EFFICIENCY OF ENDOTHELIAL DYSFUNCTION CORRECTION OF VESSELS IN THE PERI- AND POSTOPERATIVE PERIOD IN PATIENTS WITH ACUTE CORONARY SYNDROME ON THE BACKGROUND OF TYPE 2 DIABETES

Authors

  • M. I. Shved I. HORBACHEVSKY TERNOPIL NATIONAL MEDICAL UNIVERSITY
  • R. M. Ovsiichuk I. HORBACHEVSKY TERNOPIL NATIONAL MEDICAL UNIVERSITY

DOI:

https://doi.org/10.11603/mcch.2410-681X.2022.i4.13567

Keywords:

acute coronary syndrome, type 2 diabetes, nitrous oxide, endothelin-1, percutaneous coronary intervention, reperfusion complications, L-carnitine, dapagliflozin

Abstract

Introduction. The high level of morbidity and mortality of patients with myocardial infarction and type 2 diabetes and the limitation of the possibility of using highly effective early invasive coronary interventions in this comorbid condition determines the tactics of active study of the role of mutually aggravating pathogenetic factors, including vascular endothelial dysfunction, which contributes to energetic metabolism disorders and ischemic damage of cardiomyocytes.

The aim of the study – to analyze the effectiveness of the correction of endothelial dysfunction of combined interventional and drug treatment in patients with ST elevation acute coronary syndrome against the background of type 2 diabetes with a high risk of developing cardial complications at the inpatient stage of treatment.

Research Methods. 56 patients with acute coronary syndrome in combination with type 2 diabetes were included in the study. They were divided into 2 groups. 32 patients of the main research group, who in addition to standard treatment with acute coronary syndrome received 2.0 g of L-carnitine intravenously in the form of a solution for infusions of 100 ml once per day due to 7 days. One infusion of the drug was performed before interventional intervention. The control group included 24 patients who also underwent percutaneous coronary intervention and standard medical treatment. To compensate for type 2 diabetes, patients of both groups were additionally prescribed dapagliflozin (Forxiga) 10 mg/day. In addition to general clinical, instrumental and laboratory methods, the functional state of the vascular endothelium was determined by the concentration of endothelin-1 (ET-1) in blood plasma and the content of stable NO metabolites.

Results and Discussion. In the initial state, severe microcirculation and endothelial function disorders and their additional deterioration in the peri- and postoperative periods after percutaneous coronary intervention, accompanied by the development of reperfusion syndrome with varying duration and severity of left ventricular failure and rhythm and conduction disturbances, were found in patients with acute coronary syndrome in combination with type 2 diabetes. Under the influence of standard medical treatment, the presence of treatment-resistant supraventricular and ventricular extrasystoles was noted in patients of the control group. At the same time, in patients with ST elevation acute coronary syndrome in combination with type 2 diabetes of the research group, under the influence of complex drug treatment including L-carnitine and dapagliflozin, already on the second day of observation, a significant improvement of the endothelial function of the vessels parameters and a decrease in the frequency of rhythm and conduction disturbances were noted. And after the end of the treatment course in comorbid patients of the research group, a complete recovery of endothelial function and a decrease in the frequency of rhythm and conduction disturbances by 59.4 % and manifestations of acute heart failure by 42.6 % were noted.

Conclusions. Violation of endothelial function in patients with acute coronary syndrome on the background of type 2 diabetes is advisable to be corrected by metabolic therapy with L-carnitine and the sglt2 inhibitor dapagliflozin in the preoperative period of percutaneous coronary intervention to prevent manifestations of reperfusion syndrome and to continue it in the postoperative period to stabilize the clinical condition of patients and prevent complications.

References

Ivanyuk, А.V., Orlova, N.M. (2020). Ischemic heart disease among the population of working age in Kyiv region: statistical analysis of the modern epidemiological situation. Reports of Vinnytsia National Medical University, 24, 694-699.

Kovalenko, V.М. (2016). Current health problems and their minimization in the conditions of armed conflict in Ukraine. Kyiv: “National Research Center Institute of Cardiology named after Acad. M.D. Strazheska” [in Ukrainian].

