RU56153U1 - DEVICE FOR EVALUATING HUMAN CARDIOVASCULAR ACTIVITY - Google Patents

Abstract

The technical result of the invention is to improve the quality of the automated assessment of the state of the human myocardium and the possibility of remote refinement of this assessment by the graphic image of the electrocardiogram received by the attending physician by e-mail or in the form of MMS messages in a cellular communication system.

The specified technical result is achieved in that the device for assessing the activity of the human cardiovascular system, containing serially connected cardiac signal registration unit, a microprocessor and a display, additionally contains two Bluetooth modules and a modem, the cardiosignal registration unit is multi-channel, the microprocessor is equipped with a removable memory card and is connected with the modem directly, and with the cardiosignal recording unit via Bluetooth - modules. 4 cpf, 2 ill.

Description

The invention relates to medical electronics and can be used for autonomous and remote monitoring of the human cardiovascular system, as well as for the automatic issuance of recommendations to the patient.

A known system for assessing the activity of the cardiovascular system of a person (RU 2000125417, class A 61 B 5/02, 2002), containing series-connected multi-channel cardiac signals registration unit, a computer and a display, as well as telecommunication means for transmitting cardiogram images via the Internet to functional centers diagnostics of the hospital and other leading medical institutions and physicians of the resuscitation and intensive care units of the cardiology center of the hospital for conducting group medical computer video conferencing conferences between cardiologists to assess the patient’s health status.

The disadvantage of this system is the need for a visual assessment of electrocardiograms by a doctor, i.e. there is no automation of the preliminary assessment of cardiograms. This leads to unjustified losses of working time of specialists spending it on a preliminary assessment of electrocardiograms and therefore the above device is applicable only in a hospital.

It is advisable to automate the process of preliminary assessment of electrocardiograms to isolate from the total number of patients, persons in need of the help of a consultation of cardiologists to reduce the load of the latter.

The possibility of such automation has been achieved in a device for evaluating the activity of the human cardiovascular system (RU 2262887, class A 61 B 5/0402, 2005), which contains a single-channel cardiac signals recording unit, a calculator, an evaluation unit, and a display connected in series. At the same time, the cardiosignal recording unit contains one electrode, one biopotential amplifier, one analog-to-digital converter, and a cardiosignal preprocessing unit. The calculator and the unit for evaluating the device are made in the form of a microprocessor with software capable of generating the values of a plurality of RR intervals and time intervals from one peak of the R-wave to the next, performing their statistical processing and calculating the values of Amo, Mo, Mo _VPN and Mo _VPN . Assessment of the patient’s health is based on the calculation of the standard deviation of these parameters from the values of such parameters stored in the memory of the microprocessor and characteristic of the average healthy person. The device display is configured to display an electrocardiogram and text information on the state of the cardiovascular system and recommendations on human behavior on its screen.

The disadvantage of this device is the insufficient quality of the automated assessment of the state of the cardiovascular system of a particular person, due to the fact that the above calculation parameters characterize only the state of the autonomic nervous system that regulates the activity of the heart and does not allow an assessment of the state of the myocardium, its electrophysiological parameters. Another disadvantage of this device is the need to go to the doctor to decrypt the graphic cardiogram and to obtain detailed information about your health and myocardial condition.

The objective of the invention is to eliminate the disadvantages of the prototypes and preserve their advantages associated with the ability to automatically obtain preliminary data on the state of their health, including the myocardium without going directly to the doctor.

The technical result of the proposed device is to improve the quality of the automated assessment of the state of the human myocardium and the ability to remotely refine this assessment from the graphic image of the electrocardiogram received by the attending physician by e-mail or in the form of MMS messages in a cellular communication system.

The technical result is achieved by using the set of features set forth in the independent claim, namely, that the device for evaluating the human cardiovascular system, which contains serially connected cardiac signal recording unit, microprocessor and display, additionally contains two Bluetooth modules and a modem, registration unit cardiosignals is multichannel, the microprocessor is equipped with a removable memory card and is connected directly to the modem, and with the cardiosignals registration unit Erez Bluetooth - modules.

