Cardioprotective effect of energostim during occlusion of coronary artery.

Experiments on dogs showed that energostim, a directly acting antihypoxant, injected 15 min after occlusion of the upper one-third of the left descending branch of the interventricular coronary artery produced a pronounced cardioprotective effect. The effect was confirmed by electron microscopy (evaluation the necrotic focus), biochemical tests of the heart and blood, and changes in intracardiac hemodynamics (recovery of systolic and diastolic functions). The cardioprotective effect of energostim greatly surpasses that of routine therapy applied during acute myocardium infarction.

[The subcellular pathophysiology of heart failure due to toxic-allergic myocarditis and the action of refracterin on intracardiac hemodynamics and the functional state of the 3 subcellular cardiomyocyte systems responsible for the act of contraction-relaxation]. / Subkletochnaia patofiziologiia nedostatochnosti serdtsa, obuslovennoi toksiko-allergicheskim miokarditom, i deistvie refrakterina na vnutriserdechnuiu gemodinamiku i funktsional'noe sostoianie trekh subkletochnykh sistem kardiomiotsita otvetstvennykh za akt sokrashchenie--rasslablenie.

It is shown that cardiotropic drug refracterin promotes recovery of cardiac contraction and relaxation, their coordination destroyed in cardiac failure (CF) caused by 10-day toxico-allergic myocarditis (TAM). Pumping capacity of the heart returns to normal after normalization of functional activity of three systems of cardiomyocyte responsible for contraction-relaxation: contractile proteins, energy supply and calcium transport. The key process is refracterin-related reestablishment of normal content and proportion of adenyl nucleotides and creatininephosphate and regulation role of phosphorylation and energy of metabolic processes in the cells and their interaction. Thus, refracterin effectiveness lies in its ability to interfere in intracellular metabolic processes in the myocardium, to reestablish normal homeostasis of the systems responsible for contraction-relaxation function and eventually to remove left ventricular cardiac dysfunction.

[The positive action of refracterin on the reserve potentials and metabolism of the myocardium during its overload in toxic-allergic myocarditis]. / Polozhitel'noe deistvie refrakterina na rezervnye vozmozhnosti i metabolizm miokarda pri ego peregruzke na fone toksiko-allergicheskogo miokardita.

Heart overloading due to pressure as a result of 8 periodic full aortic constriction in heart failure (HF) caused by 10-day toxic-allergic myocarditis (TAM) leads to deterioration of heart contractility (pump function). This is explained by additional decline in functional activity of all three systems of cardiomyocyte responsible for contraction-relaxation. In particular, by a sharp fall of ATP and CP content in the myocardium, a 400% decrease in myofibril power, 200% reduction in efficiency of contraction and marked deterioration of calcium transport. The resultant exhaustion of myocardial reserve brought 70% lethality among the animals. Under the above conditions coordination between the systolic and diastolic cardiac functions, correlation between myocardial functional activity and subcellular systems of cardiomyocyte are impaired. In pressure heart overloading refracterin initiates profound metabolic rearrangements improving metabolism, remodelling of the system of energy supply, reestablishment of systemic homeostasis, normalization of cardiomyocyte and cardiac reserves.