RU2497445C1 - Method of diagnosing fetus and mother's state in antenatal period of pregnancy and device for its realisation - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention relates to medicine. In realisation of the method analogous electric signals of biopotentials read from abdomen skin surface are formed by means of N electrocardiographic electrodes, filtered, amplified, transferred into digital signal carrying clinically significant information on examination results, and stored in the format of fetal monitor producer. Diagnostics is performed in the remote way in real time mode with application of mobile connection unit, server and unit of processing medical consultant's information. Authorisation of mobile connection unit and fetal monitor is carried out. Signal, used during the entire session by fetal monitor to transmit signals into mobile connection unit, where they are converted into signal with required formal of processing of data of mobile connection unit, which is later stored in separate parallel way, is formed. In the first part, it is carried out continuously during for the entire examination session, and in the second, in form of packets for preliminarily specified time interval ?T. Simultaneously transformed is signal, corresponding to each packet, in the first channel into the signal with graphic format of data transmisttion, which is supplied onto display of mobile connection unit. In the second canal signal is encoded and transmitted to server, where each packet is decoded, transferred into graphic format, stored and supplied on display of processing of medical consultant's information. Auxiliary indices are calculated and respective signals are compared with preliminarily introduced standard signals. After that, they are stored, transformed into test format and supplied on display of mobile connection unit. Then, formed is signal of enquiry to fetal monitor, by which formed is signal, containing a set of parameters measured for the entire examination session, which is re-supplied to memory unit of mobile connection unit, stored and supplied to server via encoder and connection line, where it is decoded, format of processing server data is transformed and values of auxiliary indices are calculated. Respective signals are also compared with preliminarily introduced standard signals and stored. When signal of enquiry from authorized unit of processing of medical consultant's information is received, signals, containing both results of analysis of main parameters and calculated values of auxiliary indices are decoded and supplied respectively in graphic and text formats on display and/or printer. Results of the examonation are used to form response, and respective signal is transmitted to patient. Device for the method realisation contains server, M units of mobile connection and Z units of processing of medical consultant's information, which contain N electrocardiographic electrodes, unit of frequency filters, analogous amplifier, analogous-digital converter, calculators, memory units with software, decoders, encoders, modems, comparator units, unit of transformation of data transmission formats, displays, sensor of body position in space and time sensor.EFFECT: invention makes it possible to extend functional possibilities of the device and ensure remote diagnostics of fetus and mother in antenatal period of pregnancy, both in real time mode and in retrospection after finishing the examination.2 cl, 1 dwg

Description

The invention relates to the field of medical instrumentation, namely to obstetrics and is intended for remote monitoring of the physiological state of the fetus and mother during the antenatal period of pregnancy.

A known method of recording, analysis and transmission of electrocardiograms (ECG), based on the removal of biopotentials from the patient’s skin by using three electrodes, amplifying them, converting them into a digital code and storing the corresponding signals in a non-volatile memory unit, which also stores user programs. The display serves to indicate ECG signals in graphical form and output service information (hazardous signal, pulse rate, etc.), and the modem is designed to transmit data to the telemetry center. (RF patent for utility model No. 107466 of September 30, 2010).

The disadvantage of this method is the impossibility of its use for monitoring the physiological state of the fetus and mother during pregnancy due to its specific focus on solving monitoring problems in cardiology, as well as the inability to use the signal from the fetal monitor to the telemetry center in real time.

A device for recording, analyzing and transmitting an ECG based on a mobile communication device containing an analog signal input port, a controller, an analog-to-digital converter, non-volatile memory, a display, a sound emitter, a modem, a battery, three ECG electrodes and a biopotential amplifier, (RF patent for utility model No. 1077466 dated September 30, 2010).

A disadvantage of the known device is the inability to use it to monitor the physiological state of the fetus and mother during pregnancy due to its specific focus on solving monitoring tasks in cardiology, as well as the inability to use it in real time to transmit a signal from the fetal monitor to the telemetry center.

