Modelling the leptomeningeal collateral circulation during acute ischaemic stroke

Raymond M. Padmos; Nerea Arrarte Terreros; Tamás I. Józsa; G. bor Závodszky; Henk A. Marquering; Charles B. L. M. Majoie; Alfons G. Hoekstra

doi:10.1016/j.medengphy.2021.03.003

Modelling the leptomeningeal collateral circulation during acute ischaemic stroke

Raymond M. Padmos^*
, Nerea Arrarte Terreros
, Tamás I. Józsa
, G. bor Závodszky
, Henk A. Marquering
, Charles B. L. M. Majoie
, Alfons G. Hoekstra

^*Corresponding author for this work

University of Amsterdam
Amsterdam UMC - University of Amsterdam
University of Oxford
Amsterdam UMC

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

Abstract

A novel model of the leptomeningeal collateral circulation is created by combining data from multiple sources with statistical scaling laws. The extent of the collateral circulation is varied by defining a collateral vessel probability. Blood flow and pressure are simulated using a one-dimensional steady state blood flow model. The leptomeningeal collateral vessels provide significant flow during a stroke. The pressure drop over an occlusion predicted by the model ranges between 60 and 85 mmHg depending on the extent of the collateral circulation. The linear transport of contrast material was simulated in the circulatory network. The time delay of peak contrast over an occlusion is 3.3 s in the model, and 2.1 s (IQR 0.8–4.0 s) when measured in dynamic CTA data of acute ischaemic stroke patients. Modelling the leptomeningeal collateral circulation could lead to better estimates of infarct volume and patient outcome.

Original language	English
Pages (from-to)	1-11
Number of pages	11
Journal	Medical engineering & physics
Volume	91
DOIs	https://doi.org/10.1016/j.medengphy.2021.03.003
Publication status	Published - 1 May 2021

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

1D blood flow model
Acute ischaemic stroke
Cerebral contrast transport
Collateral flow simulation
Leptomeningeal collateral circulation

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10.1016/j.medengphy.2021.03.003

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title = "Modelling the leptomeningeal collateral circulation during acute ischaemic stroke",

abstract = "A novel model of the leptomeningeal collateral circulation is created by combining data from multiple sources with statistical scaling laws. The extent of the collateral circulation is varied by defining a collateral vessel probability. Blood flow and pressure are simulated using a one-dimensional steady state blood flow model. The leptomeningeal collateral vessels provide significant flow during a stroke. The pressure drop over an occlusion predicted by the model ranges between 60 and 85 mmHg depending on the extent of the collateral circulation. The linear transport of contrast material was simulated in the circulatory network. The time delay of peak contrast over an occlusion is 3.3 s in the model, and 2.1 s (IQR 0.8–4.0 s) when measured in dynamic CTA data of acute ischaemic stroke patients. Modelling the leptomeningeal collateral circulation could lead to better estimates of infarct volume and patient outcome.",

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note = "Funding Information: This project (INSIST; www.insist-h2020.eu ) has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement No 777072 . Publisher Copyright: {\textcopyright} 2021",

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doi = "10.1016/j.medengphy.2021.03.003",

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AU - Padmos, Raymond M.

AU - Terreros, Nerea Arrarte

AU - Józsa, Tamás I.

AU - Závodszky, G. bor

AU - Marquering, Henk A.

AU - Majoie, Charles B. L. M.

AU - Hoekstra, Alfons G.

N1 - Funding Information: This project (INSIST; www.insist-h2020.eu ) has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement No 777072 . Publisher Copyright: © 2021

PY - 2021/5/1

Y1 - 2021/5/1

N2 - A novel model of the leptomeningeal collateral circulation is created by combining data from multiple sources with statistical scaling laws. The extent of the collateral circulation is varied by defining a collateral vessel probability. Blood flow and pressure are simulated using a one-dimensional steady state blood flow model. The leptomeningeal collateral vessels provide significant flow during a stroke. The pressure drop over an occlusion predicted by the model ranges between 60 and 85 mmHg depending on the extent of the collateral circulation. The linear transport of contrast material was simulated in the circulatory network. The time delay of peak contrast over an occlusion is 3.3 s in the model, and 2.1 s (IQR 0.8–4.0 s) when measured in dynamic CTA data of acute ischaemic stroke patients. Modelling the leptomeningeal collateral circulation could lead to better estimates of infarct volume and patient outcome.

AB - A novel model of the leptomeningeal collateral circulation is created by combining data from multiple sources with statistical scaling laws. The extent of the collateral circulation is varied by defining a collateral vessel probability. Blood flow and pressure are simulated using a one-dimensional steady state blood flow model. The leptomeningeal collateral vessels provide significant flow during a stroke. The pressure drop over an occlusion predicted by the model ranges between 60 and 85 mmHg depending on the extent of the collateral circulation. The linear transport of contrast material was simulated in the circulatory network. The time delay of peak contrast over an occlusion is 3.3 s in the model, and 2.1 s (IQR 0.8–4.0 s) when measured in dynamic CTA data of acute ischaemic stroke patients. Modelling the leptomeningeal collateral circulation could lead to better estimates of infarct volume and patient outcome.

KW - 1D blood flow model

KW - Acute ischaemic stroke

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KW - Collateral flow simulation

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DO - 10.1016/j.medengphy.2021.03.003

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SP - 1

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JO - Medical engineering & physics

JF - Medical engineering & physics

ER -

Modelling the leptomeningeal collateral circulation during acute ischaemic stroke

Abstract

UN SDGs

Keywords

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