RU2122824C1 - Method of vessel reactivity determination - Google Patents

Abstract

FIELD: medicine; early diagnostics of vascular diseases. SUBSTANCE: method includes measurement of reduction of intravascular pressure with simultaneous recording of pulse wave propagation time up to moment peripheral pulse ceases. Then reactivity threshold is determined by value of intravascular pressure reduction required to increase pulse wave propagation time by 0.01 s. Vessel reactivity variation is determined by deviation of reactivity threshold of patients of first maturity period from minus 5.99±0.29 mm Hg/0.01 s and patients of second maturity period, from minus 8.05±0.31 Hg/0.01 s. EFFECT: improved results of diagnostics. 2 dwg

Description

 The invention relates to physiology and pathological physiology and can be used in healthy and sick people to determine vascular reactivity, for occupational selection in extreme conditions, to assess the regulation of autonomic functions in neurosurgical patients, in sports and age-related medicine.

 Known works of the authors, indicating the need to determine the reactivity of blood vessels for the early diagnosis of vascular diseases.

 The work is based on a fundamental study of the domestic scientist Aleksei Aleksandrovich Ostroumov (Versuche uber die Hemmungsnerven der Hautgefasse // Pfluger Arch. Fur Phisiologie, 1876, Bd. XII), which first revealed the existence of blood circulation autoregulation at the level of blood vessels, which for the first time noted the difference between this autoregulation of denervated and in the experiment.

 Due to the limited methodological capabilities of that time, no method was presented in the work for determining the features of autoregulation due to changes in vascular reactivity in healthy people of different ages, as well as in patients with nerve damage that supply these vessels. A known method for determining the reactivity of blood vessels (A. S. USSR N 1123636, A 61 B 5/02, Bull. N 42, 15/11/84), in which the change in the intensity of electromagnetic reflection from the studied area of the body after the introduction of saline and vasoactive substances serves as the basis for determining vascular reactivity.

 The disadvantage of this method is invasiveness, lack of accuracy, due to the use of drugs as an irritant of blood vessels, as well as the inability to measure the reactivity threshold.

 A known method for assessing autoregulation of cerebral blood flow in neurosurgical patients (A.S. N 1822742, A 61 B 5/00, Bull. N 23, 1993), in which the change in perfusion pressure in an invasive way using an introduced catheter is also used as a vascular irritant. spray can with changes in cerebral blood flow and intracranial pressure, followed by the calculation of the lower limit of autoregulation according to the design pressure.

 The disadvantage of this method is the lack of accuracy due to the invasiveness of the method, the lack of age criteria for the lower limit of autoregulation, and the inability to determine the reactivity of muscle vessels.

 A known method for assessing hemodynamic resistance of arteries according to the gradient of blood pressure in the main artery of the forearm and the total volume of blood flow in the forearm in the phase of reactive hyperemia (AS USSR N 1152566, A 61 B 5/02, Discovery, invention N 76-87), in which the authors using an original device (Device for assessing the hemodynamic resistance of arteries of the USSR AS N 1155244) create a change in transmural pressure with subsequent measurement of the extensibility of the arteries with simultaneous measurement of blood flow in the forearm using IAOD venous occlusion plethysmography and muscle blood flow was measured using iontophoresis adrenaline.

 The disadvantage of this method is invasiveness, the inability for widespread daily use due to the lack of mass production of the device used by the authors, and also due to the lack of quantitative characteristics of the indicators used in healthy people.

 A known method for determining vascular reactivity (AS USSR N 1123635, A 61 B 5/02, Bull. N 42, 84.11.15), in which the reactivity is determined by changing the oscillography of the left and right brachial arteries before and after the introduction of vasodilators and physical activity with the subsequent calculation of the ratio of the diameter of the brachial arteries and the formula determines the indicator of vascular reactivity.

 The disadvantage of this method is the lack of accuracy associated with the inability to determine the threshold of reactivity and in connection with the use of drug and physical effects on the whole body as a load on the vessels.

 The prototype of the proposed method is a method for determining vascular reactivity (A. S. USSR N 1435239, A 61 B 5/00. Bull. N 41, 88.11.07), in which a step change in blood pressure using a cuff method and registration is used as a load on the vessels the travel time of the pulse wave to calculate the mechanical properties of the vessel before and after pharmacological effects.

 The disadvantage of this method is the lack of accuracy due to the inability to determine the threshold of reactivity and inaccessibility for widespread daily use.

 The invention is aimed at creating a method for determining vascular reactivity, providing increased accuracy due to the possibility of measuring the threshold of vessel reactivity in mm Hg / 0.01 s). This is achieved by recording the propagation time of the pulse wave with a simultaneous decrease in intravascular pressure during registration of blood pressure using cuffs.

