RU2288634C1 - Method for predicting morphological alterations in large arteries - Google Patents

Abstract

FIELD: medicine, forensic medicine.

SUBSTANCE: the present innovation deals with predicting morphological alterations in the walls of large arteries. One should detect a stiffness index (SI) according to characteristics of neutralized volumetric pulse curve registered upon a finger due to photoplethysmographic technique. Moreover, pulse wave should be registered after sublingual intake of 500 mcg nitroglycerin. As a value for elastic component of arterial stiffness one should taken into account a minimal SI value (SI_min) BP of 4 neutralized volumetric pulse curves that corresponds to maximal arterial dilation. Then it is necessary to calculate the thickness of intima-media complex (TIM) in middle segments of general carotid arteries by the following formula: TIM=0.0484xSI_min+0.3135, where TIM - thickness of intima-media complex (mm); SI_min - minimal SI value out of 4 volumetric pulse curves obtained after intake of nitroglycerin (m/sec). The innovation enables to elaborate quantitative criteria for detecting morphological alteration in large arteries due to photoplethysmography.

EFFECT: higher accuracy of diagnostics.

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Description

The present invention relates to medicine and can be used to diagnose morphological changes in the wall of large arteries.

Known methods for the diagnosis of atherosclerotic lesions of large arteries, which include: x-ray angiography, intravascular ultrasound and ultrasound of the surface arteries using high-resolution devices.

The angiographic method allows you to visualize the inner diameter of the artery and is informative only if there are obvious atherosclerotic changes, provided that the inner diameter of the vessel changes locally. Intravascular ultrasound can diagnose earlier stages of atherosclerosis of the arteries with an assessment of the morphology of the vascular wall, even without changing the internal diameter of the artery.

Both of the above methods have a number of significant drawbacks: the invasive nature of the studies, the ability to study only individual vascular regions, difficulties in conducting repeated studies, and the high cost of the procedures.

The methodology for studying surface arteries using high-resolution ultrasound makes it possible to visualize the internal diameter of large arteries (carotid, femoral, brachial, etc.), as well as to evaluate the morphology of the vascular wall by the thickness of the intima-media complex [Reneman R.S., Hoeks A.P.G. Noninvasive vascular ultrasound: An asset in vascular medicine. Cardiovascular Research, 2000, Vol. 45, p. 27-35]. A close relationship between the intima-media index of the carotid arteries and atherosclerotic lesions of arteries of other vascular regions (coronary arteries, renal arteries, arteries of the vessels of the lower extremities) has been shown [O'Leary D.H., Polak J.F., Kronmal R.A. et al. Thickening of the carotid wall. A marker for atherosclerosis in the elderly? Cardiovascular Health Study Collaborative Research Group. Stroke, 1996, Vol. 27, p. 224-231; Bots M.L., Hofman A., Grobbee D.E. Increased common carotid intima-media thickness. Adaptive response or a reflection of atherosclerosis? Findings from the Rotterdam study. Stroke, 1997, Vol. 28, p. 2442-2447], as well as with a risk of cardiovascular complications [Salonen J.T., Salonen R. Ultrasonographically assessed carotid artery morphology and the risk of coronary heart disease. Arterioscler Thromb, 1991, Vol. 11. p.1245-1249].

The method has a number of significant drawbacks, which include the need for a highly trained doctor of ultrasound diagnostics, the relatively high variability of the results of repeated studies by both one researcher and different researchers (8.3% and 10.5%, respectively) [Salonen R., Haapanen A. Salonen JT Measument of intima-media thickness of common carotid arteries with high resolution B-mode ultrasonography: Inter and intra-observer variability. Ultrasound Med Biol, 1991, Vol.17, p.225-230], the ability to study only superficially located arteries, the high cost of the equipment for the study.

