RU2370205C1 - Method of diagnosing functional state of cardio-vascular system in patients with sugar diabetes - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to cardiology and endocrinology. Registration of heart biopotentials is carried out, arterial pressure and degree of blood saturation with oxygen are measured. Heart biopotentials are registered simultaneously with determining glucose level in blood, by means of subcutaneous sensor introduced into abdomen region, measuring of arterial pressure and degree of blood saturation with oxygen. Intensity and frequency of myocardial ischemia are compared with measurements of arterial pressure parametres, glucose level and degree of blood saturation with oxygen.

EFFECT: method extends arsenal of means for diagnosing functional state of cardio-vascular system in patients with sugar diabetes.

2 tbl, 1 ex

Description

The invention relates to medicine and can be used in cardiology and endocrinology. The device provides an opportunity to improve the diagnosis of the functional state of the cardiovascular system in patients with diabetes mellitus.

Diabetes mellitus (DM) is one of the most important risk factors for cardiovascular disease. The incidence of coronary heart disease (CHD), acute myocardial infarction, and arterial hypertension in patients with diabetes is much higher than in individuals without diabetes. It should be noted that in the absence of control of metabolic complications in diabetes, the risk of developing cardiovascular diseases and their complications increases. It was found that even after adjusting blood pressure, total cholesterol and smoking, the presence of diabetes increased the risk of coronary heart disease by 66% in men and 203% in women.

It has been experimentally and clinically established that cardiac ischemia in patients with diabetes can occur even in the absence of atherosclerotic lesions of the coronary arteries. Moreover, the degree of reduction in coronary blood flow is reliably associated with fasting glucose and glycated hemoglobin concentration and does not depend on the lipid profile of the blood.

In the clinic, myocardial ischemia in patients with hypertension with concomitant diabetes is often painless in nature, which complicates its early diagnosis and active therapy. Painless myocardial ischemia (BIM) in patients with diabetes occurs in 30% of cases and is associated with a high risk of developing painless myocardial infarction and sudden death (Yu.N. Belenkov, S.K. Ternova. Functional diagnosis of cardiovascular diseases. GOETAR-Media , 2007, 976 pp.). Patients with diabetes are considered to be at a very high risk of developing cardiovascular complications, which can be compared with the risk in patients without diabetes who have had myocardial infarction (Guidelines on diabetes, prediabetes and cardiovascular disease, 2007; Kobalava Zh.D., 2006).

Despite the successes achieved in the early diagnosis and treatment of cardiovascular diseases, it has not yet been possible to achieve a reduction in the incidence in patients with combined cardiac pathology. Moreover, in recent decades, an active study of painless myocardial ischemia has made it possible to establish the widespread and unfavorable prognostic significance of this phenomenon both in patients with coronary artery disease and in people without clinical signs of myocardial ischemia, but with the presence of such an unfavorable factor as diabetes. However, to date, factors determining the frequency and severity of disorders of the cardiovascular system in patients with diabetes have not been sufficiently studied. One of the obstacles to achieving this result is the impossibility of a simultaneous comprehensive assessment of changes in the cardiovascular system in patients with diabetes with parameters of carbohydrate metabolism and the state of the oxygen transport system for a given period of time. To fulfill this level of requirements, a comprehensive assessment of the functional state of the cardiovascular system in patients with diabetes is required in direct correlation with changes in the indicators of carbohydrate metabolism and oxygen transport system at each time point.

Based on the foregoing, the relevance of developing a method for diagnosing the functional state of the cardiovascular system in patients with diabetes mellitus, including analysis and registration of heart biopotentials, measuring blood pressure and the degree of blood oxygen saturation at any time, becomes obvious.

