of VIIIth Conference

V.Volpert (Université Lyon 1, Laboratoire Poncelet, Moscow). Reactiondiffusion waves in biological applications.

A.Meyerhans (Universitat Pompeu Fabra, Barselona). Regulation and manipulation of virus infection fates

G.Bocharov (INM, Moscow). Systems approach to immunology

S.Simakov (MIPT, INM, Moscow). Numerical modeling of blood flow: applications to predictive endovascular surgery

T.Gamilov (MIPT, Moscow). Computational simulations of the results of carotid stenosis treatment based on patientspecific data

A.Golov (MIPT, Moscow). Multiscale CTbased computational modeling of obstructive pulmonary diseases

A.Khe, V.Liapidevskii, A.Chesnokov (Institute of Hydrodynamics, Novosibirsk). Mathematical model of a fluid flow in collapsible tubes

A.Svitenkov, P.Zun, O.Rekin (ITMO University, St. Petersburg). Parameters of boundary conditions for detailed 1D arterial blood flow model

T.Dobroserdova (INM, MIPT, Moscow). Coupling of 1D and 3D blood flow models

T.Galochkina (Université Lyon 1).
Existence, stability and speed of the traveling wave solutions in the mathematical model of blood coagulation

A.Bouchnita (Université Lyon 1). Clot growth regimes for blood coagulation in blood flow

A.Lobanov, A.Andreeva, A.Nikolaev (MIPT, Moscow). Pointwise mathematical model of fibrin polymerization

M. Marion (Ecole Centrale de Lyon). Pulses and waves for reactiondiffusion systems

A.Lozovskiy (INM, Moscow). The unconditionally stable semiimplicit ALE finite element scheme for fluidstructure interaction

I.Konshin, Yu.Vassilevski (INM, Moscow), M.Olshanskii (University of Houston). . Iterative solution of Oseen linear systems and applications to coronary blood flows

A.Chernyshenko (INM, Moscow), M.Olshanskii (University of Houston). Numerical methods for biomedical problems posed on surfaces and bulksurface coupled problems

A.Aksenov, A.Schelyaev (Tesis, Moscow). The Living Heart Project

A.Danilov (INM, MIPT, Moscow). Numerical techniques for bioimpedance and ECG modelling

V.Zverev (Ural Federal Univ.), S.Pravdin, L.Katsnelson, O.Solovyova (Institute of Immunology and Physiology, Ural Federal Univ., Ekaterinburg) Modeling of miocard mechanical function: from tissue model to organ model

S.Fedotov (University of Manchester). NonMarkovian models of intracellular transport

K.Novikov (Moscow State University). The role of spatial traits of microtubule network in endosomal trafficking

J.Clairambault (Université Paris 6). Drug resistance in cancer: an evolutionary perspective on cancer, with applications to anticancer drug resistance modelling and perspectives in therapeutic control

C.Pouchol (Université Paris 6). Phenotypestructured equations: asymptotic analysis and optimal control

D.Onishchenko (M&S Decisions, Moscow), J. Dunyak, N. AlHuniti (AstraZeneca, Boston, US). Dynamic predictions of overall survival in nonsmall cell lung cancer using tumor sizes: a longitudinal joint modeling approach

A.Stephanou (Université de Grenoble). A hybrid multiscale computational framework to personalize and optimize cancer therapy

A.Kolobov, M.Kuznetsov (Lebedev Physical Institute, Moscow). Influence of interstitial fluid dynamics on growth and therapy of angiogenic tumor

M.Kuznetsov, A.Kolobov (Lebedev Physical Institute, Moscow). Mathematical modeling of angiogenic tumor growth with account of oxygen and glucose balance in tissue

V.Voronova (M&S Decisions, Moscow). Modelling of GLP1 and its analogues effect on food digestion in gastrointestinal tract

T.Yakovleva (M&S Decisions, Moscow). A systems pharmacology model of SGLT2 and SGLT1 inhibition to understand mechanism and quantification of urinary glucose excretion after treatment with dapagliflozin, canagliflozin and empagliflozin

V.Maryakhina (Orenburg State Univ.). Numerical simulation of the delayed fluorescence kinetics of xanthene dyes in alive mammalian cells

A. Bratus (Moscow State University), Y.Semenov (Moscow Univ. of Railway Engineering), A.Novozhilov (North Dakota State University). Error threshold in eigen’s quasispecies model evolution of macromolecules

A.Zhmurov, K.Minin, V.Barsegov (MIPT, Moscow), N.Zhmurova (Ryazan State Univ.). Study of nanomechanics of αsupercoils by molecular modeling methods.

A.Dokuchaev, E.Shikhaleva, T.Sulman, L.Katsnelson (Institute of Immunology and Physiology, Ekaterinburg). Mathematical modeling of contractile and regulatory proteins cooperation in myocard mechanocalcium feedback.

A.Cherevko (Institute of Hydrodynamics, Novosibirsk). MRI methods of cerebral vasculature reconstruction on the example of small laboratory animals.

K.Beklemysheva, A.Vasyukov, A.Kazakov (MIPT, Moscow). Numerical modeling of transcranial ultrasound.

E.Kislukhina (Institute of Emergency, Moscow). Interpretation and processing of laserdoppler flowgrams.

A.Yurova (Moscow State Univ.). Analysis of texture features of CTimages in abdomen organs segmentation .

R.Pryamonosov (INM, Moscow). Patientoriented graph network reconstruction of coronary arteries.

I.Gaynova (Institute of Mathematics, Novosibirsk). Development of optimal treatment strategies for HIV infection by mathematical methods.

A.Mozokhina, S.Mukhin (Moscow State Univ.). Modeling of lymph flow in the whole net of lymphatic vessels.

D.Grebennikov (MIPT, Moscow). Modelling the structure and functioning of the reticular network in lymph node.

R.Tretyakova (Moscow State Univ.). Modelling the lymph flow through the conduit network of lymph node.

K.Shilnikov, N.Kudryashov (Moscow Engineering Physics Institute). Mathematical modeling of cryogenic processes in biotissues and optimization of the cryosurgery operations.

D.Sarancha (Computing Center RAS, Moscow). On adequateness of mathematical models (ecological example).

V.Razzhevaikin (Computing Center RAS, Moscow). Instability in biological society models and extended Gause’s principle.

N.Pertsev (Institute of Mathematics, Omsk). Correctness of mathematical models of the alive systems described by delay differential equations.

V.Leonenko, S.Ivanov (ITMO University, St. Petersburg). The problems of influenza peak forecasting in Russian cities by means of SEIR models.

S.Rudnev (INM, Moscow). Health centers: possibilities for epidemiological monitoring and data quality control .

O.Starunova (Health Institute, Moscow). Information computing technology for analysis of preventive screening data in health centers.

A.Yanchenko (Institute of Hydrodynamics, Novosibirsk). Mathematical modeling of hemodynamics based on hyperbolic thermodynamically consystent systems of conservation laws.

E.Bord (Novosibirsk State Univ.), A.Cherevko (Institute of Hydrodynamics, Novosibirsk). Nyquist diagram bifurcations for generalized Van der Pol Duffing equation describing local cerebral hemodynamics

T.Gologush (Novosibirsk State Univ.), V.Ostapenko (Institute of Hydrodynamics, Novosibirsk), I.Petrenko (Vladimir State Univ.). Modeling and optimization the process of embolization on the bazis of twophase filtration model.

V.Kislukhin (Medisonic, Moscow). Marcovian chain as explanation of actively circulating bulk of blood.

Y.Naing So (MIPT, Moscow). Computational model of twophase transport of transmembrane peptides by blood flow.