Modeling of blood flow in arterial trees

Tomer Anor; Lopold Grinberg; Hyoungsu Baek; Joseph R. Madsen; Mahesh V. Jayaraman; Gorge E. Karniadakis

doi:10.1002/wsbm.90

Modeling of blood flow in arterial trees

Tomer Anor
, Lopold Grinberg
, Hyoungsu Baek
, Joseph R. Madsen
, Mahesh V. Jayaraman
, Gorge E. Karniadakis

Research output: Contribution to journal › Article › peer-review

25 Scopus citations

Abstract

Advances in computational methods and medical imaging techniques have enabled accurate simulations of subject-specific blood flows at the level of individual blood cell and in complex arterial networks. While in the past, we were limited to simulations with one arterial bifurcation, the current state-ofthe-art is simulations of arterial networks consisting of hundreds of arteries. In this paper, we review the advances in methods for vascular flow simulations in large arterial trees. We discuss alternative approaches and validity of various assumptions oftenmade to simplify the modeling. To highlight the similarities and discrepancies of data computed with different models, computationally intensive three-dimensional (3D) and inexpensive one-dimensional (1D) flow simulations in very large arterial networks are employed. Finally, we discuss the possibilities, challenges, and limitations of the computational methods for predicting outcomes of therapeutic interventions for individual patients.

Original language	English
Pages (from-to)	612-623
Number of pages	12
Journal	Wiley Interdisciplinary Reviews: Systems Biology and Medicine
Volume	2
Issue number	5
DOIs	https://doi.org/10.1002/wsbm.90
State	Published - 1 Sep 2010
Externally published	Yes

ASJC Scopus subject areas

Medicine (miscellaneous)
Biochemistry, Genetics and Molecular Biology (miscellaneous)

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10.1002/wsbm.90

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title = "Modeling of blood flow in arterial trees",

abstract = "Advances in computational methods and medical imaging techniques have enabled accurate simulations of subject-specific blood flows at the level of individual blood cell and in complex arterial networks. While in the past, we were limited to simulations with one arterial bifurcation, the current state-ofthe-art is simulations of arterial networks consisting of hundreds of arteries. In this paper, we review the advances in methods for vascular flow simulations in large arterial trees. We discuss alternative approaches and validity of various assumptions oftenmade to simplify the modeling. To highlight the similarities and discrepancies of data computed with different models, computationally intensive three-dimensional (3D) and inexpensive one-dimensional (1D) flow simulations in very large arterial networks are employed. Finally, we discuss the possibilities, challenges, and limitations of the computational methods for predicting outcomes of therapeutic interventions for individual patients.",

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T1 - Modeling of blood flow in arterial trees

AU - Anor, Tomer

AU - Grinberg, Lopold

AU - Baek, Hyoungsu

AU - Madsen, Joseph R.

AU - Jayaraman, Mahesh V.

AU - Karniadakis, Gorge E.

PY - 2010/9/1

Y1 - 2010/9/1

N2 - Advances in computational methods and medical imaging techniques have enabled accurate simulations of subject-specific blood flows at the level of individual blood cell and in complex arterial networks. While in the past, we were limited to simulations with one arterial bifurcation, the current state-ofthe-art is simulations of arterial networks consisting of hundreds of arteries. In this paper, we review the advances in methods for vascular flow simulations in large arterial trees. We discuss alternative approaches and validity of various assumptions oftenmade to simplify the modeling. To highlight the similarities and discrepancies of data computed with different models, computationally intensive three-dimensional (3D) and inexpensive one-dimensional (1D) flow simulations in very large arterial networks are employed. Finally, we discuss the possibilities, challenges, and limitations of the computational methods for predicting outcomes of therapeutic interventions for individual patients.

AB - Advances in computational methods and medical imaging techniques have enabled accurate simulations of subject-specific blood flows at the level of individual blood cell and in complex arterial networks. While in the past, we were limited to simulations with one arterial bifurcation, the current state-ofthe-art is simulations of arterial networks consisting of hundreds of arteries. In this paper, we review the advances in methods for vascular flow simulations in large arterial trees. We discuss alternative approaches and validity of various assumptions oftenmade to simplify the modeling. To highlight the similarities and discrepancies of data computed with different models, computationally intensive three-dimensional (3D) and inexpensive one-dimensional (1D) flow simulations in very large arterial networks are employed. Finally, we discuss the possibilities, challenges, and limitations of the computational methods for predicting outcomes of therapeutic interventions for individual patients.

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JO - Wiley Interdisciplinary Reviews: Systems Biology and Medicine

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ER -

Modeling of blood flow in arterial trees

Abstract

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