Indirect methods are known for determining the morphology of the arterial wall (stiffness of the vascular wall) based on the determination of the pulse wave velocity in large arteries (aortic-femoral arteries) by the characteristics of the pulse wave [Millasseau S.C., Guigui F.G., Kelly R.P. et al. Non-invasive assessment of the digital volume pulse: comparison with the peripheral pressure pulse. Hypertension, 2000, Vol. 36, p. 952-956]. These methods are based on the position that arteries lose elastic properties (extensibility) with age and with the development of morphological changes in the vascular wall during atherosclerosis, hypertrophy of the muscle membrane, which leads to an increase in the blood flow velocity in large arteries and, accordingly, the pulse wave velocity [Bramwell JC Hill AV Velocity of transmission of the pulse wave and elasticity of arteries. Lancet, 1922; Vol.1, p. 891-892]. Studies have shown a high relationship between arterial stiffness and the risk of major cardiovascular complications [Boutouyrie P., Tropeano A.I., Asmar R. et al. Aortic Stiffness Is an Independent Predictor of Primary Coronary Events in Hypertensive Patients. Hypertension, 2002, Vol. 39, p.10-15].

The significance of methods for determining arterial stiffness in relation to the diagnosis of vascular atherosclerosis has not been adequately studied [Cockcroft J.R., Wilkinson I.B. Arterial stiffhess and pulse contour analysis: an age old concept revisited. Clinical Science, 2002, Vol. 103, p. 379-380].

As a prototype, a method for determining the stiffness of large arteries was used, based on photoplethysmographic recording of changes in blood flow in the finger of the upper limb associated with the passage of a pulse wave [Millasseau S.C., Kelly R.P., Ritter J.M., Chowienczyk P.J. Determination of age-related increases in large artery stiffhess by digital pulse contour analysis. Clinical Science, 2002, Vol. 103, p. 371-377]. According to this method, the study of arterial stiffness is carried out at rest in the position of the test lying in a room with a controlled temperature (22-26 ° C). A body pulse wave is recorded by a PulseTrace computerized photoplethysmograph sensor (Micro Medical ltd., England) placed on the index finger of the subject after a 10-minute adaptation period. Pulse curves accumulate and average over 10-30 seconds. Calculations are made by the average pulse curve. The arterial stiffness index (SI) uses the blood flow velocity in the main arteries, calculated by dividing the patient’s growth by the time between the peaks of the direct and reflected pulse waves (i.e., between the first and second peaks of the volume pulse curve).

The disadvantage of this method is the dependence of the elastic properties of arteries in vivo on the tone of smooth muscle cells of the vascular wall, regulated by both local factors (vasoactive substances produced by endothelial cells) and systemic neurohumoral factors (activity of the sympathoadrenal system, RAAS) [Wilkinson IB, Qasem A., McEniery CM et al. Nitric oxide regulates local arterial distensibility in vivo. Circulation, 2002, Vol. 105, p. 213-217; Failla M., Grappiolo A., Emanuelli G. et al. Sympathetic tone restrains arterial distensibility of healthy and atherosclerotic subjects. J. Hypertens, 1999, Vol.17, p. 1117-1123]. In other words, the indicator of stiffness of arteries at rest depends on two components: elastic (directly - morphology of arteries) and tonic (functional, which is largely variable). The presence of the tonic component of the stiffness of the vascular wall even at rest determines the high variability of SI values from study to study and significantly reduces the possibilities of the method for the quantitative diagnosis of morphological changes in arteries.

The objective of the invention is to develop quantitative criteria for determining the morphological changes of large arteries using the photoplethysmography method.

The problem is solved in that, in contrast to the method for diagnosing morphological changes in large arteries, including stiffness index (SI) determination by the characteristics of the averaged volumetric pulse curve recorded on the upper extremity finger by the photoplethysmographic method at rest, the pulse wave is recorded after sublingual intake of 500 μg nitroglycerin, as a measure of the elastic component of arterial stiffness taking a minimum value SI (SI _min) of 4-averaged volumetric pulse curves with tvetstvuyuschee maximum dilation of the arteries, is calculated and a thickness of the intima-media middle segments common carotid arteries by the formula:

TIM = 0.0484 × SI _min +0.3135, where

TIM - the thickness of the complex intima-media (mm);

SI _min is the minimum SI value from 4 volume pulse curves obtained after taking nitroglycerin (m / s).