Closest to the proposed method, selected as a prototype, is a method for assessing the functional state of the cardiovascular system using a system of simultaneous measurement of cardiac biopotentials, registration of motion parameters, measurement of blood pressure and pulse oximetry (see RF Patent No. 2291665, class C1 A61B 5 / 0432, A61B 5/0205, publ. 05/10/1997, Bull. No. 2). This method allows you to assess the state of the cardiovascular system depending on the physical activity of a person at any time by recording the biopotentials of the heart (electrocardiogram) and recording movement parameters. In this case, the electrocardiogram data are compared with changes in the physical activity of a person at each moment in time. This method can be supplemented by measuring blood pressure and pulse oximetry. The system for assessing the functional state of the cardiovascular system contains a device for measuring and recording biopotentials, a device for measuring and recording movement parameters, a multi-channel analog-to-digital converter, a microcontroller, long-term storage device, a first external interface adapter, a timer, a data analysis device that contains electronic a computer, a graphic information display device, a second external interface adapter, a system interface master At the same time, a device for recording biopotentials, a device for measuring motion parameters are connected to the inputs of a multi-channel analog-to-digital converter, which is connected to a microcontroller, a long-term storage device, an external interface adapter and a timer are also connected to the microcontroller, and the external interface adapter input-output is an input -exit of the external interface of the device for measuring and recording movement parameters, the device for measuring and recording biopotentials is connected when the second data channel to the data input of the device for measuring and recording motion parameters formed by the input of the microcontroller, the first and second adapters of the external interface are interconnected by the first data channel, the electronic computer and the second adapter of the external interface are connected using the system interface bus, to the electronic computer, a graphic information display device is connected. The system for assessing the functional state of the cardiovascular system may also contain a pulse oximeter and a blood pressure meter, the data input of which is connected to the microcontroller.

However, the reasons that impede the achievement of the result indicated below when using the known method include the fact that the method does not allow to compare changes in the functional state of the cardiovascular system with the dynamics of the blood glucose level at each time point due to the lack of a blood glucose level meter in it, an increase or decrease the level of which affects the functional state of the heart. In addition, the list of additional research methods proposed in the prototype does not allow a comprehensive assessment of their contribution to the assessment of cardiovascular system dysfunctions in patients with diabetes and their relationship with changes in carbohydrate metabolism parameters. The proposed method allows not only to assess the state of the cardiovascular system in patients with diabetes, but also to analyze the effectiveness of treatment of pathology of the cardiovascular system and correction of disorders of carbohydrate metabolism. Simultaneous analysis of the state of the cardiovascular system and the parameters of carbohydrate metabolism can reduce economic costs in the case of each of the studies separately.

The claimed invention "A method for diagnosing the functional state of the cardiovascular system in patients with diabetes mellitus" solves the problem of practical public health by improving existing methods for a comprehensive assessment of the cardiovascular system.

The technical result achieved in this case consists in increasing the efficiency of the diagnosis of disorders of the cardiovascular system in patients with diabetes of various origins with a simultaneous assessment of the parameters of carbohydrate metabolism. In turn, the expansion of indications for use and the economy of the proposed method will ensure its widespread use in hospitals of any level, as well as in outpatient settings.

The essence of the invention lies in the fact that the registration of biopotentials of the heart is carried out simultaneously with determining the level of blood glucose by subcutaneous injection of the sensor into the abdomen, measuring blood pressure and the degree of saturation of blood with oxygen, and the severity and frequency of myocardial ischemia is compared with changes in blood pressure, glucose and degree of saturation of blood with oxygen.

The use of the invention provides the following result - improved diagnosis of the functional state of the cardiovascular system in patients with diabetes mellitus.

The specified result in the implementation of the invention is achieved by the fact that the proposed method for diagnosing the functional state of the cardiovascular system in patients with diabetes mellitus includes analyzing and recording the biopotentials of the heart, measuring blood pressure and the degree of saturation of blood with oxygen.

The peculiarity of the method lies in the fact that the registration of biopotentials of the heart is carried out simultaneously with the determination of blood glucose by subcutaneous injection of the sensor into the abdomen, measuring blood pressure and the degree of blood oxygen saturation, the severity and frequency of myocardial ischemia, the nature of heart rhythm disturbances being compared with changes in arterial parameters pressure, glucose level and degree of blood oxygen saturation. Implementation of the proposed method allows to evaluate the dynamics of blood pressure, the degree of blood oxygen saturation, the presence and severity of myocardial ischemia (including painless), as well as the nature and frequency of detecting heart rhythm disturbances in patients with diabetes and their relationship with the state of carbohydrate metabolism at any time .

The analysis of the prior art by the applicant, including a search by patents and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the claimed invention. The definition from the list of identified analogues of the prototype, as the closest in the set of essential features of the analogue, allowed us to identify the set of essential distinguishing features in relation to the applicant's technical result in the claimed invention set forth in the claims.

Therefore, the claimed method meets the condition of "novelty."

The design of the invention, which implements the claimed method, is illustrated in the drawing.

