Hydrodynamical activation of blood coagulation in stenosed vessels. Theoretical analysis

Hydrodynamical activation of blood coagulation in stenosed vessels. Theoretical analysis

The mechanisms of hydrodynamical activation of blood coagulation system are investigated in stenosed vessels for a wide range of Reynolds number values (from 10 up to 500). It is assumed that the vessel wall permeability for procoagulant factors rapidly increases when wall shear stress exceeds speci...

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Main Authors: Aleksey Sergeevich Rukhlenko, Ksenia Evgenyevna Zlobina, Georgy Theodorovich Guria
Format: Article
Language:Russian
Published: Institute of Computer Science 2012-03-01
Series:Компьютерные исследования и моделирование
Subjects:
mathematical modeling
blood coagulation
vessel stenosis
pattern formation
Online Access:http://crm.ics.org.ru/uploads/crmissues/crm_2012_1/12114.pdf
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spelling doaj-563a535e1b4e4b98ade03f6668a639542020-11-24T21:26:59ZrusInstitute of Computer ScienceКомпьютерные исследования и моделирование2076-76332077-68532012-03-014115518310.20537/2076-7633-2012-4-1-155-1831865Hydrodynamical activation of blood coagulation in stenosed vessels. Theoretical analysisAleksey Sergeevich RukhlenkoKsenia Evgenyevna ZlobinaGeorgy Theodorovich GuriaThe mechanisms of hydrodynamical activation of blood coagulation system are investigated in stenosed vessels for a wide range of Reynolds number values (from 10 up to 500). It is assumed that the vessel wall permeability for procoagulant factors rapidly increases when wall shear stress exceeds specific threshold value. A number of patterns of blood coagulation processes development are described. The influence of blood flow topology changes on activation of blood coagulation is explored. It is established that not only blood flow decrease, but also its increase may promote activation of blood coagulation. It was found that dependence of thrombogenic danger of stenosis on vessel lumen blockage ratio is non-monotonic. The relevance of obtained theoretical results for clinical practice is discussed.http://crm.ics.org.ru/uploads/crmissues/crm_2012_1/12114.pdfmathematical modelingblood coagulationvessel stenosispattern formation
collection DOAJ
language Russian
format Article
sources DOAJ
author Aleksey Sergeevich Rukhlenko
Ksenia Evgenyevna Zlobina
Georgy Theodorovich Guria
spellingShingle Aleksey Sergeevich Rukhlenko
Ksenia Evgenyevna Zlobina
Georgy Theodorovich Guria
Hydrodynamical activation of blood coagulation in stenosed vessels. Theoretical analysis
Компьютерные исследования и моделирование
mathematical modeling
blood coagulation
vessel stenosis
pattern formation
author_facet Aleksey Sergeevich Rukhlenko
Ksenia Evgenyevna Zlobina
Georgy Theodorovich Guria
author_sort Aleksey Sergeevich Rukhlenko
title Hydrodynamical activation of blood coagulation in stenosed vessels. Theoretical analysis
title_short Hydrodynamical activation of blood coagulation in stenosed vessels. Theoretical analysis
title_full Hydrodynamical activation of blood coagulation in stenosed vessels. Theoretical analysis
title_fullStr Hydrodynamical activation of blood coagulation in stenosed vessels. Theoretical analysis
title_full_unstemmed Hydrodynamical activation of blood coagulation in stenosed vessels. Theoretical analysis
title_sort hydrodynamical activation of blood coagulation in stenosed vessels. theoretical analysis
publisher Institute of Computer Science
series Компьютерные исследования и моделирование
issn 2076-7633
2077-6853
publishDate 2012-03-01
description The mechanisms of hydrodynamical activation of blood coagulation system are investigated in stenosed vessels for a wide range of Reynolds number values (from 10 up to 500). It is assumed that the vessel wall permeability for procoagulant factors rapidly increases when wall shear stress exceeds specific threshold value. A number of patterns of blood coagulation processes development are described. The influence of blood flow topology changes on activation of blood coagulation is explored. It is established that not only blood flow decrease, but also its increase may promote activation of blood coagulation. It was found that dependence of thrombogenic danger of stenosis on vessel lumen blockage ratio is non-monotonic. The relevance of obtained theoretical results for clinical practice is discussed.
topic mathematical modeling
blood coagulation
vessel stenosis
pattern formation
url http://crm.ics.org.ru/uploads/crmissues/crm_2012_1/12114.pdf
work_keys_str_mv AT alekseysergeevichrukhlenko hydrodynamicalactivationofbloodcoagulationinstenosedvesselstheoreticalanalysis
AT kseniaevgenyevnazlobina hydrodynamicalactivationofbloodcoagulationinstenosedvesselstheoreticalanalysis
AT georgytheodorovichguria hydrodynamicalactivationofbloodcoagulationinstenosedvesselstheoreticalanalysis
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