RU2364315C1 - Method of risk evaluation of arterial hypertension development in patients of mature age - Google Patents

Abstract

FIELD: medicine; cardiology.

SUBSTANCE: patient is examined for hemodynamic characteristics of organism. In a rest patient while lying, 500 values of systolic blood pressure (SBP) are recorded in beat-to-beat mode. By fast Fourier transformation, spectral analysis of systolic blood pressure variability (SBPV) is carried out with determining the absolute values of SBPV spectral power in four frequency ranges including ultra-low frequency 0-0.025 Hz (ULF), very-low frequency 0.026-0.075 Hz (VLF), low-frequency 0.076-0.15 Hz (LF) and high-frequency 0.16-0.5 Hz (HF); and calculating the relative value of SBPV spectral power in low-frequency range (%LF) by original formula. If the %LF value is less than 38%, high risk of AH development is estimated.

EFFECT: possibility of noninvasive evaluation of disordered arterial pressure regulation mechanisms at the pre-clinical stage, thereby predicting AH development in practically healthy persons.

1 tbl, 1 dwg, 1 ex

Description

The invention relates to medicine, in particular to cardiology.

The concept of "health" in the physiological sense is usually identified with the concept of "norm" and as a specific specific state means the absence of significant deviations from the norm of the main vital indicators (blood pressure, blood pH, red blood cell count, etc.). Going beyond the norm of these indicators indicates a violation of homeostasis and, therefore, the development of the disease.

It is known that the transition from health to disease is not sudden and begins with a violation of the processes of controlling the functions of the body (Bayevsky P.M., Berseneva AP. Assessment of the adaptive capabilities of the body and the risk of developing diseases. M: Medicine. 1997, 265 p.).

The modern non-invasive methodology for assessing the state of regulatory processes in the body is the analysis of slow hemodynamic fluctuations. It is known that the characteristics of the variability (oscillation) of hemodynamic parameters (heart rate, blood pressure, etc.) change earlier than the usual parameters of homeostasis, and these shifts can be called preclinical (Bayevsky PM, GG Ivanov. Heart rate variability: theoretical aspects and clinical possibilities application // Ultrasonic and functional diagnostics. 2001. No. 3. S.108-127).

Thus, the analysis of slow hemodynamic fluctuations makes it possible to diagnose the borderline between normal and pathological conditions and to carry out wellness and preventive measures in a timely manner.

A common method for analyzing HSV is spectral analysis, which allows you to isolate and quantify the various wave components of the heart rhythm, blood pressure and other parameters of blood circulation.

Four main wave peaks are distinguished in the HSV spectrogram:

ultra-low-frequency (Ultra Low Frequency - ULF, main frequency - 0.015 Hz (66 s)); very low frequency (Very Low Frequency - VLF; main frequency - 0.05 Hz (20 s)); low-frequency (Low Frequency - LF; main frequency - 0.1 Hz (10 s)) and high-frequency (High Frequency - HF; main frequency - 0.2-0.3 Hz (3-5 s)).

According to the values of the power or amplitude of the vibrational components of the HSV spectrum, the state of various parts of the physiological functions control system in the body is judged.

According to the literature data, ULF oscillations are associated with metabolic processes (Astakhov A. A. Physiological basis of bioimpedance monitoring of hemodynamics in anesthesiology (using the Centaur system): A manual for anesthetists, 2 volumes. Chelyabinsk, 1996) , VLF component of the spectrum with periodicity of blood hormonal activity (Akselrod S. Components of heart rate variability // Heart rate variability. NY: Armonk. 1995. P.146-1647, with the influence of suprasegmental (primarily hypothalamic) centers of vegetative regulation ( Khaspekova NB Regulation of varia heart rhythm activity in healthy and patients with psychogenic and organic brain pathology // Abstract of thesis. ... MD, M., 1996. 48 pp.), LF-oscillations - with baroreflex, with activity of the sympathetic part of the autonomic nervous system ( Heart Rate Variability. Standards of measurements, physiological interpretation, and clinical use / Task Force of the European Society of Cardiology and the North American Society of Pacing and Electrophysiology // Circulation. 1996. Vol. 93. P.1043-1065.), HF-oscillations - with respiration and parasympathetic activity (Akselrod S. Components of heart rate variability // Heart rate variability. N.Y .: Armonk. 1995. P.146-164).

Cardiovascular diseases in the Russian Federation, as in most developed countries of the world, occupy a leading place in the structure of total mortality. The most common cardiovascular disease is arterial hypertension (AH). According to the data of the S. Shalnova epidemiological study, among the adult population of Russia, elevated blood pressure is detected in 39.2% of men and 41.1% of women (Shalnova S.A., Deev A.D., Vikhireva O.V. et al. The prevalence of arterial hypertension in Russia. Awareness, treatment, control. // Disease prevention and health promotion. 2001. No. 2. P.3-7).

Given the above, it seems important to identify criteria to predict the possibility of developing this disease.