In additional paragraphs of the formula provides details of the design features of the device for assessing the cardiovascular system and options for the execution of its elements. So for the convenience of using the proposed device, its multichannel cardiosignal recording unit is made personal, together with the first Bluetooth module and mounted on a chest strap (cardiology belt) or in a portable box with insulated electrical leads and contains a series of connected electrodes block, a block of biopotential amplifiers, an analog block digital converters and unit

pre-processing of cardiac signals. The second Bluetooth - module, modem, microprocessor with a removable memory card and the display are made in the form of a stationary device (stationary phone, fax machine, equipped with Bluetooth - modules for wireless communication with a personal card recording unit) or as a portable patient device (series cordless telephone Nokia 6135 or communicator Nokia 9300 series, Qtek 9000 or Pocket PC ASUS series, paired with a cordless telephone Nokia 3650 series).

The introduction of distinctive features in an independent claim, namely, the introduction of two Bluetooth modules and installing them between the microprocessor and the cardiac registration unit allows replacing the mechanical connection between the latter with wireless communication in comparison with the prototype. The exception of the wires and mechanical connection ensures the convenience of using the device by the possibility of dividing the proposed device into two functionally independent parts: a lightweight personal one that is constantly worn on the chest or pocket of a person for permanent or periodic removal of cardiac signals and another - hardware for evaluating and light and sound indication on the patient’s health status in the form of a stationary or portable located within the communication radius of their Bluetooth modules (from ten to one hundred metro with Bluetooth transmitters power up to 5mW).

Providing the microprocessor of the proposed device with a multichannel personal cardiogram recording unit, as well as supplying the microprocessor with a removable memory card, allows using a separate doctor’s computer to record the patient’s control cardiogram and the patient’s health assessment program on the basis of correlation processing of the current and control cardiograms on the set of leads from

observed patient. This allows, firstly, to ensure the binding and improve the quality of the assessment results relative to a particular patient, and not relative to the average as in the prototype. Secondly, - apply the standard universal microprocessor circuit with a removable memory card and provide the ability to quickly replace its software, more suitable for examining a particular patient. The expansion of the studied parameters of the cardiovascular system by the full electrocardiogram, and not by its individual elements as in the prototype, allows us to further improve the quality of the automated assessment of the myocardium and human health.

Providing the proposed device with a modem of appropriate design provides the ability to pair its microprocessor with a wired, radio or mixed line of existing communication systems to transmit, respectively, facsimile, MMS and Internet messages with the application of graphic images of electrocardiograms for the attending physician.

From the above it can be seen that the present invention eliminates the disadvantages of the prototype and ensures the achievement of the claimed technical result while preserving the above advantages of the prototype.

The invention is illustrated in figure 1 ÷ 3. Figure 1 presents a functional diagram of the proposed device, figure 2 is an example of a structural embodiment of the registration unit of cardiac signals, figure 3 is an example of the display of graphic and text information on the display device for evaluating the activity of the human cardiovascular system.

The device 1 for evaluating the activity of the human cardiovascular system contains a patient device 2 connected via a wireless communication system (Bluetooth - modules 3 and 4) with a personal cardiac signal recording unit 5. The device 2 is made stationary or portable, for example in the form of a GSM phone. The GSM phone is a regular mobile phone, for example, the Nokia 6310, 6135 series in the basic configuration: microprocessor 6 with a removable memory card 7 connected to the display 8 and connected to the modem 9, with the interface 10 and with the Bluetooth module 3. In other cases execution as a device 2 can be used communicators series Nokia 9300, Qtek 9000, having the same basic configuration. It is possible to use a personal digital assistant equipped with a Bluetooth module 3, for example, the ASUS series, paired with a Nokia 3650 series radio telephone. The microprocessor 6 has the indicated GSM and GPRS communication capabilities, as well as the possibility of installing removable memory cards with a capacity of up to 3 GB in them. software for multichannel processing of electrocardiograms (RU 2103911, 02.10.1998, RU 2258456, Cl. A 61 V 5/0402, 2005; Automated system for input and processing of electrophysiological data "Rhythm". T technical description and operating instructions, 1990) in the microprocessor 6. With limited physical capabilities of a person, a stationary apparatus 2 can be used as apparatus 2, for example, a telephone and a fax machine of a telephone line with the corresponding equipment with microprocessor 6 with removable memory 7 and a Bluetooth module 3 with a range of up to 100 meters. Bluetooth modules 3 and 4 are well-known wireless means - standard microchips with a relatively low data transfer rate (just over 700 kbit / s) and a range depending on the device class: "class 3" - 10 m, "class 2" - 20 m and