1. diagnostic system;

2. A device for measuring and recording the biopotentials of the heart (electrocardiography);

3. a device for measuring and recording blood glucose levels;

4. sensor for intradermal administration;

5. a sensor for detecting blood glucose levels;

6. device for measuring blood pressure;

7. A device for measuring the degree of blood oxygen saturation (pulse oximeter);

8. data transmission channels (USB, Bluetooth);

9. inputs and outputs of registration devices;

10. multi-channel analog-to-digital converter;

11. microcontroller (microprocessor);

12. long-term storage device (including flash memory);

13. external interface adapter;

14. timer;

15. second adapter of the external interface;

16. input-output of the external interface;

17. the first data transmission channel;

18. device for data analysis;

19. electronic computer;

20. system interface bus;

21. A device for displaying graphic information.

The diagnostic system for assessing the functional state of the cardiovascular system in patients with diabetes mellitus works as follows.

The device 2 for measuring and recording biopotentials contains a set of electrodes fixed to the human body (usually in position V1, V5). Device 3 for measuring glucose level includes a sensor 4 for intradermal injection into the abdomen and a sensor 5 for detecting glucose level. A device 6 for measuring blood pressure and a pulse oximeter 7 for determining the degree of saturation of blood with oxygen are made according to known schemes. A device 2 for recording and measuring the biopotentials of the heart, a device 3 for measuring the level of blood glucose, a blood pressure meter 6 and a pulse oximeter 7 are connected to the microcontroller 11 via data transmission channels 8 through the corresponding input-output adapters 9 and a multi-channel analog-to-digital converter 10. Multichannel outputs input devices of analog signals are the corresponding outputs of the device 2, 3, 6 and 7. The microprocessor (microcontroller) 11 is configured to receive data from analog-to-digital converters applicants 10 of the device for inputting analog signals and recording this data into the storage device 12, and also with the ability to control the output of data from the storage device through an external interface adapter 13. In this case, the microprocessor 11 of the device is configured to receive data, and the storage device 12 is arranged to store data on the biopotentials of the heart measured by device 2, glucose levels measured by device 3, blood pressure by device 6 and pulse oximeter 7.

The multi-channel analog-to-digital converter 10 can be performed on the basis of temporary storage devices, a multiplexer, and an analog-to-digital converter. In this case, the signals from the outputs of the amplifiers are fed to the inputs of temporary storage devices, the outputs of which the multiplexer alternately connects to the input of an analog-to-digital converter. An analog-to-digital converter performs conversion one by one for each channel.

The microcontroller 11 receives data on biopotentials, glucose levels, and the degree of oxygen saturation in the blood in digital form. The microcontroller 11 is configured to pre-process the received data.

Pre-processing of data consists in their digital filtering, which can be a calculation of average values for a given number of samples. The data obtained as a result of this processing is recorded in the long-term storage device 12. In the long-term storage device 12, data on the current time, which are received from the timer 14, are also recorded.

As a long-term storage device 12, a non-volatile electro-reprogrammable memory device (flash memory) can be used.

At the end of the observation, data on the biopotentials of the heart (electrocardiogram), blood glucose levels, the degree of oxygen saturation of the blood from the measurement and recording devices for the corresponding parameters via the first data transmission channel 17 are transmitted to the data analysis device 18. The first data transmission channel 17 can be made in the form , for example, serial interfaces RS-232, RS-422, USB or in the form of wireless Bluetooth data channels.

As a computer 19, a standard computer may be used, having an output for connecting a graphic information display device (video output). The computer 19 is designed to receive the collected data transmitted over the first transmission channel 17 through the first 13 and second 15 adapters of the external interfaces, through the system interface bus 20.

The graphic information display device 21 is a graphic display that provides the display of all necessary data: graphs characterizing the biopotentials, and graphs characterizing the parameters of the electrocardiogram, blood pressure level, blood glucose and the degree of oxygen saturation of the blood. UOGI 21 can be made in the form of a display based on a cathode ray tube or on the basis of a liquid crystal matrix.

The proposed diagnostic method is as follows. Before the start of the study, testing and programming of the diagnostic system 1 is carried out. The electrodes of the device for measuring the biopotentials of the heart (device 2), measuring the level of blood glucose (device 3), measuring blood pressure (device 6) and measuring the degree of blood oxygen saturation are fixed on the body of the patient under study. 7). Electrodes for recording the biopotentials of the heart (device 2) are applied to the chest as follows - 1st electrode (inactive) - 5th intercostal space on the right axillary line; 2nd electrode - 4th intercostal space on the right parasternal line; 3rd electrode - 4th intercostal space on the left parasternal line; 5th electrode - 5th intercostal space on the left front axillary line. When analyzing the results, the following indicators of registration of heart biopotentials are estimated: daily, average daily, and average daily heart rate (HR), circadian heart rate index (HR heart rate), the magnitude of depression or elevation of the ST segment, the nature of heart rhythm disturbance.