The closest technical solution, i.e. The prototype of the claimed method is a technical solution based on the use of a fetal monitor, in which analog electric signals of biopotentials read from the surface of the skin of the abdomen are formed using N electrocardiographic electrodes, filtered, amplified, converted into a digital signal that carries clinically significant information from the examination results, such as the average rhythm of the heart rate of the fetus, the average rhythm of the heart rate of the mother, the number of uterine contractions, etc., remember ayut Manufacturer fetal monitor format ((RF patent for invention №2353290 from 02.03.2006 city)

The closest technical solution, i.e. The prototype of the claimed device is a device containing a fetal monitor, consisting of N electrocardiographic electrodes, a block of frequency filters, an analog amplifier, an analog-to-digital converter, a third computer, a third memory block with software, while the electrocardiographic electrodes are connected through a series-connected block of frequency filters and an analog amplifier to an analog-to-digital converter, the first output of which is simultaneously connected to the input of the third ychislitelya and to the first input of the third memory unit to the software, and the output of the third calculator connected to the second input of the third memory block. (RF patent for the invention No. 2353290 of 03/02/2006).

The disadvantage of this method and device is the inability to conduct remote diagnostics of the physiological state of the fetus and mother in the antenatal period of pregnancy.

The technical result of the invention is to expand the functionality of the device and provide remote diagnostics of the fetus and mother in the antenatal period of pregnancy both in real time and retrospectively, after the completion of the study.

The essence of the method claimed in the invention lies in the fact that in the method for diagnosing the condition of the fetus and mother during the antenatal period of pregnancy, based on the use of a fetal monitor, in which, using N electrocardiographic electrodes, analog electrical signals of biopotentials read from the surface of the skin of the abdomen are formed, filtered, amplified are converted into digital signals that carry clinically relevant information from the examination, such as the average fetal heart rate a, the average rhythm of the mother’s heart rate, the number of uterine contractions, etc., are stored in the format of the fetal monitor manufacturer, while the diagnostics are carried out remotely in real time using a mobile communication unit, a server and a medical consultant information processing unit , authorize the mobile communication unit and the fetal monitor and, upon successful completion, generate a signal in the mobile communication unit by which the fetal monitor during the entire study session is not edaet signals to the mobile communications, where they transform into a signal with the desired format processing mobile communication unit of data which is then parallel separately stored, wherein the first section is continuous for the entire study session, and the second - packets for a predetermined time interval ΔT _zap, in this case, in sequence, the signal corresponding to each packet is simultaneously converted in the first channel into a signal with a graphic data transmission format for visual monitoring of changes in the studied parameters over time, The second one is fed to the display of the mobile communication unit, and in the second channel, the same packet is converted into a data transmission format via a communication line, encrypted and transmitted to a server, where each packet is decrypted, converted to a graphic format, stored and fed to the processing unit display for operational visual control information of a medical consultant, while the cycle of batch processing and signal transmission over the communication line is repeated throughout the study session, and after completion of the study on the signal generated by continuous To explicitly store the data converted into a data processing format, auxiliary indicators (variability, number of accelerations and decelerations, short variations, minute range, etc.) are calculated in the mobile communication unit and the corresponding signals are compared with previously entered reference signals corresponding to their control values; converted into a text format and served on the display of the mobile communication unit for visual inspection, and then generate a request signal to the fetal monitor, according to which they generate a signal containing a set of measured parameters for the entire study session, which is again fed to the memory block of the mobile communication unit, stored and fed through the encoder and communication line to the server, where it is decrypted, converted into the server data processing format, and the auxiliary indicators and corresponding values are calculated the signals are compared with the previously entered reference signals corresponding to their control values, memorized, and when receiving a request signal from an authorized inform processing unit The relations of the medical consultant transmit signals to it containing both the results of the study of the main parameters and the calculated values of the auxiliary indicators, they are decrypted and fed in graphical and textual formats to the display and / or printer, and after making the Decision, they form the answer and the corresponding signal according to the research results send to the patient.

