RU188138U1 - Instrument unit of a portable medical diagnostic complex - Google Patents

Abstract

The utility model relates to medical equipment and can be used as an instrument unit of a wearable medical diagnostic complex. The required technical result, which consists in reducing the overall dimensions while maintaining its functionality, is achieved in the instrument unit containing channels for measuring pulse, taking an electrocardiogram, measuring the patient’s body temperature, measuring the respiratory rate and measuring the oxygen content in the blood, made with the possibility of receiving signals from the corresponding sensors placed on the patient’s body, and the formation of output signals in digital form for subsequent analysis, as well as a display for visas an all-round display of measurement information and a processing and analysis module for measurement signals, the inputs of which are connected to the outputs of the measurement channels, and the output is connected to a display input, the processing and analysis module for measuring signals being configured to convert the output signals of the measurement channels into video signals for display on the display, In this case, the instrument unit of the wearable medical diagnostic complex is made in a case equipped with batteries and fastening means on the patient’s body, and the display is placed on its side surface with the possibility of visualizing the results of the current measurements displayed on it, moreover, a connector is made in the device’s body, which provides power from the batteries to the pressure measuring device when it is connected to the connector and supplying the measurement results from the pressure measuring device through the connector to module for processing and analysis of measurement signals. 2 ill.

Description

The utility model relates to medical equipment and can be used as an instrument unit of a wearable medical diagnostic complex.

Known software and hardware unit, which is part of the telemedicine diagnostic system "Distance Doc 2" [RU 125368, U1, G06Q 50/00, 02/27/2013], which includes a receiver module for streaming audio and video, demultiplexer, video decompressor, audio decompressor , an output video interface, an analog audio output interface and a network interface that is connected to a local medical computer network, and the output is connected via a streaming audio / video receiver module to a demultiplexer, the outputs of the demultiplexer are connected to a video decompressor y, the output of which is connected to the monitor via the video output interface, and to an audio decompressor, the output of which is connected to the analog audio interface.

The disadvantage of this device is its relatively high complexity.

There is also known a transceiver [RU 110946, U1, АВВ 5/00, 12/10/2011] made with the possibility of automatically receiving and transmitting files with digital data to the server upon the moment of supply and removal of power from the devices, data buffering in case of a break connection and automatic retransmission of data until the server confirms its integrity, while the transceiver consists of a hardware module for storing and transmitting data in an Ethernet or GSM network to a data collection server and wireless modules for transmitting data from the instrument in to the hardware module, and the transceiver is made in the form of a portable module with the ability to place on the patient’s body and transmit data via the GPRS channel of the GSM network through the channels of at least two GSM network operators.

The disadvantage of this device is also relatively large complexity.

Another analogue of the proposed device is the instrument unit [RU 93655, U1, АВВ 5/00, 05/10/2010], made in the form of a module for recording biomedical signals, which is part of a wearable telemedicine diagnostic kit, connected to the base unit of the kit via a wireless data channel and intended for recording such biomedical signals as an electrocardiogram, body temperature and photoplethysmogram (PPG), which is a graphical recording of the pulse based on the determination of the optical properties of tissue in the light spectrum λ = 680 nm, while the data is digitized and digitally transmitted to the base unit of the wearable telemedicine diagnostic kit via Bluetooth protocol for subsequent analysis and visualization.

This instrument unit, made in the form of a module for recording biomedical signals, allows you to quickly and fairly reliably assess the condition of the patient by analyzing objective recorded indicators, but it has the following disadvantages.

One of them is the relatively narrow functionality, since they are limited to recording only the electrocardiogram, body temperature and pulse. However, data on the parameters of respiration and blood pressure are also essential for an array of diagnostic data, especially during procedures and manipulations that are not recorded in the known technical solution.

In addition, the existing functionality of the known technical solution does not provide visual control of the parameters and their possible exceeding the permissible limits directly during the procedures and manipulations in rooms not equipped with receiving telemedicine equipment, as well as by the patient himself outside the treatment and treatment rooms. And the need to transfer data to receiving telemedicine means for their decryption reduces the speed and efficiency of data visualization.

