UA131344U - METHOD OF ASSESSMENT OF THE EFFECTIVENESS OF THE INFLUENCE OF THE 1,3-OXAZOL-4-IL-PHOSPHONIC ACID DERIVATIVE ON LIPID METABOLISM IN AN INTACT RATS EXPERIMENT - Google Patents

Abstract

Method for evaluating the effect of 1,3-oxazol-4-yl-phosphonic acid derivative on lipid metabolism in an intact rat experiment by examining the tissues of experimental rats by gas-liquid chromatography. Determine the content of palmitic, linoleic, arachidonic and the amount of polyunsaturated fatty acids in the serum and tissues of intact rats before and after the introduction of oxazole derivative, the effectiveness of which influence on lipid metabolism is evaluated compared with the control parameters.

Description

The claimed useful model belongs to medicine, namely to pharmacology, and can be used to evaluate the effectiveness of the effect of a derivative of 1,3-oxazol-4-yl-phosphonic acid on lipid metabolism in an experiment on intact rats.

High blood pressure is responsible for approximately 12.8 95 deaths worldwide each year (1). The accelerated dynamics of the spread of arterial hypertension is an urgent problem of modern medicine, the aggravation of which is due to the demographic aging of the population and behavioral risk factors, in particular, improper nutrition, hypodynamism, and constant stressful conditions (2). This disease is the main cause of cardiovascular and cerebral pathologies (3).

In the context of the development of the health care system, the global pharmaceutical market offers a wide range of antihypertensive drugs. However, the number of patients with arterial hypertension continues to increase. The modern goals of antihypertensive therapy are the treatment of resistant forms of the disease and the reduction of structural, functional, and metabolic disorders caused by it (4). Therefore, the search for molecules and the development of new antihypertensive agents is an important direction of modern pharmacology.

Derivative of 1,3-oxazol-4-yl-phosphonic acid (abbreviated name - oxazole derivative) is a new original compound, which, according to the results of previous experimental studies, has vasodilating activity and is promising for further study as an antihypertensive agent (5):

Thus, an important component of evaluating the effectiveness of the oxazole derivative drug on lipid metabolism is the study of the effectiveness of the action in an experiment on intact rats.

There is a method of preliminary experimental studies of a derivative of 1,3-oxazol-4-yl-phosphonic acid, which exhibits a vasodilating effect and an antihypertensive effect of ip migo (6). However, this method does not allow us to assess the effectiveness of the oxazole derivative on lipid metabolism.

Closest to the claimed method is the method of evaluating the effect of some antioxidants on the fatty acid formula of lipids of tissues of intact rats with spontaneous arterial hypertension, which is carried out by introducing quercetin in an optimal dose

Zo during 3 months and examination of tissues using gas-liquid chromatography (7). However, this method does not allow predicting the effectiveness of the oxazole derivative's effect on lipid metabolism.

The basis of the useful model is the task of developing a method of evaluating the effectiveness of the drug derivative 1,3-oxazol-4-yl-phosphonic acid on lipid metabolism in an experiment on intact rats by examining the blood serum and tissues of experimental rats before and after the administration of the oxazole derivative compared to controls indicators that will allow to determine the protective effect of the oxazole derivative, to increase the effectiveness of the effect on lipid metabolism in an experiment on intact rats.

The task is solved by the fact that the method of assessing the effectiveness of the drug derivative 1,3-oxazol-4-yl-phosphonic acid on lipid metabolism in an experiment on intact rats by examining the tissues of experimental rats using gas-liquid chromatography, according to a useful model, determines the content of palmitic , linoleic, arachidonic, and the sum of polyunsaturated fatty acids in blood serum and tissues of intact rats before and after administration of the oxazole derivative, the effectiveness of which on lipid metabolism was evaluated in comparison with control parameters.

The advantages of the proposed method are simplicity in conducting research and determining indicators.

The method is carried out as follows:

The drug used is a derivative of 1,3-oxazol-4-yl-phosphonic acid, which was administered to intact rats intraperitoneally at a dose of 25 mg/kg (EUBO).

According to preliminary experimental data, the compound has a vasodilating effect and its antihypertensive effect is being investigated.

