RU2473307C1 - Device for non-invasive determination of cholesterol and glucose concentration in blood - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, to equipment for control of glucose and general cholesterol level in blood in diagnostics of cardiovascular diseases. Device contains case with control panel and display, is provided with cuff for measurement of arterial pressure and autonomous electronic module with microprocessor and unit of memory and indication of maximal and minimal arterial pressure by comparison of amplitude of pulse wave oscillation, as well as applied programme and correlation table for calculation of glucose level in blood by ratio of arterial pressure parameters. Cuff is connected with compressor, valve of pressure relief in cuff, orifice for pressure release and pressure sensor for registration and conversion of information about pressure in cuff into electric signal. Microprocessor is made with possibility of controlling compressor and relief valve and with possibility to receive signal from pressure sensor. Device contains digital unit for input of values of patient's body weight and height, connected by means of conductor tail area with microprocessor, and microprocessor additionally contains applied programme and correlation table for calculation of cholesterol level in blood by ratio of arterial pressure parameters and index of individual body weight.

EFFECT: invention will make it possible to extend functional possibilities of device due to simultaneous non-invasive determination of general cholesterol and glucose in blood, as well as will ensure safe and fast analysis.

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Description

The invention relates to medicine and can be used in clinics and departments of medical institutions to control the level of glucose and total cholesterol in the blood for the diagnosis of cardiovascular diseases.

Known express analyzer for determining total cholesterol and blood glucose Spot Chem SP 4430 [www.Biosite.ru]. The analyzer includes preparing samples for analysis using the built-in microcentrifuge, calibrating with a magnetic card, measuring biochemical tests, biochemical testing of blood serum using a biochemical analyzer and enzyme kits. The disadvantages include the need for blood sampling for analysis, since test strips are used, which is accompanied by the risk of infection and additional injury to the patient, as well as the duration of the analysis associated with the bio-chemical study of blood serum.

Closest to the claimed invention in terms of essential features is the “Device for non-invasive determination of blood glucose concentration” according to patent RU No. 2317008 C2, 02.20.2008, which contains a housing with a control panel, a compartment for power batteries, a mechanically attached compression cuff for measuring arterial pressure. Functional pneumatic units are integrated inside the housing, including a compressor, a cuff pressure relief valve, a pressure sensor, a pressure relief nozzle, and an autonomous electronic module. The electronic module is made in the form of an integrated control board and contains power switches connected by electronic communication with the compressor and pressure relief valve, an amplifier, a converter of analog sensor signals to a binary code, a display, a warning buzzer, interfaces for transmitting and receiving devices and an audible alarm, and also controlling microprocessor. The microprocessor contains a memory unit and displays the maximum and minimum blood pressure by comparing the amplitudes of the oscillations of the pulse wave, and also contains an application program and a correlation table for calculating the level of glucose in the blood by the ratio of blood pressure parameters. The device allows you to control blood pressure and glycemia, which are risk factors for cardiovascular disease.

The disadvantages of the device include the lack of accuracy in the diagnosis of diseases of the cardiovascular system, since an important risk factor for cardiovascular diseases is also the level of cholesterol in the blood, which serves as an indicator of lipid metabolism disorders.

The objective of the invention is the possibility of improving the device for simultaneous non-invasive determination of the concentration of total cholesterol and the concentration of glucose in the blood, which allows for safe and fast analysis.

A device for non-invasively determining the concentration of total cholesterol and glucose in the blood contains a housing with a control panel and a display, a battery compartment, a mechanical compression cuff for measuring blood pressure, connected to a compressor, a cuff pressure relief valve, a pressure relief nozzle and a pressure sensor for recording and converting information about the pressure in the cuff into an electrical signal, an autonomous electronic module in the form of an integrated control board, on A microprocessor with a memory and indication of maximum and minimum blood pressure was mounted by comparing pulse wave oscillation amplitudes, an application program and a correlation table for calculating blood glucose by the ratio of blood pressure parameters, the microprocessor being configured to control a compressor and a cuff pressure relief valve and with the possibility of receiving a signal from a pressure sensor.

The device differs from the prototype in that the case is additionally integrated with a digital unit for entering body weight and patient height, connected by a conductor loop to the microprocessor, and the microprocessor additionally contains an application program and a correlation table for calculating blood cholesterol by the ratio of blood pressure parameters and indicator individual body weight.

Functional diagram explaining the device shown in figure 1.

On the front panel of the case there is a keyboard 1 with control buttons, a liquid crystal display (LCD) 2, a buzzer 3, a digital unit 4 for entering indicators of body weight and patient growth, connected by a conductor loop to the microprocessor. Functional pneumatic units are placed inside the casing, interconnected by flexible hoses: compressor 5 for air injection, pressure relief valve 6, pressure sensor 7, nozzle 8 for air release. An electronic module is integrated in the housing in the form of an integrated control board 9, on which the microprocessor 10 is mounted, power switches 11 for regulating the air injection process, a pressure sensor signal amplifier 12, an analog-to-digital 12-bit converter (ADC) 13. The housing has a battery compartment power supply 14, a compression cuff 15 is mechanically attached to the body for measuring blood pressure.

The algorithm for determining the concentration of glucose and cholesterol in the blood is schematically shown in figure 2.

The patient is automatically measured systolic and diastolic blood pressure sequentially on both hands, which are recorded in the memory of the microprocessor. Enter the measured values of body weight (kg) and patient growth (m) also in the memory of the microprocessor, after which the microprocessor automatically launches an application program for determining the level of cholesterol and glucose in the blood.

