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Clinical Trial Summary

The study focuses on the development of a new personalized approach to diagnostics and surgical treatment of patients with ischemic cardiomyopathy. The algorithm for selection of patients for certain type of cardiac surgery will be developed. The models for prediction of the risks and outcomes of cardiac surgery will be elaborated to reduce the rate of complications in the early and long-term postoperative period in patients with ischemic cardiomyopathy. Imaging modalities, methods for assessement of structural and functional state of the myocardium, biochemistry testing, immunohistochemical examination, and myocardial biopsy studies will be used to achieve these goals.


Clinical Trial Description

The aim of the study is to develop a new personalized approach to diagnostics and surgical treatment of patients with ischemic cardiomyopathy. Research Objectives: 1. To assess the prognostic values of scintigraphic indicators of myocardial perfusion, contractility, and metabolism in patients with ischemic cardiomyopathy in regard to the development of cardiac remodeling and adverse cardiovascular events in the mid term after surgery. 2. To assess the prognostic values of parameters of cardiac magnetic resonance imaging (cMRI) allowing to predict the risks of surgical intervention and chronic heart failure progression in patients with ischemic cardiomyopathy. 3. To analyze the relationships between the structural and functional state of the myocardium and the effectiveness of various types of surgery in patients with ischemic cardiomyopathy. The structural and functional state of the myocardium is assessed by the instrumental methods including myocardial scintigraphy, cMRI, stress echocardiography, spiroergometry, and intraoperative fluometry. 4. To identify the myocardial biopsy-based predictors of adverse outcome in patients with ischemic cardiomyopathy in the early and mid term postoperative period in patients with ischemic cardiomyopathy. 5. To study the relationships between tissue and molecular biomarkers, severity of ischemic cardiomyopathy, and the outcomes in patients with ischemic cardiomyopathy in the postoperative period. 6. To introduce new and to optimize existing methods of surgical treatment in patients with ischemic cardiomyopathy. 7. To develop an algorithmic model for assessing the risks and predicting outcomes of surgical intervention in patients with ischemic cardiomyopathy in the postoperative period. Methods: 1. Clinical status of the patient: collection of complaints, medical history, physical examination, assessment of anthropometric indicators (measurement of body weight, height, BMI), and demographic indicators before and in the control period after surgical treatment. 2. General clinical examination: standard 12-lead ECG, general urine analysis, general blood analysis, blood chemistry, coagulation, chest x-ray, ultrasound of the carotid and femoral arteries. 3. Echocardiography: determination of the type of aneurysm according to Di Donato; measuring the distance between the papillary muscles of the left ventricle; assessing the depth of co-optation of the mitral valve cusps; measuring Vena contracta; measuring the radius of the proximal regurgitation zone, cm; Effective Regurgitant Orifice Area (EROA, cm2); assessing systolic index and sphericity index. Stress echocardiography with dobutamine. Before stress echocardiography on a Vivid E9 ultrasound system (GE, Healthcare), continuous intravenous administration of dobutamine HEXAL, starting from 5 μg/kg/min and increasing its dose every 3 minutes to 10, 15, 20, 30, and 40 μg/kg. 4. Coronarography for assessing the anatomy and condition of the coronary pool using an angiographic unit (Axiom Artis/Innova 2121-IQ (General Electric, USA)). 5. Contrast-enhanced cMRI to assess the following parameters: - mass of viable left ventricular myocardium; - volumes of cardiac cavities; - diameter of the mitral and tricuspid valve rings with the determination of regurgitation degree; - the long axis of the ventricle; - left ventricular ejection fraction; - visualization of akinetic and hypokinetic myocardium; - the presence of blood clots in the cavities of the heart; 6. Six-minute walk test. 7. Spiroergometry by SCHILLER complex with a GanshornPowerCube gas analyzer. 8. Determination of the plasma and serum levels of the NT-proBNP, endothelin-1, troponin I, galectin-3, ST-2, matrix metalloproteinases (MMP) 2 and 9, and C-reactive protein. 9. Evaluation of myocardial perfusion by single-photon emission computed tomography using radiopharmaceuticals 199 Tl chloride or 99m Tc. Myocardial perfusion scintigraphy with Tc-methoxyisobutylisonitrile (99mTc-MIBI) and iodine-123-labeled iodine-123-phenylmethylmethylene diode and metabolic scintigraphy with 123I-FMPDKc. Stress ventriculography with 99-Tc-pyrophosphate by GKS-301T gamma camera (VNIIMP-VITA, Russia). 10. Intraoperative fluometry of coronary grafts during coronary artery bypass grafting using the Medistim VeriQ System. 11. Myocardial biopsy: it is planned to take myocardial biopsy samples in patients with ischemic cardiomyopathy intraoperatively. In case of aneurysmectomy, myocardial biopsy will be sampled in the middle left ventricular (LV) parts of the anterior, posterior, lateral walls and the endocardium, the wall of the aneurysm and the portion of the right atrial appendage, the right atrial appendage in the absence of aneurysmectomy. The preparation of histological samples will be carried out in a standard way: fixation of biopts in formalin with further filling in a paraffin medium and staining with hematoxylin and eosin with determination of morphometric indicators. For histochemical reactions, biopsy samples freshly frozen in liquid nitrogen will be used. The enzymatic activity of succinant dehydrogenase (LDH), lactate dehydrogenase (LDH), and 3-hydroxybutyrate dehydrogenase (3-HBDH) will be studied using the Lojda tetrazolium method according to the intensity of staining of the structure using the ImageJ program (NIH, USA). 12. Statistical processing of data: Structured collection of patient data will be performed in a database formed on the platform of the Microsoft Excel 2010 software (Microsoft Corp., USA). Statistical processing of the results will be carried out using the SPSS 23.0 for Windows software package (IBM Corp., Armonk, NY, USA). The normality of the law of distribution of quantitative indicators will be checked using the Shapiro-Wilks criterion. Normally distributed parameters will be presented as mean value (M) and standard deviation (StD) in the form M ± StD; not normally distributed parameters will be presented as median (Me) and the 1st and 3rd interquantile intervals (Q25 - Q75) in the form of Me [Q25; Q75]. Qualitative data will be described by the frequency of occurrence or its percentage. To find statistical dependences, to determine their strength and direction, the Pearson correlation coefficient (r) (for normally distributed parameters) and Spearman correlation coefficient (for for not normally distributed parameters and for qualitative indicators in the ordinal scale) will be calculated. Using logistic regression, significant predictors will be identified for the values of reverse remodeling in the long term after surgical treatment. When conducting a multivariate analysis of interconnections, first, by means of a univariate analysis, the main parameters that influence the studied value will be identified, then, based on the search for intergroup correlations, the signs that have a moderate or strong relationship will be eliminated, and multivariate modeling of the relationships will be performed. Survival analysis will be performed using the Kaplan-Meier method. All statistics will be considered significant at p <0.05. During the work, the methods of statistical analysis can be revised and (or) supplemented. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04489355
Study type Observational
Source Tomsk National Research Medical Center of the Russian Academy of Sciences
Contact
Status Active, not recruiting
Phase
Start date January 28, 2013
Completion date May 1, 2024

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