"class 1" - 100 m (see, publication by Xenin A. "Practice: creating a home network without wires" dated 10/07/2004 on the website www.soom.cnews.ru). It is known that the first trial version of the Bluetooth standard was released in 1999 under the name Bluetooth 1.0. In the same year, Ericsson produced the first set of wireless communications with a GSM cell phone in the form of a miniature headset containing a headphone and microphone. In 2000, the Bluetooth 1.1 standard was published, and on its basis in early 2002, the high-speed standard Bluetooth, registered by the international chamber of IEEE-SA standards as IEEE 802.15.1, appeared. Bluetooth specifications provide for the work in the range of 2400-2483.5 MHz, free of licensing. Low-power devices operating at a distance of up to 10 m ("class 3") can be purchased and used completely freely. The first GSM phones with built-in Bluetooth module were Ericsson Т365, Ericsson R520, Ericsson S42, Nokia 6310 models. Currently, the fleet of GSM phone models with built-in Bluetooth module 3 has significantly expanded and therefore the problems of implementing wireless communication in the proposed device are currently time does not exist. The Bluetooth module 3 is coupled in frequency and range to the Bluetooth module 4. The Bluetooth module 4 is electrically connected to a personal cardiac recording unit 5 as an input / output device of the latter and is installed together with the unit 5 on the chest belt (cardiology belt) 11, equipped with Velcro-type quick-disconnect connectors 12 for ease of use. This embodiment is desirable for continuous monitoring of electrocardiograms. For periodic recording of electrocardiograms, a personal cardiac recording unit 5 together with a Bluetooth module 4 is best performed in the form of a pocket box 13 with insulated electrical leads 14. In both cases, the multi-channel unit 5 contains a series of connected electrodes 14, block 15

amplifiers of biopotentials, block 16 of analog-to-digital converters and block 17 of preliminary processing of cardiosignals, connected at the signal outputs and control inputs with Bluetooth - module 4. For an objective assessment of the electrocardiogram, the number of channels of block 5 and the corresponding taps of the biopotentials (electrodes 14) should be at least 6 Elements 14 ÷ 17 are similar (in design and software) to an analogue (RU 2000125417, class A 61 B 5/02, 2002), are widely known (Automated system for input and processing of electrophysiological data “Rhythm.” Technical Description and Operating Instructions, 1990) do not present difficulties for implementation.

A device for assessing the activity of the cardiovascular system of a person works as follows. Before using the device, the patient puts on a cardiological belt 11 or puts a box 13 on the chest area for two or three minutes with electrodes 14 on the heart area and, at rest, presses the interface key 10 corresponding to the program. In this case, the patient’s electrocardiogram is taken and loaded into the memory card 7 of the device 2 as control. In the process of taking the electrocardiogram, the analogue cardiosignals are sent from the electrodes 14 of the personal unit 5 to the input of the unit 15, in which they are amplified and switched to the input of the analog-to-digital converter 16 using the control signals of the microprocessor 6 received via a wireless communication line (Blutooth modules 3 and 4) along the path “microprocessor 6 output → Blutooth transmitter module 3 → Blutooth receiver module 4 → control input of block 16”. In block 16, analog cardiac signals are converted into pulse-code signals and transmitted to block 17 for preliminary processing of the latter. In block 17, according to the control commands received through the Bluetooth transceiver - modules 3, 4 from the microprocessor 6, the low-frequency filtering of the R-waves of the cardiosignal is sequentially performed; shaping it

