- Rubin Aliev (Moscow Institute of Physics and Technology) Computer simulations of electrical activity in the SAN
- Alexander Cherevko (Lavrentyev Institute of Hydrodynamics RAS) Сerebral aneurysm blood vessel unsteady hemodynamic simulation
- Alexander Danilov (Institute of Numerical Mathematics RAS) High resolution human body computational models
- Tatiana Dobroserdova (Institute of Numerical Mathematics RAS) Numerical simulation of blood flow in the vascular network with pathologies or implants
- Timur Gamilov (Moscow Institute of Physics and Technology) Modelling of passive blood flow stimulation
- Hao Gao (University of Glasgow) Fluid structure interaction of left ventricle modelling from diastole to systole based on in-vivo CMR
- Yuri Ivanov (Institute of Numerical Mathematics RAS) Patient specific reconstruction of vascular network for haemodynamic modelling
- Alexander Khe (Lavrentyev Institute of Hydrodynamics RAS) Time series analysis using persistent homology methods
- Yulia Korneva (Smolensk State Medical Academy) Morphometric parameters of myocardium as substrate for mathematical modeling of myocardial infarction healing
- Vasily Kramarenko (Moscow Institute of Physics and Technology) Natural user interfaces for mathematical models dealing with real human anatomy
- Dmitry Kulikov (Moscow Regional Research & Clinical Institute “MONIKI”) Development of the method for evaluating the status of blood microcirculation system and the risk of microvascular complications development at diabetes mellitus based on optical spectroscopy
- Alexander Kursanov (Institute of Immunology and Physiology RAS) Effect of mechanical factors on rhythm disturbances in mathematical model of cardiac fiber with local Ca2+-overloading
- Denis Lapitan (Moscow Regional Research & Clinical Institute “MONIKI”) Development of backscattered optical radiation model for measuring parameters of the blood microcirculation system
- Svetlana Maltseva (Sobolev Institute of Mathematics RAS) Reconstruction of the mouse brain vasculature according to the tomographic data
- Sergey Mukhin (Lomonosov Moscow State University) Hemodynamic modeling: fundamental and practical approaches
- Elena Pogorelova (Center for Theoretical Problems of Physicochemical Pharmacology RAS) A mathematical model for blood clot growth based on “advection—diffusion” equations
- Aleksey Rukhlenko (Moscow Institute of Physics and Technology) Mathematical modeling of blood coagulation processes in intensive blood flow conditions
- Igor Sazonov (Swansea University) Constructing geometries for the patient specific modelling
- Victoria Salamatova (Moscow Institute of Physics and Technology) Modelling of soft tissue deformation
- Sergey Simakov (Moscow Institute of Physics and Technology) Computational haemodynamics for clinical practice
- Svyatoslav Solodushkin (Ural Federal University) Statistical analysis of predictors of myocardial infarction after total hip replacement in patients over 60 years
- Fedor Syomin (Lomonosov Moscow State University) A cylindrical model of contraction of left ventricle of the heart
- Roman Syunyaev (Institute of Theoretical and Experimental Biophysics RAS) Computer simulations of reentrant activity in SAN
- Aleksey Tokarev (National Research Centre for Hematology) Erythrocytes – platelets – fibrin mesh interactions in blood flow as basic elements of the hemostatic and thrombotic processes
- Andrey Tsaturyan (Lomonosov Moscow State University) Long-term Russian-British collaboration in studying structure-function relation in muscle
- Yuri Vassilevski (Institute of Numerical Mathematics RAS) Working group on mathematical models and numerical methods in biomathematics