A sensor for percutaneous (transcutaneous) determination of the degree of blood oxygen saturation (device 7) is installed in areas with a thin thickness of the skin (earlobe). During the study, the degree of saturation of blood with oxygen (SpO ₂ ) is continuously evaluated.

Measurement of blood pressure is carried out by applying a pneumocuff to the shoulder of the arm (device 6). Blood pressure was measured every 15 minutes during the day and 30 minutes at night. In the course of the study, the following parameters were analyzed: daily, average and daily average values of systolic blood pressure (SBP, diastolic blood pressure (DBP) and pulse blood pressure (PAD), daily indices of SBP, DBP and PAD, time and area indexes of arterial hypertension for SBP and DBP.

Measurement and registration of blood glucose level (device 3) is carried out by subcutaneous injection of a disposable sensor 4 in the region of the upper lateral abdominal square, which is connected to the sensor 5 for measuring blood glucose level. Blood glucose was measured every 10 minutes. An indicator of the level of blood glucose was evaluated, as well as an indicator of the average level of glycated hemoglobin (HbAlc).

The study is carried out for a set (programmed) period of time (24-48 hours), after which information from the diagnostic system 1 is transferred to the device for data analysis 18 using the external interface adapters 13, 15. The results of the study are analyzed by electronic computer 19 and displayed on graphic display device display 21.

The described evaluation method was applied in 37 patients with type 2 diabetes mellitus aged 51 to 68 years with concomitant cardiovascular pathology: 28 patients with AH of stages 1-2 and 9 patients with AH with coronary heart disease. Patients were monitored by clinical and laboratory instrumental studies.

Examples of specific uses of the proposed method.

Example 1. Patient Petrushin A.V. 56 years old, was admitted with a diagnosis of diabetes mellitus type 2 non-insulin-dependent, moderate, subcompensated. Hypertension of the III degree, II stage, risk 4 CHF I. Complaints of palpitations, interruptions in the work of the heart, periodically felt dry mouth, thirst, almost constant headaches, heaviness and noise in the head, flickering of “flies” in front of the eyes, decreased vision, dizziness. History: type 2 diabetes for 8 years, suffering from hypertension for 6 years, blood pressure is stable at 130-140 / 100 mm Hg with periodic rises up to 170/110 mm Hg, does not regularly take antihypertensive therapy and ACE ( enalapril 5-10 mg / day), the last year worries about shortness of breath, interruptions in the heart, especially at night and in the morning. Inspection: general condition is satisfactory, there is hyperemia of the face and neck. Excess body mass - a body mass index of 29.1 kg / m ² . The borders of the heart are mixed to the left. Heart sounds are muffled, rhythmic with a heart rate of 68 beats / min, emphasis 2 tones above the aorta, blood pressure - 180/105 mm Hg The abdomen is without features, the kidneys are not palpable, there is no soreness when striking the lumbar region. In the study: biochemical blood test - sugar - 8.4 mmol / l, creatinine 103 μmol / l; ECG signs of left ventricular hypertrophy; on ultrasound, dilatation of the left atrium, normal LV geometry, LV systolic function is not impaired.

The patient underwent a study of the cardiovascular system of the proposed method with the aim of a comprehensive assessment of the state of the cardiovascular system. The results of the study are presented in table 1.

Table 1 Indicators, units Daily average Daily average Midnight Heart rate, beats / min 83.5 87.2 81.8 Extrasystoles: - supraventricular 75 21 54 ventricular 34 7 27 Myocardial ischemia: - number of episodes 6 2 four - duration, min 23,4 9,4 14.0 SpO ₂ 97.5 98 97 GARDEN, mmHg 154.3 158.7 151.4 DBP, mmHg 97.4 102,4 89.6 PAD, mmHg 57.3 59.42 58.3 IVSAD,% 82.6 76,2 one hundred IVADAD,% 98.2 one hundred 96.7 SI GARDEN,% 6.7 6.7 6.7 SI DAD% 9.2 9.2 9.2 Blood glucose, mol / l 8.6 7.3 9.1 НbАlс,% 4.03 5.42 6.37

As can be seen from the presented table 1, during the examination it turned out that the patient showed an insufficient nightly decrease in blood pressure (SI GARDEN 6.7% - non-dipper type). At the same time, a significantly more frequent detection of cardiac arrhythmias in the form of an increase in the number of extrasystoles is noted at night. These changes were closely correlated with an increase in the number of episodes of painless myocardial ischemia, as well as an insufficient nightly decrease in heart rate and blood glucose, including glycosylated hemoglobin (HbAlc). After complex therapy of hypertension and correction of carbohydrate metabolism, there was a significant decrease in the number of ectrasystoles, BIM episodes and their duration, as well as an increase in the degree of nighttime decrease in blood pressure.