Calculation of the content of total cholesterol in the blood M (mmol / l) is carried out according to the empirical formula: M = 0.63 + 20.48 * log10 (K * K1),

where K is the correlation coefficient, representing the ratio of the arithmetic mean of systolic blood pressure to the arithmetic mean of diastolic blood pressure, measured on both hands of the patient on an empty stomach;

K1 is the correlation coefficient representing the ratio of the patient’s body mass index (BMI) to the body mass index, taken as the norm. The patient’s body mass index is calculated as the ratio of body weight (kg) to the square of the patient’s height (m ² ); BMI value of 25 kg / m ^{2 was} taken as the norm.

For example, if the BMI value = 25 kg / m ² , then K1 = 1.0; if the BMI value = 30 kg / m ² , then K1 = 30/25 = 1.2; if BMI = 40 kg / m ² , then K1 = 1.6.

The calculation of fasting blood glucose R (mmol / l) is carried out according to the empirical formula: P = 0.37 * exp (1.65 * K),

where K is the correlation coefficient, representing the ratio of the arithmetic mean of systolic blood pressure to the arithmetic mean of diastolic blood pressure, measured on both hands of the patient on an empty stomach.

Based on the given empirical formulas, the correlation tables are stored in the microprocessor memory, which are used to determine the level of total cholesterol and the level of glucose in the blood.

The device displays blood pressure indicators on the left and right (mmHg), blood cholesterol (mmol / l), blood glucose (mmol / l).

The device operates as follows.

First, body weight (kg) and patient height (m) are measured. The device is turned on, body mass indicators are collected on the digital block 4 and entered by pressing the Enter button on the control keyboard 1 into the microprocessor 10. The growth indicators are collected on the digital block 4 of the control panel and also entered by pressing the Enter button into the microprocessor 10. Dialed indicators are reflected on the LCD display 2 and stored in the microprocessor memory. Then measure the blood pressure (BP) on the patient’s left hand, fixing the compression cuff 15 on the left shoulder. When you press the "Start" button on the control keyboard 1, the microprocessor 10 sends a command to the power switches 11, which close the pressure relief valve 6 and turn on the compressor 5. Air is injected into the cuff 15, the pressure of which is controlled by pressure sensor 7. The pressure mode is set depending on the possible values of the patient’s upper (systolic) blood pressure and are regulated by pressing the “Start” button on the keyboard 1: first, the pressure is raised to 180 mmHg, then, if necessary, to 220 mmHg. or up to 260 mmHg After that, at the command of the microprocessor 10, the power switches 11 turn off the compressor 5 and turn on the pressure relief valve 6. The discharge stops, the signal from the pressure sensor 7 passes through an amplifier 12 to a 12-bit ADC 13, and then to the microprocessor 10. The decompression mode is automatically turned on. The pressure slowly decreases through the nozzle 8 and starts the algorithm for determining blood pressure by analyzing the parameters of the pulse wave. At the time of a heart beat, an audible signal is issued through the buzzer 3, and on the LCD display 2 the current value of systolic and diastolic blood pressure is displayed. When the buzzer signals reflecting the beats of the heart disappear, the pressure relief valve 6 opens and the pressure in the cuff 15 drops to atmospheric pressure, after which the cuff is removed from the patient’s hand.

The device provides a measurement range of blood pressure from 20 to 280 mm Hg, blood cholesterol from 2 to 10 mmol / l; blood glucose levels from 2 to 20 mmol / l. The measurement error of blood pressure is: ± 3 mm Hg; level of cholesterol and blood glucose in comparison with biochemical analysis ± (10-15%). The duration of the analysis together with the measurement of blood pressure is 50-60 s.

The industrial manufacture of the proposed device does not cause technical and economic difficulties, since it includes standard units: a compressor, a pressure relief valve, an LCD display, a jet, a compression cuff, and the remaining assemblies and parts are technological and can be created based on existing developments. Microprocessor software - a computer program in the DELPHI 5 OBJECT PASKAL language.

We made a prototype device, which confirmed the possibility of its industrial production and practical use. Overall dimensions of the device are within 180 × 140 × 70 mm.

The technical result of the invention is the safe analysis to determine the concentration of total cholesterol and glucose in the blood, since the examination of the patient consists in measuring blood pressure using an elastic cuff that does not cause injury to the patient’s skin. Reducing the time to perform the analysis is achieved due to the fact that they perform dialing from the remote control and enter the body mass and patient growth indicators, automatically measure blood pressure and calculate the concentration of cholesterol and glucose in the blood using a microprocessor, application program and correlation table.

The proposed device can be used as a portable device in medical institutions and for individual self-monitoring, it allows a safe, non-invasive way to determine the concentration of glucose and total cholesterol in the blood without causing injury to the patient's skin. In addition, the device can be used by patients with arterial hypertension and other diseases of the cardiovascular system to self-monitor the level of blood pressure, the concentration of total cholesterol and glucose in the blood.

Claims (1)

A device for non-invasively determining the concentration of total cholesterol and glucose in the blood, comprising a housing with a control panel and a display, a battery compartment, a mechanical compression cuff for measuring blood pressure connected to a compressor, a cuff pressure relief valve, a pressure relief nozzle and a sensor pressure for recording and converting information about the pressure in the cuff into an electrical signal, an autonomous electronic module in the form of an integrated control board, on which mounted a microprocessor with a memory and indication of maximum and minimum blood pressure by comparing pulse wave oscillation amplitudes, an application program and a correlation table for calculating blood glucose by the ratio of blood pressure parameters, the microprocessor being configured to control a compressor and a cuff pressure relief valve and with the possibility of receiving a signal from a pressure sensor, characterized in that the housing is additionally integrated with a digital unit for input The shutter body weight and patient height, loop wires connected to the microprocessor, and the microprocessor further comprises an application program and a table for computing correlations of cholesterol levels in blood according to blood pressure ratio parameters and index individual body weight.

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