SU1347016A1 - Method of investigating metabolism of myocardium - Google Patents

Abstract

The invention can be used in pharmacology to study the effects of drugs. The purpose of the invention is to increase the accuracy of the method. In animals, catheterization and perfusion are performed with own arterial blood. A catheter is then inserted into the coronary sinus and drainage is performed. After the introduction of a non-diffusing indicator, arterial blood samples are taken with an indicator from the perfusion coronary flow and from the coronary sinus. The perfused area of the myocardium is contrasted, and then cut and vented. The state of metabolic processes in the myocardium is determined by the content of the studied substrates in the inflowing and flowing blood, by the change in their content in the inflowing blood to the given area or the change in their consumption by the myocardium under the influence of the injected drugs. (L co 4

Description

The invention relates to physiology and medicine, in particular to methods for studying myocardial metabolism in normal and disturbed cardiac function and coronary circulation, can also be used in pharmacology to study the effect of drugs on the heart.

The purpose of the invention is to improve the accuracy of the method by determining the regional heart abolism met.

The method is carried out as follows.

In animals under anesthesia, catheterization and perfusion are carried out with a constant volume of intrinsic arterial blood taken from a peripheral artery, one of the coronary arteries, for example, the circumflex branch of the left coronary artery. Then, under fluoroscopic control, the catheter is inserted into the coronary sinus and its drainage is performed using a pump at a constant speed. Then, in a volume-stabilized perfusion coronary blood flow carried out under pressure equal to the pressure in the aorta, a non-diffusive indicator, such as polyglukin, is introduced at a constant speed using a microinjector, and after a time sufficient for the indicator to pass through the vessels of the myocardium region under investigation In the coronary sinus (1-2 minutes), arterial blood samples containing the indicator are taken from the perfusion coronary flow and blood samples from the coronary sinus using a drainage system. Experience perfused myocardial contrast zone and after opening the chest cavity excised and weighed. The state of metabolic processes in the perfused myocardial region, assessed by the content of the studied substrates in the blood flowing in and flowing from it when their content changes in the blood flowing to: a given blood area or their myocardial consumption under the influence of physiologically active substances and drugs - the fusional blood flow of this area, as well as other effects on the body, is determined by the formula

five

0

five

0

aik

The cop

where P is the consumption of the substrate by the infused area of the myocardium, mmol / min / 100 g of heart tissue; А1 ,, - arterial infusion blood flow rate, l / min; the content of the substrate in arterial blood, mmol / l; the content of the substrate in the coronary sinus before infusion,

mmol / l;

CKC substrate content in the coronary sinus during the infusion process, mmol / l;

5 K is the ratio of the indicator content in the coronary sinus to its content in arterial blood;

MIZ is the mass of the infused area of the myo- 0 card, g,

PRI me R. In the dog, without opening the chest cavity, coronary sinus catheterization, catheterization and extracorporeal perfusion of the circumflex branch of the left coronary artery are performed. The volume of perfusion is 0.05 l / min. The glucose content in the arterial blood of the perfusion coronary flow and in the blood from the coronary sinus is 0.5 and 4.5 mmol / l 0, respectively. 1-2 minutes after the start of the introduction of the indicator polyglucine at a constant rate in the perfusion coronary circulation, its concentration in the arterial perfusion coronary flow and coronary sinus is 0.01 and 0.006 mmol / L, respectively. Next, physiologically active substances are introduced into the perfusion coronary blood flow, which cause changes in the level of metabolic processes in the myocardium. For example, when infused into the perfusion coronary blood flow, glucose concentrates, and her in the arterial blood of the perfusion flow and in the blood from the coronary sinus, respectively, 20.0 and 11, 7 mmol / l. The myocardium mass in the area of perfusion of the envelope of the branch of the left coronary artery is 103 g. According to the obtained data, glucose consumption is determined under conditions of modeling hyperglycemia when glucose is infused into perfusion, coronary blood flow, 1 75 mmol / l / min per 100 g,

5 The proposed method for obtaining blood samples of the heart to determine the state of metabolic processes in the myocardium has a significant advantage over the known D ecTBO, as it allows to give an accurate quantitative characterization of the consumption of substrates by a separate myocardial section when their content in the blood flowing to this area as well as when their consumption changes by the myocardium under the influence of physiologically active substances and drugs introduced into the coronary perfusion blood flow of this area, or other effects on the body. Thus, this method can be widely used in various fields of biology and medicine to study the physiology and pathology of the heart and the mechanisms of the action of drugs on myocardial function and metabolism.

Claims (1)

Invention Formula A method for studying myocardial metabolism by infusing an animal's heart with a substrate and measuring its concentration in arterial and venous blood of the heart, characterized in that, in order to increase the accuracy of the method by determining regional metabolism, the infusion is performed with the arterial blood of an animal with a non-diffusing indicator Editor I.Gorn Compiled by I.Emel Nenko Tehred A. Kravchuk Proofreader A.Zimokosov Order 5116 / AZT 775 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 7016 rum, determine the speed of the arterial infusion blood flow, the ratio of the indicator content in the coronary sinus to its content in the arterial blood and the mass of the myocardial infusion zone, and regional metabolism is determined by the consumption of the substrate by the infused myocardial zone P uk (Mr. JiFJL. To + C, )-100. miz five five 0 Dick 0 xc where P is the consumption of the substrate infused area of the myocardium, mmol / min / 100 g of heart tissue; Aj, n is the rate of arterial infusion blood flow, l / min; the content of the substrate in arterial blood, mmol / l; substrate content in the coronary sinus before infusion, mmol / l; the content of the substrate in the coronary sinus during the infusion process, mmol / l; the ratio of the indicator content in the coronary sinus to its content in arterial blood; - the mass of the infusion zone Cockade, Cop. to MIZ