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Отображение результатов 11 до 30 из 44 < назад   дальше >
Дата публикацииНазваниеАвторы
2021Finding Type and Location of the Source of Cardiac Arrhythmias from the Averaged Flow Velocity Field Using the Determinant-trace MethodLi, Q. -H.; Van Nieuwenhuyse, E.; Xia, Y. -X.; Pan, J. -T.; Duytschaever, M.; Knecht, S.; Vandersickel, N.; Zhou, C.; Panfilov, A. V.; Zhang, H.
2017Flatness-Based Control Approach to Drug Infusion for Cardiac Function RegulationRigatos, G.; Zervos, N.; Melkikh, A.
2021Generation of echocardiographic 2D images of the heart using cGANZyuzin, V.; Komleva, J.; Porshnev, S.
2021High-frequency pacing of scroll waves in a three-dimensional slab model of cardiac tissuePravdin, S. F.; Nezlobinsky, T. V.; Panfilov, A. V.; Dierckx, H.
2018The impact of cardiac tissue anisotropy on spiral wave superseding: A simulation study using ionic cell modelsEpanchintsev, T. I.; Pravdin, S. F.; Panfilov, A. 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.
2020In silico optical control of pinned electrical vortices in an excitable biological mediumMajumder, R.; Zykov, V. S.; Panfilov, A. V.
2019(INVITED) Reaction–diffusion waves in cardiovascular diseasesPanfilov, A. V.; Dierckx, H.; Volpert, V.
2019The lack of slow force response in failing rat myocardium: role of stretch-induced modulation of Ca–TnC kineticsLookin, O.; Protsenko, Y.
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.
2022Methods of Signal Analysis for Automatic Diagnosis of Shockable Cardiac Arrhythmias: A ReviewLipchak, D. A.; Chupov, A. A.; Zhdanov, A. E.; Borisov, V. I.
2016Parallel Simulation of Scroll Wave Dynamics in the Human Heart Using the FEniCS FrameworkEpanchintsev, T.; Pravdin, S.; Sozykin, A.; Zverev, V.
2020Phase Mapping for Cardiac Unipolar Electrograms with Neural Network Instead of Phase TransformationUshenin, K.; Nesterova, T.; Smarko, D.; Sholokhov, V.
2021Phenanthrene alters the electrical activity of atrial and ventricular myocytes of a polar fish, the Navaga codAbramochkin, D. V.; Kompella, S. N.; Shiels, H. A.
2019R-From-T as a Common Mechanism of Arrhythmia Initiation in Long QT SyndromesLiu, M. B.; Vandersickel, N.; Panfilov, A. V.; Qu, Z.
2017Remote photoplethysmography for the neuro-electrostimulation procedures monitoring the possibilities of remote photoplethysmography application for the analysis of high frequency parameters of heart rate variabilityKublanov, V.; Purtov, K.; Belkov, D.
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.
2021Scroll wave with negative filament tension in a model of the left ventricle of the human heart and its overdrive pacingPravdin, S. F.; Epanchintsev, T. I.; Dierckx, H.; Panfilov, A. V.
2019Self-organization of conducting pathways explains electrical wave propagation in cardiac tissues with high fraction of nonconducting cellsKudryashova, N.; Nizamieva, A.; Tsvelaya, V.; Panfilov, A. V.; Agladze, K. I.
2022Spiral wave drift under optical feedback in cardiac tissueXia, Y. -X.; Zhi, X. -P.; Li, T. -C.; Pan, J. -T.; Panfilov, A. V.; Zhang, H.
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