Kovalenko, V.М. (2015). Cardiology in Ukraine: yesterday, today and in the future. Ukr. Cardiol. Journal, 2, 9-16 [in Ukrainian].

Dorokhova, O.V. (2015). Prognostic significance of risk factors for adverse coronary events in patients with ACS without ST elevation. Candidate’s thesis [in Ukrainian].

Erlich, A. D. (2012). Register RECORD. Treatment of patients with ACS in hospitals with and without the possibility of performing invasive coronary procedures. Сardiol., 7, 8-14.

Solomenchuk, T.V. (2007). Myocardial infarction in young and middle age (up to 50 years): epidemiology, clinical course, pathomorphology, etiology. Extended abstract of Doctor’s thesis [in Ukrainian].

Stuart, R.M., Khan, O., & Abeysuriya, R. (2020). Diabetes care cascade in Ukraine: an analysis of breakpoints and opportunities for improved diabetes outcomes. BMC Health Serv. Res., 20, 409-416.

(2016). WHO. Diabetes fact sheet. Available from: https://www.who.int/news-room/fact-sheets/detail/diabetes.

Twigg, J. (2017). Ukraine’s Health Sector – Sustaining momentum for reform. CSIS Global Health Policy, 12, 236-243.

Al-Aqeedi, R., Abdullatef, W. (2013). The prevalence of metabolic syndrome components, individually and in combination, in male patients admitted with acute coronary syndrome, without previous diagnosis of diabetes mellitus. Libyan J. Med., 8, 2018- 2024.

Shved, M., Tsuglevych, L., Kyrychok, I. (2017). Features of cardiorehabilitation and correction of impaired systolic-diastolic function and heart rhythm variability in patients with acute coronary syndrome with revascu­larization of coronary arteries. Georgian Medical News, 4, 46-53.

Synkov, M.А. (2010). Effectiveness of primary PCI in patients with myocardial infarction and concomitant multifocal atherosclerosis. Doctor’s thesis [in Ukrainian].

Horobets, M.N. (2015). New strategic approaches to the correction of endothelial dysfunction. Medicines of Ukraine, 2, 20-24 [in Ukrainian].

Grigoryev, A. (2014). Risk factors of adverse outcomes of coronary bypass surgery in patients with isolated and multifocal atherosclerosis. Extended abstract of Candidate’s thesis [in Ukrainian].

Barbarash, O. L. (2011). Prevalence and clinical significance of multifocal atherosclerosis in patients with ischemic heart disease. Cardiology, 8, 66-71 [in Ukrainian].

Bassand, J., & Hamm, W. (2007). Guidelines for the diagnosis and treatment of non-ST-segment elevation acute coronary syndromes. The Task Force for the Diagnosis and Treatment of non-ST-Segment Elevation Acute Coronary Syndromes of the European Society of Cardiology, 28, 1598-1660.

Jeffrey, L., Adams, D. (2017). ACCF/AHA Focu­sed Update on the Management of Patient with Unstable Angina/Non-ST-Elevation Myocardial Infarction. J. Am. Cardiol, 57, 1920-2059.

Khorlampenko, A. (2021). Ways to increase the effectiveness of planned percutaneous coronary inter­ventions in patients with disorders hydrocarbon drift. Candidate’s thesis [in Ukrainian].

Elenskaya, T.S. (2012). Clinical and prognostic value of insulin resistance indicators in patients with ST-segment elevation myocardial infarction. Extended abstract of Doctor’s thesis [in Ukrainian].

Petrie, J., Guzik, T., Touyz, R. (2018). Diabetes, Hypertension, and Cardiovascular Disease: Clinical Insights and Vascular Mechanisms. Can J. Cardiol., 34, 575-584.

(2014). Unified clinical protocol of emergency, primary, secondary and tertiary medical care "Acute coronary syndrome with ST segment elevation". Ministry of Health of Ukraine [in Ukrainian].

Ibanez, B., James, S. (2018). ESC Guidelines for the management of acute myocardial infarction in patients presenting with ST-segment elevation:The Task Force for the management of acute myocardial infarction in patients presenting with ST-segment elevation. Eur. Heart J., 2, 119-177.

(2014). Acute coronary syndrome with ST segment elevation: Unified clinical protocol of emergency, primary, secondary and tertiary care. Ministry of Health of Ukraine [in Ukrainian].

