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Отображение результатов 1 до 39 из 39
Дата публикацииНазваниеАвторы
2024Advances in Mass Spectrometry-Based Blood Metabolomics Profiling for Non-Cancer Diseases: A Comprehensive ReviewDemicheva, E.; Dordiuk, V.; Polanco, Espino, F.; Ushenin, K.; Aboushanab, S.; Shevyrin, V.; Buhler, A.; Mukhlynina, E.; Solovyova, O.; Danilova, I.; Kovaleva, E.
2021Anatomical Model of Rat Ventricles to Study Cardiac Arrhythmias under Infarction InjuryRokeakh, R.; Nesterova, T.; Ushenin, K.; Polyakova, E.; Sonin, D.; Galagudza, M.; De Coster, T.; Panfilov, A.; Solovyova, O.
2020Anisotropic conduction in the myocardium due to fibrosis: the effect of texture on wave propagationNezlobinsky, T.; Solovyova, O.; Panfilov, A. V.
2014The cardiac muscle duplex as a method to study myocardial heterogeneitySolovyova, O.; Katsnelson, L. B.; Konovalov, P. V.; Kursanov, A. G.; Vikulova, N. A.; Kohl, P.; Markhasin, V. S.
2018Classification Model of Heart Transplant Outcomes Based on Features of Left Ventricular Functional GeometryChumarnaya, T.; Bykov, A.; Idov, E. M.; Mikhaylov, S. P.; Solovyova, O.
2023Combination of personalized computational modeling and machine learning for optimization of left ventricular pacing site in cardiac resynchronization therapyDokuchaev, A.; Chumarnaya, T.; Bazhutina, A.; Khamzin, S.; Lebedeva, V.; Lyubimtseva, T.; Zubarev, S.; Lebedev, D.; Solovyova, O.
2018Comparison of Depolarization and Depolarization in Mathematical Models of the Left Ventricle and the Longitudinal Ventricular SliceBazhutina, A. E.; Khokhlova, A.; Ushenin, K. S.; Solovyova, O.
2023Compressor-Based Classification for Atrial Fibrillation DetectionMarkov, N.; Ushenin, K.; Bozhko, Y.; Solovyova, O.
2018Detailed Electromechanical Model of Ventricular WedgeKursanov, A.; Zverev, V.; Katsnelson, L.; Solovyova, O.
2012Distinctive features of the functional geometry of the left ventricle in newborn infantsIvanova, L.; Solovyova, O.; Kovtun, O.; Kraeva, O.; Philimonova, I.; Tsyvian, P.; Markhasin, V.
2020Drift of scrollwaves in a mathematical model of a heterogeneous human heart left ventriclePravdin, S.; Konovalov, P.; Dierckx, H.; Solovyova, O.; Panfilov, A. V.
2020Effects of Lead Position, Cardiac Rhythm Variation and Drug-induced QT Prolongation on Performance of Machine Learning Methods for ECG ProcessingBogdanov, M.; Baigildin, S.; Fabarisova, A.; Ushenin, K.; Solovyova, O.
2020The Effects of Mechanical Preload on Transmural Differences in Mechano-Calcium-Electric Feedback in Single Cardiomyocytes: Experiments and Mathematical ModelsKhokhlova, A.; Konovalov, P.; Iribe, G.; Solovyova, O.; Katsnelson, L.
2019Electromechanical coupling in cardiomyocytes depends on its electrotonic interaction with fibroblastsBazhutina, A.; Balakina-Vikulova, N.; Katsnelson, L.; Solovyova, O.
2022Generative Adversarial Networks for Construction of Virtual Populations of Mechanistic Models: Simulations to Study Omecamtiv Mecarbil ActionParikh, J.; Rumbell, T.; Butova, X.; Myachina, T.; Acero, J. C.; Khamzin, S.; Solovyova, O.; Kozloski, J.; Khokhlova, A.; Gurev, V.
2017Impact of inter-ventricular lead distance on cardiac resynchronization therapy outcomesChumarnaya, T.; Trifanova, M.; Lyubimtseva, T.; Lebedeva, V.; Poroshin, I.; Trukshina, M.; Lyasnikova, E.; Sitnikova, M.; Lebedev, D.; Solovyova, O.
2023The importance of mechanical conditions in the testing of excitation abnormalities in a population of electro-mechanical models of human ventricular cardiomyocytesDokuchaev, A.; Kursanov, A.; Balakina-Vikulova, N. A.; Katsnelson, L. B.; Solovyova, O.
2023In silico analysis of the contribution of cardiomyocyte-fibroblast electromechanical interaction to the arrhythmiaKursanov, A.; Balakina-Vikulova, N. A.; Solovyova, O.; Panfilov, A.; Katsnelson, L. B.
2018In Silico Comparison of Phase Maps Based on Action Potential and Extracellular PotentialUshenin, K.; Razumov, A.; Kalinin, V.; Solovyova, O.
2021Machine Learning Prediction of Cardiac Resynchronisation Therapy Response From Combination of Clinical and Model-Driven DataKhamzin, S.; Dokuchaev, A.; Bazhutina, A.; Chumarnaya, T.; Zubarev, S.; Lyubimtseva, T.; Lebedeva, V.; Lebedev, D.; Gurev, V.; Solovyova, O.
2013Mathematical model of the anatomy and fibre orientation field of the left ventricle of the heartPravdin, S. F.; Berdyshev, V. I.; Panfilov, A. V.; Katsnelson, L. B.; Solovyova, O.; Markhasin, V. S.