Currently, some unfavorable factors (risk factors) predisposing to the development of hypertension are well known. Among the most significant of them are hereditary predisposition, male gender and menopause in women, age, physical inactivity, psycho-emotional stress, obesity, nutrition with excess saturated fat and sodium chloride, excessive alcohol consumption, and smoking. Most of these adverse risk factors predisposing to the development of AH are associated with a radical change in the lifestyle of a modern urbanized society, in which biologically programmed adaptation systems conflict with their actual use by the body. It is not without reason that essential hypertension is referred to as “diseases of the 20th century” or “diseases of civilization” (Roitberg G.E., Strutinsky A.V. Internal diseases. Cardiovascular system. M.: Binom-press, 2007, 856 pp.).

The range of identified risk factors is constantly growing. Along with the traditional, new additional risk factors are currently being widely discussed, the significance of which and methods of quantitative assessment have yet to be clarified.

The objective of the present invention is to improve the accuracy of assessing the risk of hypertension by detecting violations of the mechanisms of regulation of blood pressure at the preclinical stage.

The task is achieved by measuring the hemodynamic parameters of the body. At rest, lying down, 500 values of systolic blood pressure (SBP) are recorded in the “shock to shock” mode. A spectral analysis of systolic blood pressure variability (VSAD) is carried out according to the method of fast Fourier transform. The absolute values of the power of the HSS spectrum are determined in four frequency ranges - ultra-low frequency 0-0.025 Hz (ULF), very low frequency 0.026-0.075 Hz (VLF), low frequency 0.076-0.15 Hz (LF) and high frequency 0.16-0.5 Hz (HF); calculate the relative value of the power of the spectrum of the high altitude wave spectrum in the low frequency range (% LF) according to the formula:

where% LF is the relative value of the power of the spectrum of the high speed radar wave in the low-frequency range;

LF - the absolute value of the power of the high altitude wave in the low-frequency range of the spectrum of the high altitude wave, mm Hg / Hz;

HF is the absolute value of the power of the high altitude wave in the high-frequency range of the spectrum of the high altitude wave, mm Hg / Hz;

VLF - the absolute value of the power of the VSAD in a very low-frequency range of the spectrum of the VSAD, mm Hg / Hz;

ULF - the absolute value of the power of the high altitude wave in the ultra-low-frequency range of the spectrum of the high altitude wave, mm Hg / Hz;

and with a% LF value of less than 38%, a high risk of hypertension is determined.

The novelty of the method:

For the first time, an assessment of the risk of hypertension is based on an analysis of the spectral parameters of the AAS.

At rest, lying down, 500 values of systolic blood pressure (SBP) are recorded in the “shock to shock” mode. A spectral analysis of systolic blood pressure variability (VSAD) is carried out according to the method of fast Fourier transform.

The absolute values of the power of the HSS spectrum are determined in four frequency ranges - ultra-low frequency 0-0.025 Hz (ULF), very low frequency 0.026-0.075 Hz (VLF), low frequency 0.076-0.15 Hz (LF) and high frequency 0.16-0.5 Hz (HF).

Calculate the relative value of the spectrum power in the low-frequency range (% LF) by the proposed formula and if the value of% LF is less than 38%, a high risk of hypertension is determined. Such a decrease indicates a weakening of the baroreceptor reflex.

The results obtained make it possible to non-invasively determine the violation of blood pressure regulation mechanisms even at the preclinical stage and thereby predict the development of hypertension in practically healthy individuals.

The essence of the method:

The examination is carried out from 10.00 to 14.00 hours in a prone position with voluntary breathing in an atmosphere of complete comfort and peace, it is forbidden to take various stimulants on the eve of the study (strong tea, coffee, alcohol, etc.).

In the study, an anesthesiologist-resuscitation specialist for hemodynamic monitoring is used - MARG 10-01 (LLC Mikrolyuks, Chelyabinsk; certificate of conformity. No. POCC.RU.AYU 45.В00211 dated November 28, 2002, registration certificate No. 29/08050902 / 4634- 02 of 10.27.2002, valid until 09.30.2012) connected to a laptop with installed software (programs "Centaur", "Kent View"). The device has four measuring modules: electrocardiograms, rheograms, pulse oximetry and non-invasive blood pressure. GARDEN is calculated by the propagation velocity of the pulse wave between the R wave of the electrocardiogram and the peak of the first derivative of the pulse wave of the microvasculature of the finger.

500 values of SBP are recorded with each heart beat (recording time-5-10 minutes).