The studied group of normotensive rats was injected with an oxazole derivative for 7 days, after which blood serum and tissues (aorta, heart, kidney, liver) were collected, and the content of fatty acids in their lipids was determined. Sample preparation and gas chromatographic analysis were performed according to the method (8).

The results of the study of the fatty acid content of serum and aorta lipids (v95) in the experiment on intact rats are shown in Table 1.

Table 1 "ur "0.05 compared to the control

The results of the study of the content of fatty acids of lipids in the heart, kidneys and liver (in 90) in the experiment on intact rats are given in Table 2.

Table 2 "ur "0.05 compared to the control

It can be seen from the tables that when the derivative of 1,3-oxazol-4-yl-phosphonic acid is administered in the optimal dose of the drug, there is no deterioration of lipid indicators in the blood serum and tissues of rats compared to the control indicators, which confirms the possibility of determining and providing protective the effect of the oxazole derivative, to increase the effectiveness of its effect on lipid metabolism in an experiment on intact rats.

On the basis of the Department of Pharmaceutical, Biological and Toxicological Chemistry of NSU named after 0.0.

Bogomolets evaluated the effectiveness of the drug derivative 1,3-oxazol-4-ylphosphonic acid on lipid metabolism in an experiment on intact rats (p-35).

Thus, this method is quite accurate for evaluating the effectiveness of correction in an experiment and can be recommended for implementation in practical medicine.

Sources of information: 1. Mopa Neay Ogodapigayyop. Spiobai! вяйшв5 gerop op popsottipisabiye disease5 2010. Sepema,

M/NO, 2010. 2. Mopa Neantsy Ogoapigayop. Oh my goodness! rii op purepepviop 2013. Sepema, M/NO, 2013.

Z. Sirenko Yu.M. Low-dose combined therapy in the modern treatment of arterial hypertension// Ukrainian Journal of Cardiology. - 2004. - Mo. 5. - P. 8-12. 4. Rorom M.U., Vshapom M.A., I mapom S. (23. (ztstepi iaagdei oi apiipurepepvzime Inegaru. Oaia iot siipisa! ipa! 5. Ran 1. VRaiyopa! Rpagtasoineg Saga 2012; 8 (1). - R. 88-94. 5. Nizhenkovska 1.V., Romanenko R.V., Sedko K.V., Grusha M.M., Brovarets V.S., Golovchenko

O.V., Study of vasoactive properties of 5-alkylamino-2(M-M-benzoyl-4 methylbenzylidene) glycine aminomethyl-1,3-oxazol-4-yl-phosphonic acid diethyl ester on isolated rat aorta // Pharmacology and medicinal toxicology . - 2015. - Mo 6(46). - P. 76-83. 6. MignepKouzka I.M., ZedKo K.U., SoiomspepKo O.U., SoiomsNepko O.I. Tne zshshau oi askie iohisyu

Zo oi 1, Z-oha?o1Iv-4-pI-rpo5rpopis asii dehimaye ip ipigarepiopea! adtipivigayop / Mivpik of Taptasia. - 1(93). - 2018. - R. 43-48 7. Patent of Ukraine No. 106430. Method of assessing the effect of some antioxidants on the fatty acid formula of lipids of experimental rat tissues. Dovgan R.S. Zagorodnyi M.1I., Bryuzgina T.S.,

Gorchakova N.O. Bul. May 8, 2016. - 4 p. 8. Puzyrenko A.M., Chekman 1I.S., Bryuzgina T.S., Gorchakova N.O. Effect of antihypertensive and metabolitropic drugs on the fatty acid composition of cardiomyocyte lipids in rats with spontaneous arterial hypertension // Ukrainian biochem. journal - 2013. - vol. 85, Mo. 4. - pp. 67-74.

Claims (1)

USEFUL MODEL FORMULA The method of evaluating the effectiveness of the drug derivative of 1,3-oxazol-4-yl-phosphonic acid on lipid metabolism in an experiment on intact rats, which includes the examination of tissues of experimental rats using gas-liquid chromatography, which differs in that which determine the content of palmitic, linoleic, arachidonic and the sum of polyunsaturated fatty acids in blood serum and tissues of intact rats before and after administration of the oxazole derivative, the effectiveness of which influence on lipid metabolism is evaluated in comparison with control indicators.