2023Mathematical Modelling of Leptin-Induced Effects on Electrophysiological Properties of Rat Cardiomyocytes and Cardiac ArrhythmiasNesterova, T.; Rokeakh, R.; Solovyova, O.; Panfilov, A.
2021Mathematical modelling of the mechano-electric coupling in the human cardiomyocyte electrically connected with fibroblastsBazhutina, A.; Balakina-Vikulova, N. A.; Kursanov, A.; Solovyova, O.; Panfilov, A.; Katsnelson, L. B.
2020Mechano-calcium and mechano-electric feedbacks in the human cardiomyocyte analyzed in a mathematical modelBalakina-Vikulova, N. A.; Panfilov, A.; Solovyova, O.; Katsnelson, L. B.
2018Mechano-Electric Feedbacks in a New Model of the Excitation-Contraction Coupling in Human CardiomyocytesBalakina-Vikulova, N.; Solovyova, O.; Panfilov, A.; Katsnelson, L.
2011Minimum Information about a Cardiac Electrophysiology Experiment (MICEE): Standardised reporting for model reproducibility, interoperability, and data sharingQuinn, T. A.; Granite, S.; Allessie, M. A.; Antzelevitch, C.; Bollensdorff, C.; Bub, G.; Burton, R. A. B.; Cerbai, E.; Chen, P. S.; Delmar, M.; DiFrancesco, D.; Earm, Y. E.; Efimov, I. R.; Egger, M.; Entcheva, E.; Fink, M.; Fischmeister, R.; Franz, M. R.; Garny, A.; Giles, W. R.; Hannes, T.; Harding, S. E.; Hunter, P. J.; Iribe, G.; Jalife, J.; Johnson, C. R.; Kass, R. S.; Kodama, I.; Koren, G.; Lord, P.; Markhasin, V. S.; Matsuoka, S.; McCulloch, A. D.; Mirams, G. R.; Morley, G. E.; Nattel, S.; Noble, D.; Olesen, S. P.; Panfilov, A. V.; Trayanova, N. A.; Ravens, U.; Richard, S.; Rosenbaum, D. S.; Rudy, Y.; Sachs, F.; Sachse, F. B.; Saint, D. A.; Schotten, U.; Solovyova, O.; Taggart, P.; Tung, L.; Varro, A.; Volders, P. G.; Wang, K.; Weiss, J. N.; Wettwer, E.; White, E.; Wilders, R.; Winslow, R. L.; Kohl, P.
2020Model order reduction for left ventricular mechanics via congruency trainingDi, Achille, P.; Parikh, J.; Khamzin, S.; Solovyova, O.; Kozloski, J.; Gurev, V.
2020Myocardial fibrosis in a 3D model: Effect of texture on wave propagationDokuchaev, A.; Panfilov, A. V.; Solovyova, O.
2018New Mathematical Model of Electromechanical Coupling in Rat CardiomyocytesKatsnelson, L. B.; Konovalov, P.; Solovyova, O.
2021Parameter variations in personalized electrophysiological models of human heart ventriclesUshenin, K.; Kalinin, V.; Gitinova, S.; Sopov, O.; Solovyova, O.
2022Peculiarities of the Acetylcholine Action on the Contractile Function of Cardiomyocytes from the Left and Right Atria in RatsButova, X.; Myachina, T.; Simonova, R.; Kochurova, A.; Bozhko, Y.; Arkhipov, M.; Solovyova, O.; Kopylova, G.; Shchepkin, D.; Khokhlova, A.
2021Period of Arrhythmia Anchored Around an Infarction Scar in an Anatomical Model of the Human VentriclesMangileva, D.; Konovalov, P.; Dokuchaev, A.; Solovyova, O.; Panfilov, A. V.
2017Role of myocardial properties and pacing lead location on ECG in personalized paced heart modelsUshenin, K. S.; Dokuchaev, A.; Magomedova, S. M.; Sopov, O. V.; Kalinin, V. V.; Solovyova, O.
2021Rotational Activity Around an Obstacle in 2d Cardiac Tissue in Presence of Cellular HeterogeneityKonovalov, P.; Mangileva, D.; Dokuchaev, A.; Solovyova, O.; Panfilov, A. V.
2015Teaching heart modeling and simulation on parallel computing systemsSozykin, A.; Chernoskutov, M.; Koshelev, A.; Zverev, V.; Ushenin, K.; Solovyova, O.
2018Transmural cellular heterogeneity in myocardial electromechanicsKhokhlova, A.; Balakina-Vikulova, N.; Katsnelson, L.; Iribe, G.; Solovyova, O.
2022Type 1 Diabetes Impairs Cardiomyocyte Contractility in the Left and Right Ventricular Free Walls but Preserves It in the Interventricular SeptumKhokhlova, A.; Myachina, T.; Volzhaninov, D.; Butova, X.; Kochurova, A.; Berg, V.; Gette, I.; Moroz, G.; Klinova, S.; Minigalieva, I.; Solovyova, O.; Danilova, I.; Sokolova, K.; Kopylova, G.; Shchepkin, D.
2023Unsupervised deep network for image texture transformation: Improving the quality of cross-correlation analysis and mechanical vortex visualisation during cardiac fibrillationMangileva, D.; Kursanov, A.; Katsnelson, L.; Solovyova, O.
2018Исследование перегрузки кардиомиоцитов кальцием на одномерной модели мышечного волокна. Влияние пространственного распределения патологииNesterova, T. M.; Ushenin, K. S.; Balakina-Vikulova, N. A.; Solovyova, O.; Нестерова, Т. М.; Ушенин, К. С.; Балакина-Викулова, Н. А.; Соловьева, О. Э.
Отображение результатов 1 до 39 из 39