After recording, a spectral analysis of the variability of the CAD is carried out according to the method of fast Fourier transform. Along with generally accepted absolute spectral indicators, the percentage contribution of each of the four components of the AAS spectrum is estimated (automatically):

ULF - ultra-low-frequency, VLF - very low-frequency, LF - low-frequency and HF - high-frequency in the total spectrum power of the aerodynamic radar system by calculating the relative spectral parameters by the formulas:

where% ULF - the relative values of the power of the high altitude wave in the ultra-low frequency 0-0.025 Hz range of the spectrum of the high altitude wave,%;

ULF - the absolute values of the power of the high altitude wave in the ultra-low-frequency 0-0.025 Hz range of the spectrum of the high altitude wave, mm Hg / Hz;

% VLF - the relative values of the power of the VSAD in a very low frequency 0.026-0.075 Hz range of the spectrum of the VSAD,%;

VLF - absolute values of the power of the VSAD in a very low frequency 0.026-0.075 Hz range of the spectrum of the VSAD 0.026-0.075 Hz, mm Hg / Hz;

% LF - relative values of the power of the high altitude wave in the low-frequency 0.076-0.15 Hz range of the spectrum of the high altitude wave,%;

LF - the absolute values of the power of the VSAD in the low-frequency 0,076-0,15 Hz range of the spectrum of the VSAD, mm Hg / Hz;

% HF - the relative values of the power of the high altitude wave in the high-frequency range of 0.16-0.5 Hz spectrum of the high altitude wave,%;

HF - the absolute values of the power of the high altitude wave in the high-frequency range of 0.16-0.5 Hz spectrum of the high altitude wave, mm Hg / Hz;

T = HF + LF + VLF + ULF is the total power of the spectrum of the high altitude radar system, mmHg / Hz.

Low values of% LF - less than 38% indicate a weakening of the baroreceptor reflex and indicate a high risk of hypertension.

The criterion for assessing the risk of hypertension is based on experimental data. A total of 174 hypertensive patients aged 40.16 ± 5.90 years and 198 healthy individuals of mature age 38.19 ± 6.00 years were examined. Statistical data processing was carried out using the Stat Soft Statistica v6.0 statistical analysis package. The following statistical methods were used: Kolmogorov-Smirnov test, Mann-Whitney U-test. The critical level of significance in testing statistical hypotheses was assumed to be 0.05.

When comparing the absolute and relative spectral parameters of the RASA of patients with AH and healthy, statistically significant differences in% LF were determined (p = 0.01): in patients with AH, lower values of this parameter were more often found in the drawing.

In the drawing, the statistical characteristics of% LF healthy (3) and patients with hypertension (B)

The 25th percentile% LF in the healthy group, 38%, was selected as a critical value and formed the basis for assessing the risk of developing AH.

In the healthy group, low% LF values were detected in 25% of cases, in the group of AT patients - in 50% of cases.

Example:

Researched B.I. (43 years), practically healthy, with heredity not burdened by hypertension, using the Centaur technology, 500 systolic blood pressure (SBP) values were recorded in the “from shock to shock” mode in the supine position. After recording, the spectral indicators of systolic blood pressure variability (VSAD) are automatically calculated table 1.

Table 1.

The output data of the spectral analysis of the VSAD investigated by B.I. in the Centaur system

M * T ULF Vlf Lf Hf % ULF % VLF % LF % HF 133 18.65 3.60 9.44 5.00 0.61 19 51 27 3 * M - the average value of the GARDEN in a series of 500 values.

The relative values of the low-frequency component of the spectrum of the VSAD% LF, which reflects the state of the baroreceptor reflex, was 27%, which is almost 1.5 times lower than the critical level of 38%. Thus, the studied B.I. a high risk of hypertension is defined.

The results obtained make it possible to non-invasively determine the violation of blood pressure regulation mechanisms even at the preclinical stage and thereby predict the development of hypertension in practically healthy individuals.

Claims (1)

A method for assessing the risk of developing arterial hypertension (AH) in adulthood, including the measurement of hemodynamic parameters of the body, characterized in that when resting, 500 values of systolic blood pressure (SBP) are recorded lying from shock to shock, spectral analysis is performed the variability of systolic blood pressure (VSAD) by the method of fast Fourier transform, determine the absolute values of the power of the VSAD spectrum in four frequency ranges - ultra-low frequency 0-0.025 Hz (ULF), och Hb 0,026-0,075 Hz low frequency (VLF), low frequency 0,076-0,15 Hz (LF) and high frequency 0.16-0.5 Hz (HF); calculate the relative value of the power of the spectrum of the high altitude wave spectrum in the low frequency range (% LF) according to the formula:

where% LF is the relative value of the power of the spectrum of the high speed radar wave in the low frequency range;
LF - the absolute value of the power of the high altitude wave in the low-frequency range of the spectrum of the high altitude wave, mm Hg / Hz;
HF is the absolute value of the power of the high altitude wave in the high-frequency range of the spectrum of the high altitude wave, mm Hg / Hz;
VLF - the absolute value of the power of the VSAD in a very low-frequency range of the spectrum of the VSAD, mm Hg / Hz;
ULF - the absolute value of the power of the high altitude wave in the ultra-low-frequency range of the spectrum of the high altitude wave, mm Hg / Hz; and with% LF values less than 38%, a high risk of hypertension is determined.

Images