In accordance with the proposed method, the study is carried out in the position of the patient lying on the couch in a room with a controlled temperature (22-26 ° C). A body pulse wave is recorded using a PulseTrace computerized photoplethysmograph (Micro Medical ltd., England), which makes it possible to obtain averaged (over a period of 5-30 seconds) pulse curves. The sensor of the device, consisting of an infrared diode (940 nm) and a phototransistor equipped with a heating device, is fixed on the index finger of the patient. After 10 minutes of rest, the patient takes 500 mg of nitroglycerin sublingually. Registration of pulse curves averaged over 30 seconds is performed 2, 3, 4, 5 minutes after the resorption of the drug. As an indicator of arterial stiffness used in the calculations, the minimum SI value from 4 pulse curves recorded after taking nitroglycerin, corresponding to the maximum artery dilatation (SI _min ), is taken. Based on the obtained indicator, the thickness of the intima-media complex of the middle segments of the common carotid arteries is calculated by the formula:

TIM = 0.0484 × SI _min +0.3135,

where TIM is the thickness of the complex intima-media (mm);

SI _min is the minimum SI value from 4 volume pulse curves obtained after taking nitroglycerin (m / s).

Example 1. The proposed method examined 28 volunteers (14 men and 14 women, aged 22 to 57 years, average age 37.8 ± 9.6 years), simultaneously surveyed by a standard method. The reproducibility of the results of the methodology for determining arterial stiffness based on the parameters of the volume pulse curve was evaluated in 10 patients after 3 months, during which no treatment was carried out by the subjects. As a control method, we used the determination of the thickness of the intima-media complex in the middle segments of the common carotid arteries using high-resolution ultrasound using a Sonos-1800 from Hewlet Packard with a 7.5 MHz duplex sensor. Mathematical processing was carried out using methods of variation statistics, correlation and regression analysis.

According to the results of the study, the correlation of SI determined by the photoplethysmographic method according to the standard method with the thickness of the intima-media complex in the middle segments of the common carotid arteries, determined using high-resolution ultrasound, was 0.60 (p = 00), the accuracy of the approximation (R ² ) according to regression analysis was 0.36; SI values initially and after 3 months amounted to 7.42 ± 1.05 and 7.72 ± 1.09, respectively, the indicator variability was 3.9% (in the range from -9.7% to 23.2%, CI 95 %).

The correlation of the proposed arterial stiffness index (SI _min ) with the thickness of the intima-media complex in the middle segments of the common carotid arteries, determined using high-resolution ultrasound, was 0.79 (p = 0.00), the approximation reliability (R ² ) according to the regression data the analysis was 0.62 and were higher than using the standard method. The reproducibility of arterial stiffness measurements for the proposed method was also higher. SI _min values initially and after 3 months were 5.20 ± 0.70 and 5.34 ± 0.56, respectively, the indicator variability was 2.7% (in the range from -4.1% to 9.6%, CI 95%).

The presence of a close linear relationship between the arterial stiffness index determined by the proposed method and the ultrasound data of the carotid arteries made it possible to propose a regression equation as a formula for calculating the thickness of the intima-media complex in the middle segments of the common carotid arteries using the minimum arterial stiffness index (SI _min ) determined by volumetric pulse curve after sublingual administration of nitroglycerin:

TIM = 0.0484 × SI _min +0.3135,

where TIM is the thickness of the complex intima-media (mm);

SI _min - the minimum SI value from 4 volume pulse curves obtained after taking nitroglycerin.

Example 2. When using the proposed method for calculating the thickness of the intima-media complex in the middle segments of the common carotid arteries in 28 volunteers aged 22 to 57 years, the following results were obtained: the thickness of the intima-media complex in the middle segments of the common carotid arteries according to high-resolution ultrasound data 0.57 ± 0.7 mm, using the proposed formula, it was 0.57 ± 0.6 mm (differences between the indicators are 0.03%, p = 0.98)

Claims (1)

A method for diagnosing morphological changes in large arteries, including determining the stiffness index (SI) according to the characteristics of the averaged volumetric pulse curve recorded on the finger of the upper extremity by the photoplethysmographic method, characterized in that the pulse wave is recorded after sublingual intake of 500 μg nitroglycerin, as an indicator of the elastic component of arterial stiffness take the minimum SI value (SImin) of the 4 average volumetric pulse curves corresponding to the maximum dilatation a Theurillat, is calculated and a thickness of the intima-media middle segments common carotid arteries by the formula: TIM = 0.0484 × SI _min +0.3135, where TIM is the thickness of the complex intima-media, mm; SI _min - the minimum SI value from 4 volume pulse curves obtained after taking nitroglycerin, m / s.