The essence of the device claimed in the invention is that in a device for implementing a method for diagnosing the condition of the fetus and mother during the antenatal period of pregnancy, comprising a fetal monitor consisting of N electrocardiographic electrodes, a frequency filter unit, an analog amplifier, an analog-to-digital converter, and a third computer, the third memory block with software, while the electrocardiographic electrodes are connected through a series-connected block of frequency filters and a tax amplifier to an analog-to-digital converter, the first output of which is simultaneously connected to the input of the third computer and the first input of the third memory block with software, and the output of the third computer is connected to the second input of the third memory block; an additional server, M mobile communication units and Z processing units information of a medical consultant, while the server contains a first decoder, a first encoder, a first calculator, a first memory unit, a first modem, a first comparison unit, and each of M bl The mobile communication device contains a second modem, a decoder, a data transmission format conversion unit, a second memory unit, a first display, a second calculator, a second comparison unit, a second encoder, each of the Z medical consultant information processing units contains a fourth modem, a third decoder, and a fourth a memory unit, a second display, an input / output information unit and a third encoder, and a third comparison unit, a third modem, a body position sensor in space, a time sensor are additionally introduced into the fetal monitor wherein the second output of the analog-to-digital converter is connected to the first input of the third comparison unit, the second input of which is connected to the first output of the third memory unit, and the first output of the third comparison unit is connected to the second input of the analog-to-digital converter, while the second output of the third memory unit simultaneously connected to the second inputs of the electrocardiographic electrodes and the third input of the third memory input, and the fourth and fifth inputs of the third memory block are connected respectively to a time sensor and a second m is the input of the third modem of the fetal monitor, while the first input / output of the third modem of the fetal monitor through the second communication line is connected to the second input / output of the second modem of the mobile communication unit, while the third output of the second modem is connected through the second decoder to the first input of the transmission format conversion unit data, the first, second and third outputs of which are connected respectively with the first, second and third inputs of the second memory block, and its first, second and third outputs are connected respectively with the second, three the fourth and fourth inputs of the data format conversion unit, and the fourth, fifth, sixth, seventh and eighth outputs of the second memory unit are respectively connected to the first input of the second encoder, the second input of the second comparison unit, the first input of the second computer, the second and first inputs of the first display when the output of the second computer is connected to the first input of the second comparison unit, the output of which is connected to the first input of the second encoder, the first and second outputs of which are respectively connected to the third and the fourth inputs of the second modem, and the first input / output of the second modem through a two-way communication line LS1 is connected to the first input / output of the first modem of the server, the third output of which through the decoder is connected to the second input of the first memory block, the first and second output of which are connected by the second and third the inputs of the first comparison unit, the first output of which is connected to the first input of the first memory block, the third and fourth outputs of which are connected respectively to the input of the first computer and the first input of the first encoder, output is connected to the third input of the first modem, while the output of the first computer is connected to the first input of the first comparison unit, the third output of which is connected to the second input of the first encoder, and the second input / output of the first server modem is connected by a two-way communication line LS3 to the input / output of the fourth modem information processing unit of a medical consultant, while the output of the fourth modem is connected to the first input of the third decoder, and its output and the second input are connected to the first input and the first output of the fourth unit memory window, the second, third and fourth outputs of which are respectively connected to the second input of the information input / output unit, the input of the third encoder and the input of the second display, and the first output of the information input / output unit is connected to the second input of the fourth memory unit, and the output of the third the encoder is connected to the second input of the fourth modem, and the first input of the input / output unit of information is intended for operational use.

The technical implementation of the method for remote diagnosis of the condition of the fetus and mother during the antenatal period of pregnancy is carried out on the basis of computer technology and medical instrumentation and is explained by the operation of the device.

Figure 1 presents a functional diagram of a device for diagnosing the condition of the fetus and mother during the antenatal period of pregnancy, where the server is 1, the first server modem is 1.1, the first decoder is 1.2, the first memory block is 1.3, the first calculator is 1.4, the first comparison block is 1.5, the first encoder - 1.6, the patient’s mobile communications unit - 2.1-2.M, the second modem - 2.1.1, the second decoder 2.1.2, the data transfer format conversion unit - 2.1.3, the second memory unit 2.1.4, the first display - 2.1.5, the second calculator - 2.1.6, the second comparison unit - 2.1.7, the second encoder - 2.1.8, mobile fe monitors - 3.1-3.S, electric signal sensors - 3.1.1.1-3.1.1.N, amplifier - 3.1.2, frequency filter unit - 3.1.3, analog-to-digital converter - 3.1.4, third comparison unit - 3.1.5, the third memory block - 3.1.6, the third calculator - 3.1.7, the third modem 3.1.8, the body position sensor in space - 3.1.9, the time sensor - 3.1.10, the medical consultant information processing unit 4.1-4 .Z, the fourth modem is 4.1.1, the third decoder is 4.1.2, the fourth memory unit is 4.1.3. the second display is 4.1.4, the information input / output block is 4.1.5, the third encoder is 4.1.7

The device operates as follows.

