Standard

Pipeline for CT-based modeling of patient specific hemodynamics in coronary vessels. / Pavlyuk, Eugeny V.; Starodumov, Ilya o.; Sokolov, Sergey yu. и др.
AIP Conference Proceedings: book. ред. / V.P. Matveenko; P.V. Trusov; A.Y. Yants; V.A. Faerman. Том Том 2627 2023. 060003 (AIP Conference Proceedings).

Результаты исследований: Глава в книге, отчете, сборнике статейМатериалы конференцииРецензирование

Harvard

Pavlyuk, EV, Starodumov, IO, Sokolov, SY & Blyakhman, FA 2023, Pipeline for CT-based modeling of patient specific hemodynamics in coronary vessels. в VP Matveenko, PV Trusov, AY Yants & VA Faerman (ред.), AIP Conference Proceedings: book. Том. Том 2627, 060003, AIP Conference Proceedings, 30th Russian Conference on Mathematical Modelling in Natural Sciences, RuMoNaS 2021, Пермь, Российская Федерация, 06/10/2021. https://doi.org/10.1063/5.0117797

APA

Pavlyuk, E. V., Starodumov, I. O., Sokolov, S. Y., & Blyakhman, F. A. (2023). Pipeline for CT-based modeling of patient specific hemodynamics in coronary vessels. в V. P. Matveenko, P. V. Trusov, A. Y. Yants, & V. A. Faerman (Ред.), AIP Conference Proceedings: book (Том Том 2627). [060003] (AIP Conference Proceedings). https://doi.org/10.1063/5.0117797

Vancouver

Pavlyuk EV, Starodumov IO, Sokolov SY, Blyakhman FA. Pipeline for CT-based modeling of patient specific hemodynamics in coronary vessels. в Matveenko VP, Trusov PV, Yants AY, Faerman VA, Редакторы, AIP Conference Proceedings: book. Том Том 2627. 2023. 060003. (AIP Conference Proceedings). doi: 10.1063/5.0117797

Author

Pavlyuk, Eugeny V. ; Starodumov, Ilya o. ; Sokolov, Sergey yu. и др. / Pipeline for CT-based modeling of patient specific hemodynamics in coronary vessels. AIP Conference Proceedings: book. Редактор / V.P. Matveenko ; P.V. Trusov ; A.Y. Yants ; V.A. Faerman. Том Том 2627 2023. (AIP Conference Proceedings).

BibTeX

@inproceedings{2d3c5df8bb774945b5fe3b4af537da4d,
title = "Pipeline for CT-based modeling of patient specific hemodynamics in coronary vessels",
abstract = "Currently, the methods of computational fluid dynamics are often used in the clinic to assess the significance of coronary artery stenoses. This approach requires obtaining the 3D geometry of the vessel under study for subsequent use in modeling the movement of blood through it. This article offers a new approach for constructing a 3D model of an artery, based on the volume of fluid (VOF) function methodology, and not on constructing a three-dimensional mesh of the vessel surface. The results of multispiral CT of the heart and its surrounding vessels were used as initial data. A pipeline is presented for obtaining the VOF function of an artery section with stenosis according to CT data.",
author = "Pavlyuk, {Eugeny V.} and Starodumov, {Ilya o.} and Sokolov, {Sergey yu.} and Blyakhman, {Felix a.}",
note = "The authors thank the Russian Science Foundation (project no. 20-61-46013) for the support.; 30th Russian Conference on Mathematical Modelling in Natural Sciences, RuMoNaS 2021 ; Conference date: 06-10-2021 Through 09-10-2021",
year = "2023",
doi = "10.1063/5.0117797",
language = "English",
isbn = "978-073544469-0",
volume = "Том 2627",
series = "AIP Conference Proceedings",
publisher = "American Institute of Physics Inc.",
editor = "V.P. Matveenko and P.V. Trusov and A.Y. Yants and V.A. Faerman",
booktitle = "AIP Conference Proceedings",

}

RIS

TY - GEN

T1 - Pipeline for CT-based modeling of patient specific hemodynamics in coronary vessels

AU - Pavlyuk, Eugeny V.

AU - Starodumov, Ilya o.

AU - Sokolov, Sergey yu.

AU - Blyakhman, Felix a.

N1 - The authors thank the Russian Science Foundation (project no. 20-61-46013) for the support.

PY - 2023

Y1 - 2023

N2 - Currently, the methods of computational fluid dynamics are often used in the clinic to assess the significance of coronary artery stenoses. This approach requires obtaining the 3D geometry of the vessel under study for subsequent use in modeling the movement of blood through it. This article offers a new approach for constructing a 3D model of an artery, based on the volume of fluid (VOF) function methodology, and not on constructing a three-dimensional mesh of the vessel surface. The results of multispiral CT of the heart and its surrounding vessels were used as initial data. A pipeline is presented for obtaining the VOF function of an artery section with stenosis according to CT data.

AB - Currently, the methods of computational fluid dynamics are often used in the clinic to assess the significance of coronary artery stenoses. This approach requires obtaining the 3D geometry of the vessel under study for subsequent use in modeling the movement of blood through it. This article offers a new approach for constructing a 3D model of an artery, based on the volume of fluid (VOF) function methodology, and not on constructing a three-dimensional mesh of the vessel surface. The results of multispiral CT of the heart and its surrounding vessels were used as initial data. A pipeline is presented for obtaining the VOF function of an artery section with stenosis according to CT data.

UR - http://www.scopus.com/inward/record.url?partnerID=8YFLogxK&scp=85160349773

U2 - 10.1063/5.0117797

DO - 10.1063/5.0117797

M3 - Conference contribution

SN - 978-073544469-0

VL - Том 2627

T3 - AIP Conference Proceedings

BT - AIP Conference Proceedings

A2 - Matveenko, V.P.

A2 - Trusov, P.V.

A2 - Yants, A.Y.

A2 - Faerman, V.A.

T2 - 30th Russian Conference on Mathematical Modelling in Natural Sciences, RuMoNaS 2021

Y2 - 6 October 2021 through 9 October 2021

ER -

ID: 40058262