In the course of the studies, close relationships were found between changes in the functional state of the cardiovascular system and carbohydrate metabolism during a certain period of time (24-48 hours of monitoring) in patients with diabetes with combined cardiac pathology. The results of the analysis are presented in table 2. The study involved 37 patients with diabetes with combined cardiac pathology.

table 2 The results of a study of the functional state of the cardiovascular system in patients with diabetes, depending on the level of glycemia. Indicators, units Episodes with Normal Blood Sugar Episodes of Hyperglycemia Average heart rate, bpm 72.34 ± 4.02 85.8 ± 4.37 * Myocardial ischemia: - number of episodes 14.2 ± 1.18 26.74 ± 2.51 * - duration, min 22.61 ± 2.42 48.57 ± 3.11 * The average number of extrasystoles: - - - supraventricular 128.36 ± 16.71 208.54 ± 13.95 * ventricular 96.31 ± 8.69 134.1 ± 7.2 * - paroxysmal tachyarrhythmias no 2.2 ± 0.34 Average SpO ₂ ,% 98.8 ± 0.92 97.5 ± 1.0 * Average blood pressure values: - - GARDEN, mmHg 142.38 ± 9.32 157.01 ± 11.3 * DBP, mmHg 94.37 ± 6.08 100.3 ± 8.01 PAD, mmHg 47.67 ± 5.61 56.5 ± 6.11 * IVSAD,% 52.74 ± 10.28 64.3 ± 11.02 * IVADAD,% 44.2 ± 7.59 48.64 ± 6.84 Double work 9524.65 ± 238.62 10684.2 ± 307.9 * The average values of blood glucose, mol / l 5.14 ± 0.94 8.13 ± 2.4 * НbАlс,% 5.48 ± 0.87 6.67 ± 0.74 * Note: * - significant differences p <0.05

As can be seen from the table 2, in patients with diabetes and the presence of cardiac pathology, there is a deterioration in the functional state of the cardiovascular system, which is closely related to the state of carbohydrate metabolism. The presence of hyperglycemia in patients with diabetes is accompanied by a significant increase in heart rate, the number of heart rhythm disturbances, the frequency and duration of episodes of myocardial ischemia, as well as an increase in blood pressure. Violation of the function of the cardiovascular system is reflected in such an indicator as the degree of saturation of blood with oxygen (SpO ₂ ).

Thus, the simultaneous measurement of the biopotentials of the heart, blood pressure parameters, the degree of blood oxygen saturation and the blood glucose level allows a comprehensive assessment of the state of the cardiovascular system and determine the value of each of the parameters in changing the functional state of the cardiovascular system. Thus, the proposed method improves the diagnosis of the functional state of the cardiovascular system, reduces the economic costs of conducting the study, and shortens the average length of the patient’s stay in the hospital.

Thus, the foregoing description indicates the fulfillment of the following set of conditions when using the claimed invention:

- a tool embodying the claimed invention, in its implementation is intended to improve the diagnosis of the functional state of the cardiovascular system in patients with diabetes;

- for the claimed method in the form as described in the claims, the possibility of its implementation using the means and methods described in the application is confirmed;

- a tool embodying the claimed invention in the implementation, is able to ensure the achievement of the perceived by the applicant of the assigned technical tasks. Therefore, the claimed invention meets the condition of "industrial applicability".

Claims (1)

A method for diagnosing the functional state of the cardiovascular system in patients with diabetes mellitus, including analyzing and recording the biopotentials of the heart, measuring blood pressure and the degree of blood oxygen saturation, characterized in that the recording of the biopotentials of the heart is carried out simultaneously with the determination of blood glucose by subcutaneous injection of the sensor into the abdomen , by measuring blood pressure and the degree of blood oxygenation, and the severity and frequency of myocardial ischemia compares I'm with the changes in blood pressure parameters, glucose levels and the degree of blood oxygen saturation.

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