(2013). IDF Diabetes Atlas. Sixthedition. Inter­national Diabetes Federation. http://www.idf.org / diabetesatlas

Kondakov, I.L., Yakovenko, A.F. (2000). Methods of morpho-functional study of the state of the endothelium. Method. recommendations. Kharkiv [in Ukrainian].

Kolotylo, O.B. (2019). Correction of the prooxidant-antioxidant balance in patients with critical ischemia of the lower extremities and a high risk of developing reperfusion-reoxygenation complications. Medical and Clinical Chemistry, 21, 92-96 [in Ukrainian].

Kolotylo, O.В., Iftody, A.H., Wenger, I.K., Kostyv, S.Ya., Gerasimyuk, N.I. (2019). Revascularization of combined occlusion of extracranial arteries and aorta/iliac-femoral arterial bed in the conditions of the risk of developing reperfusion-reoxygenation syndrome. Georgian Med. News, 1, 24-28 [in Ukrainian].

Fakhry, F., Spronk, S., VanderLaan, L. (2015). Endovascular revascularization and supervised exercise for peripheral artery disease and intermittent claudication: a randomized clinical trial. JAMA, 314, 1936-1944.

Astashkin, E.I., Astashkin, M.G. (2012). Role of L-carnitine in energy metabolism cardiomyocytes and treatment of diseases of cardiovascular system. Cardio­logyand Cardiovascular Surgery, 6, 58-65.

Di Nicolantonio, J., Lavie, C. (2013). L-carnitine in the secondary prevention of cardiovascular disease: Systematic revien and meta-analysis. Mayo Clin. Proc., 1-8.

Shug, A., Thomsen, J. (1998). Changes in tissue levels of carnitine and other metabolites during myocardial ischemia and anoxia. Arch. Biochem. Biophys., 187, 25-33.

Shved, M.I., Pelo, M.Y. (2018). The effect of cardioprotective metabolic therapy on the occurrence of rhythm and conduction disorders in patients with myo­cardial infarction with metabolic syndrome. Arithmology, 26, 53-55 [in Ukrainian].

Hicks, J.J., Hicks, D.H. (2007). Antioxidants decrease reperfusion induced arrhythmias in myocardial infarction with ST-elevation. FrontiersinBioscience, 12, 2029-2037.

Rizzon, P., Biasko, G. (1989). High doses of L-carnitine in acute myocardial infarction: metabolic and antiarrhythmic effects. Eur. Heart J., 10, 502-508.

Berg, D. (2021). Time to clinical benefit of dapagliflozin and significance of prior heart failure hospitalization in patients with heart failure with reduced ejection fraction, 6, 499-507.

Tan, X.F., Shi, J.X., Chen, A.M. (2016). Prolonged and intensive medication use are associated with the obesity paradox after percutaneous coronary intervention: a systematic review and metaanalysis of 12 studies. BMC. Cardiovasc. Dis., 16, 125.

Xu, L., Ota, T. (2017). Emerging roles of SGLT2 inhibitors in obesity and insulin resistance: Focus on fat browning and macrophage polarization. Adipocyte, 7, 121-128.

Davies, M.J., D’Alessio, D.A., Fradkin, J. (2018). Management of hyperglycemia in type 2 diabetes, 2018. A consensus report by the American diabetes association (ADA) and the European association for the study of diabetes (EASD). Diabetes Care, 41, 2669-2701.

Downloads

Published

2023-02-28

How to Cite

Shved, M. I., & Ovsiichuk, R. M. (2023). EFFICIENCY OF ENDOTHELIAL DYSFUNCTION CORRECTION OF VESSELS IN THE PERI- AND POSTOPERATIVE PERIOD IN PATIENTS WITH ACUTE CORONARY SYNDROME ON THE BACKGROUND OF TYPE 2 DIABETES. Medical and Clinical Chemistry, (4), 18–26. https://doi.org/10.11603/mcch.2410-681X.2022.i4.13567

Issue

No. 4 (2022)

Section

ORIGINAL INVESTIGATIONS

License

Copyright (c) 2023 Medical and Clinical Chemistry

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.