The closest in technical essence to the proposed is the instrument unit of a portable medical diagnostic complex [RU 172819, U1, А61В 5/01, А61В 5/0205, А61В 5/021, А61В 5/024, А61В 5/0402, А61В 5/145, G08B 07/21, 07/25/2017] containing a pulse measurement channel, an electrocardiogram recording channel, a patient’s body temperature measurement channel, a blood pressure measurement channel, a respiratory rate measurement channel, and a blood oxygen measurement channel, configured to receive signals from their corresponding sensors placed on the patient’s body, generating output signals in digital form for subsequent analysis, as well as a display for visual display of measurement information and a processing and analysis module for measurement signals, the inputs of which are connected to the outputs of the channels for measuring heart rate, taking an electrocardiogram, measuring body temperature, measuring blood pressure, measuring breathing rate and measuring the oxygen content in the blood, and the output is connected to the input of the display, and the processing module and the analysis of the measurement signals is configured to convert The output signals of the channels for measuring heart rate, taking an electrocardiogram, measuring body temperature, measuring blood pressure, measuring respiratory rate and measuring the oxygen content in the blood into video signals for display on the display in the form of the results of current measurements with the possibility of highlighting the color of results that are outside the permissible limits and forming an audible alarm when exceeding the permissible limits, while the instrument unit of the wearable medical diagnostic complex is made in the housing, equipped with rated power elements and fastening means to the patient, and the display is placed on its side surface, with visualization display thereon the current measurement results.

A feature of the closest technical solution is that it is equipped with light and / or sound signaling devices, configured to be triggered when the measurement results go beyond acceptable limits, with a wi-fi controller configured to transfer the results of current measurements to external devices for subsequent analysis and visualization, as well as batteries.

The disadvantage of the closest technical solution is the relatively large weight and overall dimensions, caused mainly by the channel for measuring blood pressure, which cannot be made miniature and very light, because it must contain an engine, compressor, valves, fittings, etc.

But, on the other hand, pressure is usually not measured continuously. When monitoring, this is usually done 2-3 times a day in the morning, at work, in the evening. In addition, it is extremely inconvenient for the patient to continuously wear a cuff on his arm connected to the pneumatic system of the blood pressure measuring channel with a hose. Therefore, since the device is designed to be constantly worn on the patient’s body, reducing the size and weight of the wearable part is important.

The problem that is solved in the proposed utility model is the creation of a wearable instrument unit designed for operational recording of an array of biomedical data and fixing their possible overstepping limits and with the possibility of visual monitoring, both by medical personnel and by the patients themselves, which is relatively small overall dimensions, but retains the functions of operational registration of the entire array of biomedical data, including blood pressure data.

The required technical result is the reduction of overall dimensions while maintaining their functionality.

The problem is solved, and the required technical result is achieved by the fact that the instrument unit of a portable medical diagnostic complex containing a pulse measurement channel, an electrocardiogram recording channel, a patient body temperature measuring channel, a respiratory frequency measuring channel and a blood oxygen measurement channel are configured to receiving signals from corresponding sensors located on the patient’s body, and generating output signals in digital form for subsequent analysis, as well as for visual display of measurement information and a processing and analysis module for measurement signals, the inputs of which are connected to the outputs of the pulse measurement channel, the electrocardiogram recording channel, the patient’s body temperature measuring channel, the respiratory rate measuring channel and the blood oxygen measurement channel, and the output is connected to the input a display, the processing and analysis module for the measurement signals being configured to convert the output signals of the pulse measurement channel, electrocardiogram recording channel, channel To measure the temperature of the patient’s body, the channel for measuring the respiratory rate and the channel for measuring the oxygen content in the blood, video signals can be displayed on the display as the results of current measurements with the ability to highlight results that are outside the acceptable range and generate an audible alarm when beyond the acceptable range, Moreover, the instrument unit of the wearable medical diagnostic complex is made in a housing equipped with batteries and fastening means on the patient’s body, and the display is placed on its side surface with the possibility of visualizing the results of current measurements displayed on it, according to the utility model, a connector is made in the instrument housing of the wearable medical diagnostic complex that provides power from the batteries to the pressure measuring device when it is connected to the connector and the results signal is supplied through the connector measurements from the pressure measuring device to the module for processing and analysis of measurement signals. The drawing shows:

in FIG. 1 is a functional diagram of an instrument unit of a wearable medical diagnostic complex in conjunction with a pressure measuring device;

in FIG. 2 is a connection diagram of a wearable medical diagnostic complex instrument unit to a pressure measuring device.