derivative; conversion of the derivative of the cardiosignal into a control signal for subsequent narrow-band filtering and smoothing of the cardiosignal. At the same time, in the process of digital filtering and smoothing of the electrocardiogram, the output pulse-code signal is transmitted to the input to the microprocessor 6 along the path "output of block 17 → transmitter transmitter Blutooth - module 4 → receiver Blutooth - module 3 → input of microprocessor 6". In the microprocessor 6, the electrocardiogram is additionally smoothed out and transferred to the display 8 as a graphic image. After the stable image of the electrocardiogram appears on the screen 8 of the person at rest, the "enter" key of interface 10 is pressed. The smoothed electrocardiogram is written to the memory of microprocessor 6 card 7 in as a control sample. After recording the control electrocardiogram, the "work" key is pressed and the microprocessor 6 is transferred to the measurement and comparison mode of the current and control electrocardiograms by their correlation processing. With full coincidence of the electrocardiograms of the current and control amplitude of the correlation signal has a maximum value. With a decrease in the amplitude of the correlation signal and a change in its duration below the acceptable control thresholds, the corresponding warning signals about the need to see a doctor. Sound alerts are transmitted to the corresponding speaker of the apparatus 2 and are displayed in the form of text and graphic information on the display screen 8. If there are such signals, the patient dials the cell number of the attending physician using interface 10 and presses the corresponding button on interface 10 to send him an MMS message. In this case, the microprocessor 6 sends this message with the attached electrocardiogram through the modem 9, the network 18 to the server of the provider 19, where the radio cell 20 in which the addressee of the message is located is determined by the phone number code. At the same time on the sender’s cell

the provider’s equipment roughly determines the location of the sender of the message, which is attached to the message for the addressee. The updated message is transmitted to the addressee - the attending physician on his cell phone 21 for analysis of the patient's electrocardiogram and his remote consultation by cell or landline phone.

The invention is not limited to the above example of its implementation. In the framework of the present invention, other embodiments of the device for evaluating the activity of the human cardiovascular system are possible. So, when installing software for correlation processing of cardiac signals on the equipment of the provider, and making recommendations to the patient, you can use a cheaper cell phone without additional removable memory and without installing relatively expensive licensed medical software on it. In this case, for a fee, the provider can remotely assess the state of the myocardium of the heart with a simplified GSM telephone and a personal block 5 for recording cardiograms of design 11 or 13, equipped with built-in Bluetooth modules.

The invention was developed at the level of physical modeling based on a ASUS A620 handheld personal computer (PDA), Nokia 3650 cell phone equipped with built-in Bluetooth modules, and connecting them via an external Bluetooth DONG-14 module with a USB input from a stationary electrocardiograph. Tests have shown the possibility of using standard programs for processing cardiac signals using microprocessors of a handheld computer and a cell phone with a capacity of removable memory cards of not more than 2 GB. It was shown that the transmission of warning signals with the application of a graphic image of a cardiogram is possible in GSM mode in the form of MMS - messages and in GPRS (packet data transfer) mode

Email Internet. This eliminates the above disadvantages of the prototype and the claimed technical result is achieved.

Claims (5)

1. A device for evaluating the activity of the human cardiovascular system, comprising serially connected cardiac signal registration unit, a microprocessor and a display, characterized in that it additionally contains two Bluetooth modules and a modem, the cardiosignal registration unit is multi-channel, the microprocessor is equipped with a removable memory card and is connected with the modem directly, and with the cardiosignal recording unit via Bluetooth - modules. 2. The device according to claim 1, characterized in that the cardiosignal recording unit together with one Bluetooth module is mounted as a personal device on the cardiology belt or in a portable box with insulated electrical leads and contains a series of electrodes, a block of biopotential amplifiers, an analog block -digital converters and a block of preliminary processing of cardiosignals. 3. The device according to claim 1, characterized in that the other Bluetooth - module, modem, microprocessor with a removable memory card, interface and display are made in the form of a separate stationary or portable device. 4. The device according to claim 3, characterized in that the stationary apparatus is made in the form of a stationary telephone or facsimile apparatus equipped with Bluetooth modules and a microprocessor with a removable memory card. 5. The device according to claim 3, characterized in that the portable device is made in the form of a cellular telephone cordless telephone of the Nokia 6135 series or a communicator of the Nokia 9300, Qtek 9000 series or a pocket personal computer of the ASUS series paired with a Nokia 3650 series telephone.