RU195957U1 - The system of remote monitoring of indicators of the state of the cardiovascular system of patients - Google Patents

Abstract

The utility model relates to medical equipment, in particular, to a system for remote monitoring of indicators of the state of the cardiovascular system of patients. The technical result is to increase the system’s speed by eliminating the time spent on searching for patient data and identifying critical situations immediately at the time of receiving patient testimonies. that the system contains a module for receiving data for monitoring indicators of the state of the cardiovascular system of patients, a module selection of patient addresses in the system server database, a memory module, a module for generating write and read addresses, a module for receiving patient data from a system server database, a module for identifying critical values of monitoring data, a module for receiving patient notifications from the system server database, a module for issuing notifications to patients. 5 ill.

Description

The utility model relates to medical equipment, in particular, to a system for remote monitoring of indicators of the state of the cardiovascular system of patients.

Known technical solutions that could be used to solve the problem (1, 2).

The first known technical solution comprises a receiver, preamplifier, an electrode with an integrated Bluetooth module, with the possibility of transmitting an electrocardiographic signal taken from a patient, contains an electrode, preamplifier, Bluetooth module and a receiver connected in series, while the electrode has a single-chip Bluetooth system, which includes an analog-to-digital converter, a data processing unit and a Bluetooth transmitter (1).

A significant drawback of this technical solution is its limited functionality, due to the fact that the processing of measurement data and the subsequent analysis of the results are carried out by operators manually, which requires a lot of time.

A wireless ECG monitoring system is also known, comprising an ECG monitor, including a transceiver for wireless transmission of ECG signal data together with a status notification unit for transmitting notifications when the ECG monitor status changes, and a cell phone handset including electronics, a transceiver for wireless reception ECG signal data or notifications from the ECG monitor and a controller for the electronic transmission of ECG signal data to the control center via a cellular network (2).

The last of the above technical solutions is the closest to the described system.

Its disadvantage also lies in the low speed due to the fact that the search for patient data in the system server database is carried out by sequentially sorting all the addresses of the database cells and requires unreasonable time spent on identifying critical situations after writing the received data to the system server database.

The purpose of the utility model is to increase the system performance by eliminating the time spent on searching for patient data and identifying critical situations immediately at the time of receiving patient testimonies.

This goal is achieved by the fact that in the system of remote monitoring of indicators of the state of the cardiovascular system of patients, containing a module for receiving monitoring data of indicators of the state of the cardiovascular system of patients, the information input of which is the first information input of the system designed to receive monitoring data of indicators of the state of the cardiovascular system system of patients, synchronizing input of the module for receiving data from monitoring indicators of the state of the cardiovascular system of patients is the first synchronizing input of the system intended for receiving synchronizing pulses of entering monitoring data of indicators of the state of the cardiovascular system of patients into the module for receiving data of monitoring the indicators of the state of the cardiovascular system of patients, the first information output of the module for receiving data of monitoring of the indicators of the state of the cardiovascular system of patients is information output of the system intended for data output to the information input of the database server data, the module for generating addresses for writing and reading data, the information input of which is connected to the information output of the memory module, the address output of the module for generating addresses for writing and reading data is the address output of the system, intended for issuing addresses to the address input for the database server, and the synchronizing output for the module for generating write and read addresses from the system server database is the first synchronizing system output intended for issuing synchronizing signals to the input of the first channel of the database server interrupt, the module for receiving patient data from the system server database, the information input of which is the second information input of the system for receiving patient data from the system server database, and the synchronizing input of the patient data receiving module from the system server database is the second synchronizing input of the system, intended for receiving synchronizing pulses of entering patient data from the system server database into the data receiving module patients from the system server database, the patient notification module from the system server database, the information input of which is the third information input of the system designed to receive patient notifications from the system server database, and the synchronizing input of the patient notification module from the system server database is the third synchronizing input of the system, and the module for issuing notifications to patients, the information outputs of which are the information outputs of the system, the mode is introduced To identify critical values of monitoring data, the first, second, and third information inputs of which are connected to the third, fourth, and fifth information outputs of a module for receiving monitoring data of indicators of the state of the cardiovascular system of patients, the fourth, fifth, and sixth information inputs of a module for identifying critical values of monitoring data connected to the first, second and third information outputs of the patient data receiving module from the system server database, respectively о, the synchronizing input of the identification module of critical values of monitoring data is connected to the second synchronizing input of the system, while the first and second synchronizing outputs of the identification module of critical values of monitoring data are the second and third synchronizing outputs of the system, designed to provide signals to the inputs of the second and third channels of server interrupt databases, respectively, and a module for selecting patient addresses in the database of the system server, the information input of which is connected the second information output of the module for receiving the monitoring data of indicators of the state of the cardiovascular system of patients, the synchronizing input of the patient address selection module in the database of the system server is connected to the first synchronizing input of the system, the first synchronizing output of the patient address selection module in the database of the system server is connected to the synchronizing input of the module the formation of write and read addresses, while the first, second and third synchronizing outputs of the patient address selection module The entries in the system server database are connected to the first, second, and third read inputs of the memory module, respectively.