The instrument unit of the wearable medical diagnostic complex contains a pulse measurement channel 1, an electrocardiogram recording channel 2, a respiratory rate measurement channel 3, a patient’s body temperature measurement channel 4 and a blood oxygen measurement channel 5 that are configured to receive signals from their respective sensors, located on the patient’s body and generating output signals in digital form for subsequent analysis.

In addition, the instrument unit of the wearable medical diagnostic complex contains a module 6 for processing and analyzing measurement signals, the inputs of which are connected to the outputs of the pulse measurement channel 1, electrocardiogram recording channel 2, respiration rate measurement channel 3, patient body temperature measurement channel 4, and content measurement channel 5 oxygen in the blood.

The instrument unit of the wearable medical diagnostic complex also contains a display 7 for visual display of measurement information, the input of which is connected to the output of the module 6 for processing and analysis of measurement signals.

In the instrument unit of the portable medical diagnostic complex, the module 6 for processing and analyzing measurement signals is configured to convert the output signals of the pulse measurement channel 1, the electrocardiogram recording channel 2, the respiratory rate measurement channel 3, the patient’s body temperature measurement channel 4, and the blood oxygen measurement channel 5 in video signals for display on the display in the form of the results of current measurements with the ability to highlight the color of the results that are outside the permissible limits. It is also equipped with means of light and sound signaling (not shown in the drawing), which are triggered when the measurement results exceed the permissible limits.

In addition, a connector 8 is made in the housing of the instrument unit, providing power from the power elements 9 to the pressure measuring device when it is connected to the connector 8 and supplying measurement results from the pressure measuring device 10 to the measurement signal processing and analysis module 6. The power supply from the power elements 9 to the pressure measuring device 10 when it is connected to the connector 8 and supplying the measurement results from the pressure measuring device 10 to the device through the connector 8 is made through the wire 11.

In addition, the instrument unit of the wearable medical diagnostic complex is equipped with a wi-fi controller (not shown in the drawing) configured to transmit the results of current measurements of the pulse measurement channel 1, electrocardiogram recording channel 2, respiration rate measurement channel 3, and patient body temperature measurement channel 4 , channel 5 for measuring the oxygen content in the blood and device 10 for measuring blood pressure on external devices for subsequent analysis and visualization.

Works dashboard wearable medical diagnostic complex as follows.

In the dashboard of a wearable medical diagnostic complex, the determination of the values of saturation (oxygen content in the blood) and heart rate is made by a signal from a standard sensor worn on the patient’s finger (finger clip). Blood pressure measurement is performed by a non-invasive blood pressure meter (tonometer), consisting of a cuff constantly placed on the patient’s arm in the shoulder area (usually the left), a compressor with an actuator, a valve system connected by piping, and a control controller. The cuff is fastened with a textile fastener (Velcro - burdock). Data for the formation of an electrocardiogram are obtained from special electrodes that are glued to the patient’s body in the chest area. The number of electrodes is from 3 to 5, which provides removal from 6 to 7 leads (I, II, III, aVR, aVL, aVF, V). Respiratory rate is recorded by processing impedance signals from ECG sensors, with no additional sensors being used. The temperature sensor is installed in those places on the patient’s body where the skin surface is not blown with external air: in the nostril, ear, mouth, anus or in the armpit.

The body of the instrument unit of the wearable medical diagnostic complex is attached to the patient’s body with its own textile fastener or equipped with means of wearing on a belt-belt. The power supply of the instrument unit is provided by a power element 9, for example, a replaceable battery.

The pulse measurement channel 1, the electrocardiogram recording channel 2, the respiration rate measurement channel 3, the patient’s body temperature measurement channel 4 and the blood oxygen measurement channel 5 are configured to receive signals from their respective sensors located on the patient’s body and generate output signals in digital form for subsequent analysis.