At a preliminary stage, a server (1) is additionally introduced into the network (for example, the Internet), containing the first memory block, 1.3, into the corresponding sections of which the identification data signals of the information processing units of medical consultants 4.1-4.Z, and the patient’s mobile communication units, 2.1-2 .M (smartphones, communicators, etc.) that are subscribers of the specified server - 1, and the identification data of mobile fetal monitors - 3.1-3.S allowed to work on this network, while in each specific mobile communication unit, e.g. 2. 1, an additional second memory block 2.1.4 is introduced.

In addition, at the preliminary stage, the medical officer determines the location of specific points on the patient’s body, in which, when conducting studies, the electrical signal sensors 3.1.1.1-3.1.1.N, the specific fetal monitor used, for example, 3.1, where the value of N is determined the number of electrocardiographic electrodes or ultrasound sensors used in the device.

For example, when using the Monica AN24 ™ fetal monitor, the number of such points is five, and the installation points of the electrocardiographic electrodes are defined as: sensor No. 1-3 cm above the navel, sensor No. 2-5 cm to the left of the navel, sensor No. 3-10 cm to the right of the navel, sensor No. 4-6 cm above the pubic joint, sensor No. 5 behind (above) 3 electrodes. (“Monica AN24 ™ Quick Operator Guide, www.monicahealthcare.com)

At the first stage of work, the patient establishes communication through the second modem 2.1.1 between her registered mobile unit (mobile phone) 2.1. over the communication line ЛС1, for example, the Internet and the first modem 1.1 of the server - 1. If the initialization of the mobile communication unit 2.1 is completed successfully. it generates a request signal for the initialization procedure for the specific fetal monitor 3.1 used, for which a fetal monitor 3.1 is turned on, a connection is established between it and the mobile unit 1, for example, via the LS2 wireless line via Bluetooth, its identification number is read and through the third modem 3.1 .8, the second communication line LS2, the second modem 2.1.1, the first two-way communication line LS1, the first modem 1.1 is fed to the input of the first decoder 1.2 from the output of which the signal is fed to the second input of the first memory unit 1.3, from the first the output of which the signal is supplied but the second input of the first comparison unit 1.5., where a set of checks are made on the admission of the specified specific fetal monitor 3.1 to work in its network, for which the signals from the corresponding sections of the first memory block are sent to the third input of the first comparison unit 1.5 from the second output 1.3.

Test results may be, for example, the following:

- the authorization signal satisfies the verification condition and the specified fetal monitor is active (i.e., it can be allowed to work).

- the authorization signal satisfies the verification condition, but the specified fetal monitor is not active (i.e. cannot be allowed to work, for example, due to non-payment of funds for the services provided),

- the authorization signal does not satisfy the verification condition (i.e., the specified fetal monitor is not designed to work on this network.

In the case of a positive test result, a request signal is generated at the first output of the first comparison block 1.5, which is fed to the first input of the first memory block 1.3, while at its fourth output, a configuration file signal is generated from its corresponding section for the operation of specific software, which through the first the input of the first encoder 1.6 is fed to the third input of the second modem 1.1 of the server - 1, and then on a two-way communication line LS1 (for example, the Internet) through the first input / output of the first modem 2.1.1 and the follower connected thereto about the second decoder block 2.1.2 and converting data formats 2.1.3 with its first output is supplied to a first input of the second memory block 2.1.4. For example, in accordance with the configuration file, first, on the fourth output of the second memory block 2.1.4, a signal is transmitted for transmission from the mobile communication unit 2.1 through the first output of the encoder 2.1.8 and the third input of the second modem 2.1.1 to the server - 1 entered at the preliminary stage individual data about the patient under study, then at its seventh output, prompts are generated for installation, checking the health and correct connection of the sensors 3.1.1.1-3.1.1.N of the fetal monitor 3.1., which are fed to the second input of the display 2.1.5. For this, after following each instruction, the electrical signals are generated at the outputs of the respective sensors, which are fed to the inputs of a series-connected amplifier - 3.1.2., A block of frequency filters - 3.1.3. and an analog-to-digital converter - 3.1.4, in which the useful analog signal from the noise signal is amplified, filtered and converted into a digital signal with a pre-set sampling time Δt, quantization step Δh and the number of quantization levels - H.

From the second output of the analog-to-digital converter - 3.1.4, digital electrical signals are supplied to the first input of the third comparison unit 3.1.5, and to its second input, from the first output of the third memory unit 3.1.6, reference signals previously recorded in it are supplied.