The essence of the utility model is illustrated by drawings, where in FIG. 1 is a structural diagram of a system; FIG. 2 is a structural diagram of a patient address selection module in the system server database; FIG. 3 is a block diagram of a module for generating write and read addresses, in FIG. 4 is a block diagram of a critical reading identification module for monitoring data; FIG. 5 is a block diagram of a patient notification module.

The system (Fig. 1) contains a module 1 for receiving data for monitoring indicators of the state of the cardiovascular system of patients, module 2 for selecting addresses of patients in the database of the server of the system, module 3 for memory, module 4 for generating addresses for writing and reading data, module 5 for receiving patient data from system server database, module 6 for identifying critical readings of monitoring data, module 7 for receiving patient notifications from the system server database, module 8 for issuing notifications to patients.

In FIG. 1 also shows the first 10, second 11 and third 12 information inputs of the system, the first 13, second 14 and third 15 synchronizing inputs of the system, as well as information 16 and address 17 outputs of the system, the first 18, second 19 and third 20 synchronizing outputs of the system, and information 21-23 system group outputs.

Module 1 (Fig. 1) of receiving data for monitoring indicators of the state of the cardiovascular system is made in the form of a register having information 10 and synchronizing 13 inputs, as well as first 29, second 30, third 31, fourth 32 and fifth 33 information outputs of the module.

Module 2 (Fig. 2) of patient address selection in the system server database contains a decoder 62, elements 63-65 I, elements 66-67 delays. The drawing also shows the information 40 and synchronizing 41 inputs, the first 42, second 43, third 44 and fifth 45 synchronizing outputs of the module.

The memory module 3 (Fig. 1) is made in the form of a permanent storage device having a first 46, a second 47 and a third 48 read inputs, as well as an address 56 output.

Module 4 (FIG. 3) of generating write and read addresses contains a register 68 and a delay element 69. The drawing shows information 57 and synchronizing 58 inputs, as well as address 17 and synchronizing 18 outputs.

Module 5 (Fig. 1) for receiving patient data from the system server database is made in the form of a register having information 11 and synchronizing 14 inputs, as well as first 34, second 35 and third 36 information, and address 37 outputs of the module.

The critical reading identification module 6 of the monitoring data 6 (FIG. 4) comprises a first 70, a second 71 and a third 72 comparators, an OR element 73, and a delay element 74. The drawing shows informational 49-54 informational and synchronizing 55 inputs, as well as the first 19 and second 20 synchronizing outputs.

Module 7 (Fig. 1) 7 of receiving patient notifications from the system server database is made in the form of a register having information 11 and synchronizing 14 inputs, as well as information 28 output.

Module 8 (Fig. 5) for issuing notifications to patients contains a decoder 87, elements 88 - 90 And groups and an element 91 delay. The drawing shows the address 59, information 60 and synchronizing 61 inputs, as well as information 21-23 outputs of the module.