In addition, in the case of the instrument block of the wearable medical diagnostic complex, connector 8 is made, providing power from the power elements 9 to an external pressure measuring device when connected to connector 8 and supplying, through connector 8, the signal of measurement results from the pressure measuring device 10 to the processing module 6 and analysis of measurement signals.

The signal curves from the outputs of the measurement channels and from an external pressure measuring device are not shown on the display, since their information content is not high, and the screen will be too small for their quality consideration, which will not allow the device to be used for independent monitoring by the patient of the main diagnostic parameters.

Therefore, a module 6 for processing and analyzing signals from the outputs of the measurement channels is provided, the inputs of which are connected to the outputs of the channel 1 for measuring the pulse, channel 2 for taking the electrocardiogram, channel 3 for measuring the respiratory rate, channel 4 for measuring the patient’s body temperature, channel 5 for measuring oxygen in the blood, and an external device 10 pressure measurements. In module 9, the signals from the outputs of the measurement channels and the external device 10 are converted into generally accepted parameters, which are displayed in large numbers on the display 7 in accordance with the accepted color gamut. In addition, in the module 6 for processing and analysis of signals, the set of measured numerical parameters is constantly monitored in order to determine alarm conditions, in particular, whether these parameters fall within acceptable limits, and when exceeding the acceptable limits an alarm is generated, for example, displaying the corresponding parameter on the display red, as well as light and / or sound alarm.

If necessary, the instrument unit of the wearable medical diagnostic complex can be equipped with a wi-fi controller, capable of transmitting the results of the current measurements of the pulse measurement channel 1, the electrocardiogram recording channel 2, the respiratory frequency measurement channel 3, the patient’s body temperature measurement channel 4, and the measurement channel 5 oxygen in the blood of the patient and the external device 10 for measuring blood pressure on external devices for subsequent analysis and visualization. For this, the controller input is connected to the outputs of either the measurement channels or the signal processing and analysis module 6, depending on the options for their technical implementation.

The instrument unit of the wearable medical diagnostic complex is equipped with tuning tools, means for entering patient data, etc., allowing for comfortable and convenient use.

Thus, due to the introduction of an additional arsenal of technical means, the required technical result is achieved, since a connector has been made in the instrument housing of the portable medical diagnostic complex, which provides power from the batteries to an external pressure measuring device when it is connected to the connector and the signal receives measurement results from external pressure measuring device into the module for processing and analysis of measurement signals. This allows you to significantly reduce the weight and size characteristics of the instrument unit while maintaining functionality.

Claims (1)

An instrument unit of a wearable medical diagnostic complex comprising a pulse measurement channel, an electrocardiogram recording channel, a patient body temperature measuring channel, a respiratory frequency measuring channel, and a blood oxygen measuring channel, configured to receive signals from corresponding sensors located on the patient’s body, and generating output signals in digital form for subsequent analysis, as well as a display for visual display of measurement information and a processing and analysis module measurement signals, the inputs of which are connected to the outputs of the pulse measurement channel, the electrocardiogram recording channel, the patient’s body temperature measuring channel, the respiratory rate measuring channel and the blood oxygen measurement channel, and the output is connected to the display input, the measurement signal processing and analysis module being made with the ability to convert the output signals of the pulse measurement channel, the electrocardiogram recording channel, the patient’s body temperature measuring channel, the respiratory rate measuring channel and the measuring channel the oxygen content of the blood in the video signals for display on the display in the form of the results of the current measurements with the possibility of highlighting the results that are outside the acceptable limits, and the formation of an audible alarm when beyond the acceptable limits, while the instrument unit of the wearable medical diagnostic complex is made in the case, equipped with batteries and fasteners on the patient’s body, and the display is placed on its side surface with the ability to visualize the results displayed on it current measurements, characterized in that a connector is made in the body of the instrument block of the wearable medical diagnostic complex that provides power from the batteries to the pressure measuring device when it is connected to the connector and the signal from the pressure measuring device is supplied to the signal processing and analysis module via the signal signal connector measurements.

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