 The inventive method differs from the prototype in that it measures the decrease in intravascular pressure in synchronization with the registration of the propagation time of the pulse wave until the pulse disappears, then the threshold of reactivity is determined by the value of the decrease in intravascular pressure necessary to slow down the propagation time of the pulse wave by 0.01 s, and the change in reactivity vessels are determined in subjects of the 1st maturity by threshold deviation from -5.99 ± 0.29 mm Hg / 0.01 s, in subjects of the 2nd maturity by threshold deviation eaktivnosti from -8.05 ± 0.31 mmHg / 0.01 s.

 The method is as follows.

 Pulse detectors are installed over the projection of the carotid and radial arteries, a cuff is placed on the shoulder and connected to a device for measuring blood pressure, and the sphygmogram of the carotid and radial arteries is synchronously recorded during registration of the tacho-oscillogram. Then measure the magnitude of the decrease in pressure at the time of slowing down the propagation time of the pulse wave by 0.01 s and the change in vascular reactivity in the subjects of the I maturity period is determined by the deviation of the reactivity threshold from -5.99 ± 0.29 mm RT. Art. / 0.01 s, in subjects of the II maturity period from -8.05 ± 0.31 mm Hg / 0.01 sec.

 The deviation of the threshold of vascular reactivity in neurosurgical patients with damage to the nerve brachial plexus is determined by recording the value of lowering blood pressure and slowing down the propagation time of the pulse wave on the damaged and "intact" arm.

 The inventive method is developed in the Russian National Scientific Research Institute named after prof. A.L. Polenova and passed clinical trials in the examination of 86 patients with damage to the nerve brachial plexus and 24 healthy.

 We give examples of extracts from the medical history.

 Example 1. B. P.K.K., 63 years old, and.b. N 12-94, was admitted to the neurosurgical department for examination and treatment for damage to the radial nerve at the level of the right shoulder and concomitant stage II A hypertension. On the eve of the operation, the subject had a hypertensive crisis; against the background of the crisis, the reactivity of the vessels on the right and left hand was determined using the proposed method. The survey results are presented in table 1.

 The results of the survey indicate an increase in the threshold of reactivity of the vessels of the right and left hand against the background of a hypertensive crisis and its decrease, especially pronounced for the vessels of the "intact" left hand after stopping the crisis using vasoactive drugs, which also opens up the possibility of determining the features of the manifestation of the Ostroumov-Beilis phenomenon in the reactivity of the vessels of the denervated arm. The foregoing is illustrated in the drawing.

 Example 2. B-IHM, 43 years old and / b N 1566-93 was admitted for damage to the right brachial plexus and multiple fractures of the bones of the right hand. After a general clinical examination, the patient was tested using the proposed method, which revealed an increase in the threshold of reactivity of vessels of the right and left hands, a larger increase in the threshold of reactivity of vessels of the right hand characterized a decrease in regulation possibilities due to vascular denervation and the manifestation of the autoregulation phenomenon according to the Ostroumov-Beilis phenomenon. The patient underwent a neurosurgical operation on the brachial plexus, aimed at improving the conduction of the impulse along the nerve trunks and improving trophic support of the tissues of the right hand. When examining in the long term after surgery (after 7 months), and. b. 934-94 the active course of the regeneration of nerve trunks, manifested primarily in exacerbation of sensitivity, the appearance of extensor function of the right hand, a positive symptom of Tinnell. An examination using the proposed method also revealed a sharp manifestation of vascular reactivity during irritation by pressure changes, as a result of a sharp decrease in the reactivity threshold of the vessels of the damaged arm with normalization of the reactivity threshold of the "intact" arm. The survey results are presented in table 2.

 Thus, the results of the survey using the proposed method objectified the positive dynamics of the restoration of the regulation of autonomic function on the example of measuring the threshold of vascular reactivity.

 Using the proposed method, the threshold of reactivity of the arteries of the arm in two age groups of practically healthy people in the control group is determined. The results are presented in table 3.

 The revealed age-related differences in the threshold of reactivity of the arteries of the hand can be used to assess reactivity in the examination of healthy and sick people.

 The advantage of the proposed method for determining reactivity is to increase its accuracy by determining the threshold of reactivity.

Claims (1)

 A method for determining vascular reactivity by recording the propagation time of the pulse wave and blood pressure, characterized in that they measure the decrease in intravascular pressure in synchronization with recording the propagation time of the pulse wave until the peripheral pulse disappears, then the reactivity threshold is determined by the magnitude of the decrease in intravascular pressure necessary to increase the propagation time pulse wave for 0.01 s, and the change in vascular reactivity is determined by the deviation of the pores ha reactivity in the examined period I maturity by -5.99 ± 0.29 mm Hg. Art. / 0.01 s and in subjects of the II maturity period from -8.05 ± 0.31 mm Hg. st. / 0.01 s.

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