonitoring system includes a sequentially located and functionally associated flexible printed circuit board configured as a reusable patch (1), a patient device (4) connected via a wireless 3G or WiFi connection to a file server (7) and a center for telemonitoring (8) comprising a computer or mobile devices connected to the file server (7) over the Internet. The reusable patch (1) is equipped with removable electrodes (2) and at least two microphones (3) and the patient device (4) is divided into two parts. One part of the patient device is a medical device (5) placed on the chest of the patient and the second part is a communication device (6) which is placed on the belt or in a special case of the patient's arm. The medical device (5) and the communication device (6) are wirelessly connected, and the communication device (6) is a 3G or WiFi communication module for connection to the file server.

Description

(54) METHOD AND SYSTEM FOR TELEMONITORING OF HEART ACTIVITY IN REAL TIME

Field of technology

The present invention relates to a method and system for real-time cardiac telemonitoring and will find application in the monitoring of both inpatients and outpatients. The wide range of applications includes monitoring of air transport, sea transport, fitness training, insurance risks and others.

BACKGROUND OF THE INVENTION

Known cardiac monitoring devices require the patient's presence in a specialized office or hospital and continue to be static, large and offline. Various systems for remote monitoring of cardiac activity online are also known in practice. These systems consist of individual modules - sensors located on the patient's body, which record the heart rate and other vital parameters of the patient.

A method and system are known, comprising a flexible printed circuit board in the form of a sticker on which 3, 5 or 12 fields are formed, which by means of a porous material impregnated with electrolyte make contact with the human body in the heart area and send electrical signals. The weak electrical signals received in this way enter a patient device, where they are amplified and digitized by means of precise analog-to-digital converters. After filtering, the signals are transmitted to the Internet via a 3G or WiFi connection. A file server receives this data via the Internet and stores it for further processing. After the necessary calculations and transformations, the information is available for visualization in a telemonitoring center. The devices through which doctors monitor patients reconnect via the Internet to the file server and visualize the information in an appropriate graphical and textual mode.

With the known methods and systems for remote monitoring of cardiac activity, the main battery in the patient device is very quickly depleted, which implies its charging for 4 hours and restricts the freedom of mobility of the patient. The electrodes are attached by means of heavy and inconvenient cables, which also interfere with normal life. On the other hand, replacing them with a disposable patch makes the study significantly more expensive. In addition, data is not stored while the patient is out of range of the mobile operator. The information coming into the server is very disturbed and artifacts and there is no means to notify the patient of a serious problem.

Technical essence of the invention

The objective of the invention is to create a method and system for telemonitoring of cardiac activity in real time, which will lead to obtaining the most accurate and precise test result. The system should be light and compact and at the same time provide greater accuracy of measurements, eliminating interference and artifacts.

The task was solved by creating a method for telemonitoring of cardiac activity in real time.

The developed method includes the operations: transmission of electrical signals from the cardiac area to a patient device; amplifying, digitizing and wirelessly transmitting these signals to a file server, where the received data is stored for further processing; and visualization of the processed data in a telemonitoring center. According to the invention, simultaneously with the transmission of the electrical signals from the cardiac activity, audio signals are transmitted from different auscultatory points, whereby the transmission of both types of signals to the patient device is carried out wirelessly. The processing of the received two types of signals in the file server is performed in real time and is a vector analysis in three planes, in which the resulting mean vector is visualized in each frame of the 3D image in the devices of the telemonitoring center.

The task is solved through the created system for telemonitoring of the heart activity in real time.

Descriptions of issued patents for inventions № 01.2 / 31.01.2020

The real-time cardiac monitoring system includes a sequentially arranged and functionally connected flexible printed circuit board shaped like a sticker, a patient device connected via a wireless 3G or WiFi connection is a file server and a telemonitoring center including a computer or mobile devices connected to the file server over the Internet.

The patch is reusable and is equipped with replaceable electrodes and has at least two microphones, and the patient device is divided into two parts. One part of the patient device is a medical device located on the patient's chest, and the second part is a communication device that is placed on a belt or in a special case on the patient's hand.

The medical device and the communication device are connected wirelessly, and the communication device is a 3G or WiFi communication module for the connection is the file server.

The invention allows alternative embodiments in which the replaceable electrodes are from two to twelve, and the medical device can be from one channel to twelve channels.

The method and the system provide the following advantages:

• Mobility: the monitoring is performed in real time under normal conditions for the patient - when working, traveling, playing sports or resting, thanks to the use of small and light modules in the system;

• Security: the patient is monitored by a specialized team at any time of the day. In emergency situations, the telemonitoring center responds by calling and instructing the patient, his doctor or the emergency center if necessary;

• Prevention: by accumulating data, artificial intelligence is created, with the help of which a number of heart diseases can be predicted and treated in time through analyzes. In addition, the system can detect abnormalities and conditions that are precursors of serious diseases in the future - sudden cardiac death, myocardial infarction, stroke and more.

The created system also provides:

• Long battery life of the medical device, which guarantees data continuity for more than 72 hours;

• Lower economic cost of research, due to the fact that only the electrodes are replaced, not the entire patch;

• Much greater accuracy of the received signal due to the elimination of muscle disturbances during movement;

• A device has been introduced in the medical device, through which a signal is received in the server if the patient is not feeling well;

• The patient has a permanent audio connection is the medical team at the center.