In the case of a positive result of all the checks performed at the second output of the third comparison unit 3.1.5. generate a signal to enable the fetal monitor 3.1 in the transmission mode of signals containing information about the investigated parameters, which is fed to the second inputs of the sensors 3.1.1.1-3.1.1.N and to the third input of the third memory block 3.1.6.

From the first output of the analog-to-digital converter - 3.1.4, digital electrical signals are fed simultaneously to the first input of the third memory block 3.1.6, where they are stored, and to the input of the third computer 3.1.7, the output of which is connected to the second input of the third memory block 3.1. 6. From the fifth output of the third memory block 3.1.6. signals on a two-way communication line are fed to the second input of the third modem of the fetal monitor 3.1.8 and then, on the second two-way communication line, LS2 is fed to the second input / output of the second modem of the mobile unit 2.1.1, which is connected to the first input through the second decoder 2.1.2 unit for converting data transmission formats 2.1.3.

To realize the possibility of transmitting a signal in real time in a block for converting data transmission formats 2.1.3. produce transmission data format conversion of the particular fetal monitor 3.1 in a data format in a mobile communication unit 2.1, which is formed at its first output and fed to the first input of the second memory block 2.1.4 is stored for a predetermined time interval ΔT _zap (specific value is determined by the ratio of the volumes of processed information, the speed of the processors used and the parameters of the communication lines), form the corresponding data packet and from its first output feed to W The second input of the unit for converting data transmission formats 2.1.3, in which a signal is generated simultaneously in the graphic format of the mobile communication unit 2.1 at the second output, and at the third output in the data transmission format via the LS1 communication line, which respectively feed the second and third inputs of the second memory 2.1.4, where it is stored in the appropriate sections and fed from the eighth output to the first input of the first display 2.1.5, and from the fourth output to the first input of the second encoder 2.1.8, the first output of which is connected to the third input of the second modem 2.1.1 .

The batch signal transmission procedure is repeated throughout the duration of the study and stored in the corresponding section of the second memory block 2.1.4. At the end of the main time of the study (until the fetal monitor is turned off), the research indicators are checked for compliance with the reference criteria.

The signal accumulated during the research session from the sixth output of the second memory block 2.1.4 is fed to the first input of the calculator 2.1.6, in which the values of auxiliary indicators (variability, number of accelerations and decelerations, short variations, minute range, etc.) are determined, for example, according to the algorithms described in "The technique and algorithms for computerized analysis of long-term fetal heart rate recordings" (http: // dare uva.nl/document/81115) and the corresponding signals from its output are fed to the first input of the second comparison unit 2.1.7. To the second input of the second block of comparison 2.1.7 serves from the fifth output of the second block of memory 2.1.4 reference signals previously entered into it, corresponding to the standard values of the indicators. If the signals do not coincide according to at least one of the criteria, a signal is generated at the first output of the second comparison block 2.1.7, which is transmitted to the fetal monitor through the second input of the second encoder 2.1.8, the second modem 2.1.1 and the second LS2 communication line to continue the study in advance set time interval Δt _add. over and above the main time, they again calculate indicators and compare them with the standard. In case of mismatch, the procedure for continuing the study for the interval Δt _{additional is} repeated for a predetermined number of cycles, and then, at the first output of the second comparison unit 2.1.7, the signal for completion of the study is generated, which is fed to the fetal monitor 3.1 and formed at the second output of the second comparison unit 2.1.7 a warning signal for the patient about a deviation in his physiological state from the norms, which is fed to the fourth input of the second memory block 2.1.4, where it is stored and fed through the seventh output to the second input of the first display 2.1.5.

To implement the real-time transmission mode, the signal received at the third input of the second modem 2.1.1 by packets from its first input / output on a two-way communication line LAN 1 is fed to the first input of the first modem 1.1 of server 1, which through the first decoder is 1.2, enters through the second entrance to the first memory block-1.3, where it is stored in the corresponding section and, if there is a request from the medical consultant, also in packets through the first encoder 1.6, the first modem 1.1 and the two-way communication line LS3 are transferred to the fourth modem 4.1.1 of the processing unit and Medical Consultant Information 4.1. The signal from the second output of the fourth modem 4.1.1 is fed to the first input of the third decoder 4.1.2, the second input of which supplies a signal corresponding to the encryption key used from the first output of the fourth memory block 4.1.3 and the signal is generated at the output of the third decoder 4.1.2 graphic format corresponding to the transmitted packet, which is fed through the first input to the fourth memory block 4.1.3, where it is stored in the corresponding section, and then fed from the fifth output to the input of the second display 4.1.4.

