haemodynamics

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haemodynamics [2016/05/20 14:28]
Tatyana Dobroserdova
haemodynamics [2018/07/26 13:08] (current)
Admin
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 Touchpad for work with models and for visualization of results. Touchpad for work with models and for visualization of results.
  
-{{flowplayer>playground:​blood-flow.mp4 240,320 autoBuffering}} +{{youtube>ger-MRVgTxA?​size=240x320&​autoplay=1&​rel=0}}\\
- +
-{{flowplayer>​playground:​blood-pressure.mp4 360,240 autoBuffering}} +
-{{flowplayer>​playground:​blood-velocity.mp4 360,240 autoBuffering}}+
  
 +{{youtube>​HNHGxhxhF5w?​size=360x240&​autoplay=1&​rel=0}}
 +{{youtube>​bZBhWqChus8?​size=360x240&​autoplay=1&​rel=0}}\\
  
 **Team members:** **Team members:**
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 [[http://​www.math.uh.edu/​~molshan/​|Maxim Olshanskii]] ([[http://​www.uh.edu|University of Houston]]), [[http://​www.math.uh.edu/​~molshan/​|Maxim Olshanskii]] ([[http://​www.uh.edu|University of Houston]]),
 Salamatova Victoria (SEC INM RAS), Salamatova Victoria (SEC INM RAS),
-Ivanov Yuri (INM RAS), 
 Dobroserdova Tatiana (MSU), Dobroserdova Tatiana (MSU),
 Kramarenko Vasiliy (MIPT), Kramarenko Vasiliy (MIPT),
-Gamilov Timur (MIPT)+Gamilov Timur (MIPT), 
 +Pryamonosov Roman (INM RAS)
  
 **Working group on mathematical models and numerical methods in biomathematics** **Working group on mathematical models and numerical methods in biomathematics**
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 **Publications on haemodynamics:​** **Publications on haemodynamics:​**
 +
 +{{::​fld_4241_rev_ev.pdf|T.Dobroserdova,​ M.Olshanskii,​ S.Simakov. Multiscale
 +coupling of compliant and rigid walls blood
 +flow models. Int. J. Numer. Meth. Fluids, Volume 82, Issue 12, 2016, pages 799–817
 +doi: 10.1002/​fld.4241 (2016).}}
  
 {{::​gamilov_mini_blood_final.pdf|Computational simulations of fractional flow reserve variability. {{::​gamilov_mini_blood_final.pdf|Computational simulations of fractional flow reserve variability.
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    (M. Papadrakakis,​ V. Papadopoulos,​ G. Stefanou, V. Plevris eds.) 2016 }}    (M. Papadrakakis,​ V. Papadopoulos,​ G. Stefanou, V. Plevris eds.) 2016 }}
  
-{{::​FFR_paper_eng.pdf|S.S. Simakov, T.M. Gamilov, Ph.Yu.Kopylov,​ Yu.V.Vassilevski+{{::​FFR_paper_eng.pdf|S.S.Simakov,​ T.M.Gamilov,​ Ph.Yu.Kopylov,​ Yu.V.Vassilevski
 Computational study of multivessel coronary disease: Computational study of multivessel coronary disease:
 haemodynamic significance of stenoses in simulation. haemodynamic significance of stenoses in simulation.
-Bulletin of experimental biology and medicine. 2016. }}+Bulletin of experimental biology and medicine, 162(7), 128-131, 2016 }} 
 + 
 +{{http://​www.mmnp-journal.org/​articles/​mmnp/​pdf/​2016/​01/​mmnp2016111p1.pdf|  
 +N.Bessonov, A.Sequeira, S.Simakov, Yu.Vassilevski,​ V.Volpert,  
 +Methods of Blood Flow Modelling. 
 +Mathematical Modelling of Natural Phenomena, 11(1), 1-25, 2016 }}
  
 {{::​TerArchive.pdf|Ph.Kopylov,​ A.Bykova, Yu.Vassilevski,​ S.Simakov. {{::​TerArchive.pdf|Ph.Kopylov,​ A.Bykova, Yu.Vassilevski,​ S.Simakov.
haemodynamics.1463754537.txt.gz · Last modified: 2016/05/20 14:28 by Tatyana Dobroserdova