Explanation of the attached figures

The present invention is illustrated in the accompanying drawings, in which:

Figure 1 is a block diagram of a real-time cardiac telemonitoring system; and Figure 2 is a reusable patch diagram.

Examples of the invention

The real-time cardiac monitoring system is a system of medical modules that remotely transmit information about the patient's vital signs. The system includes sequentially arranged and functionally connected reusable patch 1, a patient device 4, a file server 7 and a telemonitoring center 8 including a computer or mobile device for visualizing the information - figure 1.

The reusable patch 1 shown in Figure 2 is a flexible printed circuit board located in the patient's heart area. The patch 1 is equipped with replaceable electrodes 2, which can be from two to twelve pieces, and which electrodes 2 transmit electrical signals reflecting the electrical activity of the heart (ECG). The sticker 1 is equipped and has microphones 3,

Descriptions of issued patents for inventions № 01.2 / 31.01.2020 located in different auscultatory points, which transmit an audio signal. to the patient device 4, without the need for additional cables. Sticker 1 can be used repeatedly.

The patient device 4 is divided into two parts, one part being a medical device

5, which is located on the patient's chest, and the second part is a communication device

6, which can be placed on a belt or in a special case on the hand. The medical device 5 may be from one channel to twelve channels. The electrical signals from the interchangeable electrodes 2 and the microphones 3 simultaneously enter the medical device 5, which amplifies and digitizes them by means of precise analog-to-digital converters. The size and consumption of the medical device 5 are very small, which guarantees data continuity for more than 72 hours. The communication device 6 is a 3G or WiFi communication module which, after filtering the signals received from the medical device 5, forwards the data to the file server 7. The connection between the medical device 5 and the communication device 6 is made wirelessly, which eliminates the inconvenience of additional cables. and a heavy chest device. The file server 7 receives the sent data from the communication device 6 via the Internet and stores them for further processing.

To achieve greater signal accuracy and to eliminate muscle disturbances during movement, at least two microphones 3 are placed on the reusable patch 1 so as to obtain an audio signal from the two opposite parts of the heart concerning the heart. and extracardiac sound phenomena in audio and graphic (phonocardiographic) mode. After filtering, amplifying and digitizing these audio signals, a graph reflecting the received audio data is obtained. The signal from the interchangeable electrodes 2, representing the ECG is detailed and dynamic is a lot of interference called artifacts, while the graph of the audio signals is rounded, but accurate in maximum and minimum values. Through appropriate mathematical models and filters, a third graph is obtained, representing a kind of fusion between the ECG graphs and the audio data. The resulting graph is also as detailed, but it eliminates interference and is a much more accurate signal amplitude.

In addition, the processing of the received two types of signals in the file server 7 is performed in real time and is a vector analysis in three planes, in which the resulting mean vector is visualized in each frame of the 3D image in the devices of the telemonitoring center 8. which doctors monitor patients are computers or mobile devices from the center 8, which connect is the file server 7 again via the Internet.

Application of the invention

The real-time cardiac monitoring system is a system of medical modules that remotely transmit information about the patient's vital signs. The information is transmitted constantly in real time, via the Internet in a specialized telemonitoring center. Reported vital signs include cardiac activity, respiratory rate, oxygen saturation, blood pressure, physical activity, body temperature, body position in space (upright, sitting, lying down, falling). The information received at the telemonitoring center is analyzed by calculating the current cardiovascular and overall risk of serious illness and / or critical situations. When registering critical conditions, an emergency procedure is initiated by calling the patient, his relatives and / or the supervising physician. The system monitors the patient's health in real time, and through the GPS module in the patient device 4 it is possible to locate the patient and in case of a critical situation to be directed to a specialized team.

Claims (4)

Patent claims A method for real-time telemonitoring of cardiac activity, comprising the operations of: transmitting electrical signals from the cardiac region to a patient device; amplifying, digitizing and wirelessly transmitting these signals to a file server, where the received data is stored for further processing; and visualization of the processed data in a telemonitoring center, Descriptions of issued patents for inventions № 01.2 / 31.01.2020 characterized in that the transmission of electrical signals from cardiac activity is transmitted and audio signals from different auscultatory points, whereby the transmission of both types of signals to the patient device (4) is carried out wirelessly, as the processing of the received two types of signals in the file server (7) is carried out in real time and is a vector analysis in three planes, in which the resulting mean vector is visualized in each frame of the 3D image in the devices from the telemonitoring center ). 2. A real-time cardiac monitoring system comprising sequentially arranged and functionally connected flexible printed circuit board shaped like a sticker, a patient device connected via a 3G wireless or WiFi connection is a file server and a telemonitoring center including a computer or mobile device, The file server is connected via the Internet, characterized in that the patch is reusable (1) and is equipped with replaceable electrodes (2) and at least two microphones (3), and the patient device (4) is divided into two parts, one part being a medical device (5) located on the patient's chest and the other part being a communication device (6) which is placed on a belt or in a special case on the patient's hand, whereby the medical device (5) and the communication device (6) are connected wirelessly, and the communication device (6) is a 3G or WiFi communication module. Telemonitoring system according to claim 2, characterized in that the replaceable electrodes (2) are from two to twelve. Telemonitoring system according to claim 2, characterized in that the medical device (5) is from one-channel to twelve-channel.