At the end of the research cycle, a signal is generated at the first output of the comparison block 2.1.7, which, through the second input of the second encoder 2.1.8, the second modem 2.1.1, the LS2 two-way communication line, the third modem 3.1.8, the third memory block 3.1.6 and the third block comparison with its second output prohibits the transmission of signals from sensors 3.1.1.1-3.1.1.N fetal monitor 3.1.

Retrospective transmission, i.e. data signal transmission from the mobile communication unit 2.1 to the server 1 is carried out after the completion of the study cycle. From the memory block of the fetal monitor 3.1.6, they are again requested for all the signals of the study carried out in it, and then through the second modem 2.2.1 and the second encoder 2.1.8 they are transmitted to server - 1, where they are stored in the corresponding section of the first memory block 1.3 and its output is fed to the input of the first calculator 1.4. In the calculator 1.4, according to the same algorithms that were used in the second calculator 2.1.6, the value of the auxiliary indicators is determined and the corresponding signals are fed to the first input of the comparison unit 1.5, to the second input of which the reference signals are previously entered into the memory unit 1.3. At the output of the comparison unit 1.5, a signal is generated for the correspondence of the calculated values of auxiliary indicators to their standard values, which is fed to the memory unit 1.3 and stored. Access to the signals recorded in the first memory block 1.1 of the server - 1 is carried out through the information processing unit of the medical consultant 4.1 using a pre-registered login and password.

When accessing this section of the first memory block 1.3, the signal from the fourth output of the first memory block 1.3 is connected through a third encoder 1.6 and modem 1.1, a third LS3 communication line, a fourth modem 4.1.1 of the medical consultant 4.1 information processing unit (computer, communicator, mobile) telephone, smartphone, etc.) is fed to the first input of the third decoder 4.1.2, to the second input of which a signal corresponding to the previously obtained decryption key is received from the first output of the fourth memory block 4.1.3. At the output of the decoder 4.1.2, sets of digital electrical signals are generated in the user format corresponding to the results of medical studies, which are fed to the first input of the fourth memory block 4.1.3, the second and fourth output of which are connected respectively to implement the visual control functions with the second input of the input block / output information 4.1.6 and the second display 4.1.4.

The response of the medical consultant through the first input of the information input / output block 4.1.6 is converted into electrical signals, which from its first output are fed to the second input of the fourth memory block 4.1.3, where it is stored, and then through its third output, the third encoder 4.1.7 and the second input of the fourth modem 4.1.1 via the LS3 communication line and the server 1.1 modem are served in the corresponding section of its memory block 1.3.

Using the present invention allows regular remote monitoring of the physiological state of the fetus and mother during the antenatal period of pregnancy, which will significantly increase the effectiveness of health care. The organization of such control is of particular importance in places with a low population density in the absence of closely located specialized medical centers. In addition, the use of the invention will increase the efficiency of using communication networks.

Claims (2)