The system allows continuous monitoring of patients over an extended period of time.

The input to the system is data obtained using a monitor attached with an adhesive patch to the patient’s chest. The monitor continuously records and analyzes the patient's ECG. If a suspected arrhythmia is detected, the ECG data record is transmitted directly to the cell phone containing the controller and sent to the control center for clinical viewing.

A specific structural implementation of such a monitor is presented in the prototype (2).

The structure of the message arriving at the information input 10 of the system has the following form:

From the information input 10 of the system, this codogram with a synchronizing pulse from input 13 is entered in the register of module 1.

The patient identifier code from the output 30 of module 1 enters through the information 40 input of module 2 to the input of the decoder 62, which decrypts the incoming code and opens one of the elements 63-65 AND, for example, element 64 I.

At the other input of the 64 And element, a synchronizing pulse is received from the input 41 of the module 2, delayed by the delay element 66 for the time the codogram is entered into the module 1, which passes the And element 64, and from the output 44 of the module 2 it enters the input 47 of the fixed cell 3, in which the code of the address of the database partition of the system server where the patient data is located is recorded.

From the information output 56 of the module 3, the read address of the database section of the server of the system goes to the information 57 input of the register 68 of the module 3, which is entered in the synchronizing pulse received at the synchronizing input 58 of the module 4 from the output 42 of the module 2.

The code of the reference address of the selected database partition from the output of the register 68 of module 4 is issued to the address output 17 of the system and then to the address input of the database server.

In parallel, the synchronizing pulse from the input 58 of module 4 is delayed by the delay element 69 for the response time of the register 68, and from the output 18 of the system it enters the input of the first channel of the database server interrupt.

By this signal, the database server goes to the data reading routine at the address specified in register 68 and issuing them through the information 11 system input to the information input of module 5, where they are entered by the synchronizing pulse from the input 14 of the system.

The structure of the adopted codegram in module 5 will have the following form:

At this point in time, one information input 49 of the comparator 70 of module 6 from the output 31 of module 1 will receive the value of the first parameter recorded by the user monitor, and another information input 52 of the comparator 70 of module 6 will be given the value of the first parameter of the previous monitoring session from the output of module 34 5. According to the synchronizing signal from the input 14 of the system to the input 55 of the module 6 and delayed by the delay element 74, the comparator 70 of the module 5 compares these codes.

If the codes of the values of the first parameter were not equal, then the output of comparator module 6 generates a signal that passes through element 73 OR to the system output synchronizing 19, from where it is output to the input of the second channel of the database server interrupt.

By this signal, the database server goes to the data recording routine from the output 29 of module 1 at the address specified in module 4 and generating a notification to the patient about taking appropriate measures provided for in such a case. The database server issues the generated notification through the information input 12 of the system to the input of the register of module 7, where the notification is entered by a synchronizing pulse from the input 15 of the system.

In parallel, through the address input 59 of module 8, the code of the patient’s electronic address is issued to the input of the decoder 87. As a result of this, the decoder 87 opens the And elements of one of the groups 88-90 of the And elements, for example, the And elements of the 90 group, to the other inputs of which the notification code for the patient receives from the information input 60 of the module 8.

As a result of this, with the arrival of a synchronizing pulse from the input 61 of module 8, it is delayed by element 91 while the notification codogram is entered into module 7, and then, through elements of group 90, it is output to system output 23.

Similarly, the system works in cases where signals will be generated both at the output 80 of the comparator 71 and at the output 84 of the comparator 72.

If the codes of the values of the first parameter turn out to be equal, then the signal is generated at the output 76 of the comparator 70 of module 6, which passes to the synchronizing input 79 of the comparator 71, to one information input 77 of which from the input 50 of module 6 the value of the second parameter recorded by the user monitor receives, and to another information 78 input of the comparator 71 receives the value of the second parameter of the previous monitoring session from the input 53 of module 6.