1. A method for diagnosing the condition of the fetus and mother in the antenatal period of pregnancy, based on the use of a fetal monitor, in which analog electric signals of biopotentials read from the surface of the skin of the abdomen are formed using N electrocardiographic electrodes, filtered, amplified, converted into a digital signal that carries clinically significant information on the results of the examination is stored in the format of the manufacturer of the fetal monitor, characterized in that the diagnostics are carried out remotely in mode In real time, using the mobile communication unit, the server and the medical consultant information processing unit, the mobile communication unit and the fetal monitor are authorized and, upon successful completion, a signal is generated in the mobile communication unit through which the fetal monitor transmits signals to the unit during the entire study session mobile communications, where they are converted into a signal with the required data processing format of the mobile communications unit, which is then separately separately stored in parallel, moreover, in the first section le - continuously for the entire study session, and in the second — in packets for a predetermined time interval ΔT _app , while the signal corresponding to each packet is sequentially converted in the first channel into a signal with a graphic data transmission format for visual monitoring of the changes in the studied parameters over time which is fed to the display of the mobile communication unit, and in the second channel, the same packet is converted into a data transmission format via a communication line, encrypted and transmitted to a server, where each packet is decrypted, converted They are saved in a graphic format, memorized, and fed to a medical consultant’s information processing unit for on-line visual monitoring, while the cycle of batch processing and signal transmission through the communication line is repeated throughout the study session, and after completion of the study, the signal generated by continuous storage of the converted in the data processing format, auxiliary indicators are calculated in the mobile communication unit and the corresponding signals are compared with previously entered reference with the signals corresponding to their control values, they are memorized, converted to text format and fed to the display of the mobile communication unit for visual inspection, and then a request signal to the fetal monitor is generated, which generates a signal containing a set of measured parameters for the entire study session, which it is fed back to the memory block of the mobile communication unit, stored and fed through the encoder and communication line to the server, where it is decrypted, the processing format of the server data is converted, and the values of recording parameters and corresponding signals are compared with previously entered reference signals corresponding to their control values, are stored, and when a request signal is received from an authorized medical consultant information processing unit, signals containing both the results of the study of the main parameters and the calculated values of auxiliary indicators are transmitted to it , decrypt and submit respectively in graphical and text formats to a display and / or printer, and after making a decision I, according to the results of the study, form a response and send the corresponding signal to the patient. 2. The device for implementing the method according to claim 1, containing a fetal monitor, consisting of N electrocardiographic electrodes, a block of frequency filters, an analog amplifier, an analog-to-digital converter, a third computer, a third memory block with software, while the electrocardiographic electrodes are connected in series connected by a block of frequency filters and an analog amplifier to an analog-to-digital converter, the first output of which is simultaneously connected to the input of the third computer and the first input of the third memory block with software, and the output of the third computer is connected to the second input of the third memory block, characterized in that it additionally includes a server, M mobile communication units and Z medical consultant information processing units, the server comprising a first decoder, the first encoder, the first calculator, the first memory unit, the first modem, the first comparison unit, and each of the M mobile communication units contains a second modem, a decoder, a unit for converting data transmission formats, WTO a memory block, a first display, a second calculator, a second comparison block, a second encoder, wherein each of the Z medical consultant information processing blocks contains a fourth modem, a third decoder, a fourth memory block, a second display, an information input / output unit and a third encoder, moreover, a third comparison unit, a third modem, a body position sensor in space, a time sensor are additionally introduced into the fetal monitor, while the second output of the analog-to-digital converter is connected to the first input of the third unit the second input of which is connected to the first output of the third memory unit, and the first output of the third comparison unit is connected to the second input of the analog-to-digital converter, while the second output of the third memory unit is simultaneously connected to the second inputs of the electrocardiographic electrodes and the third input of the third memory input, and the fourth and fifth inputs of the third memory block are connected respectively to the time sensor and the second input of the third modem of the fetal monitor, while the first input / output of the third modem of the fetal monitor Ora through the second communication line is connected to the second input / output of the second modem of the mobile communication unit, while the third output of the second modem is connected through the second decoder to the first input of the data transmission format conversion unit, the first, second and third outputs of which are connected respectively to the first, second and the third inputs of the second memory unit, and its first, second and third outputs are connected respectively to the second, third and fourth inputs of the data format conversion unit, and the fourth, fifth, sixth, seventh The seventh and eighth outputs of the second memory block are respectively connected to the first input of the second encoder, the second input of the second comparison unit, the first input of the second calculator, the second and first inputs of the first display, while the output of the second calculator is connected to the first input of the second comparison unit, the output of which is connected to the first input of the second encoder, the first and second outputs of which are respectively connected to the third and fourth inputs of the second modem, and the first input / output of the second modem through a two-way communication line L 1 is connected to the first input / output of the first server modem, the third output of which through a decoder is connected to the second input of the first memory unit, the first and second outputs of which are connected by the second and third inputs of the first comparison unit, the first output of which is connected to the first input of the first memory unit, the third and the fourth outputs of which are connected respectively to the input of the first computer and the first input of the first encoder, the output of which is connected to the third input of the first modem, while the output of the first computer is connected to the first the input of the first comparison unit, the third output of which is connected to the second input of the first encoder, and the second input / output of the server’s first modem with a two-way communication line LSZ is connected to the input / output of the fourth modem of the medical consultant’s information processing unit, while the output of the fourth modem is connected to the first input of the third the decoder, and its output and the second input are connected to the first input and the first output of the fourth memory block, the second, third and fourth outputs of which are respectively connected to the second input information input / output lock, the input of the third encoder and the input of the second display, and the first output of the information input / output block is connected to the second input of the fourth memory block, and the output of the third encoder is connected to the second input of the fourth modem, and the first input of the information input / output block for use by the operator.

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