By a synchronizing pulse from input 79, the comparator 71 compares the input codes, and if they are again equal, then an output is generated at the output 81 of the comparator 71, which is fed to the synchronizing 92 input of the comparator 72.

The value of the third parameter recorded by the user monitor is received at one information 82 input of the comparator 72 from input 51, and the value of the third parameter of the previous monitoring session from the input 54 of module 6 is received at the other information 83 input of the comparator 72.

Using a synchronizing pulse from input 92, comparator 72 compares the input codes, and if they are again equal, then an output is generated at output 85 of comparator 72, which, through system output 20, is fed to the input of the third channel of the database server interrupt.

By this signal, the database server goes to the data recording routine from the output 29 of module 1 at the address of the database server specified in module 4 and the statistical processing of the received data.

Thus, the introduction of new modules made it possible to significantly increase the system performance by eliminating the time spent searching for patient data and identifying critical situations immediately at the time of receiving patient testimonies.

Sources of information taken into account when drawing up the description of the application:

1. RF patent No. 137456, 04/12/2013

2. RF patent No. 2501520, 03/04/2009 (prototype).

Claims (1)

A system for remote monitoring of patient status indications, containing a module for receiving data for monitoring indicators of the state of the cardiovascular system of patients, the information input of which is the first information input of the system designed to receive monitoring data for indicators of the state of the cardiovascular system of patients, the synchronizing input of the module for receiving data for monitoring status indicators the cardiovascular system of patients is the first synchronizing input of the system, for receiving synchronizing pulses of entering monitoring data of indicators of the state of the cardiovascular system of patients into the module for receiving data of monitoring of the indicators of the state of the cardiovascular system of patients, the first information output of the module for receiving data of monitoring of the indicators of the state of the cardiovascular system of patients is the information output of the system intended for issuing data to the information input of the database server, the module for generating addresses for writing and reading data, information the ion input of which is connected to the information output of the memory module, the address output of the module for generating addresses for writing and reading data is the address output of the system intended for issuing addresses to the address input of the database server, and the synchronizing output for the module for generating addresses for writing and reading data from the database of the system server is the first synchronizing output of the system, designed to issue synchronizing signals to the input of the first channel of the database server interrupt, the data receiving module x patients from the system server database, the information input of which is the second information input of the system, intended for receiving patient data from the system server database, and the synchronizing input of the patient data receiving module from the system server database is the second synchronizing input of the system, intended for receiving synchronizing pulses of entering patient data from the system server database into the module for receiving patient data from the system server database, the module for receiving notifications cents from the system server database, the information input of which is the third information input of the system, designed to receive patient notifications from the system server database, and the synchronizing input of the patient notification receiving module from the system server database is the third synchronizing input of the system, and the patient notification module , the information outputs of which are the information outputs of the system, characterized in that the system contains a module for identifying critical values for monitoring data, the first, second and third information inputs of which are connected to the third, fourth and fifth information outputs of the module for receiving monitoring data of indicators of the state of the cardiovascular system of patients, respectively, the fourth, fifth and sixth information inputs of the identification module for critical values of monitoring data are connected to the first, the second and third information outputs of the patient data receiving module from the system server database, respectively, the synchronizing input of the identifier module the critical values of the monitoring data is connected to the second synchronizing input of the system, while the first and second synchronizing outputs of the identification module of critical values of the monitoring data are the second and third synchronizing outputs of the system, designed to provide signals to the inputs of the second and third channels of the database server interruption, respectively, and a module for selecting patient addresses in the system server database, the information input of which is connected to the second information output of the module the data of monitoring the indicators of the state of the cardiovascular system of patients, the synchronizing input of the patient address selection module in the database of the system server is connected to the first synchronizing input of the system, the first synchronizing output of the patient address selection module in the system server database is connected to the synchronizing input of the recording address generation module and data reading, while the first, second and third synchronizing outputs of the patient address selection module in the database of the server of the connection system Nena with first, second and third inputs, respectively, reading the memory module.

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