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16 results on '"Müller, Lucas O."'

1. Nonlinear lumped-parameter models for blood flow simulations in networks of vessels

Author

Ghitti, Beatrice, Toro, Eleuterio F., and Müller, Lucas O.

Subjects
Mathematics - Numerical Analysis, 76-10, 35L65, 65M08
Abstract

To address the issue of computational efficiency related to the modelling of blood flow in complex networks, we derive a family of nonlinear lumped-parameter models for blood flow in compliant vessels departing from a well-established one-dimensional model. These 0D models must preserve important nonlinear properties of the original 1D model: the nonlinearity of the pressure-area relation and the pressure-dependent parameters characterizing the 0D models, the resistance $R$ and the inductance $L$, defined in terms of a time-dependent cross-sectional area subject to pressure changes. We introduce suitable coupling conditions to join 0D vessels through 0D junctions and construct 0D networks preserving the original 1D network topology. The newly derived nonlinear 0D models are then applied to several arterial networks and the predicted results are compared against (i) the reference 1D results, to validate the models and assess their ability to reproduce good approximations of pressure and flow waveforms in all vessels at a much lower computational cost, measured in terms of CPU time, and (ii) the linear 0D results, to evaluate the improvement gained by including certain nonlinearities in the 0D models, in terms of agreement with the 1D results.

Published
2022

12. Roadmap for cardiovascular circulation model

Author

Safaei, Soroush, Bradley, Christopher P., Suresh, Vinod, Mithraratne, Kumar, Muller, Alexandre, Ho, Harvey, Ladd, David, Hellevik, Leif R., Omholt, Stig W., Chase, J. Geoffrey, Müller, Lucas O., Watanabe, Sansuke M., Blanco, Pablo J., de Bono, Bernard, and Hunter, Peter J.

Subjects
Cardiovascular Physiological Phenomena, Special section reviews: The Cardiac Physiome Project, Blood Circulation, Hemodynamics, Models, Cardiovascular, Humans, Software
Abstract

Computational models of many aspects of the mammalian cardiovascular circulation have been developed. Indeed, along with orthopaedics, this area of physiology is one that has attracted much interest from engineers, presumably because the equations governing blood flow in the vascular system are well understood and can be solved with well-established numerical techniques. Unfortunately, there have been only a few attempts to create a comprehensive public domain resource for cardiovascular researchers. In this paper we propose a roadmap for developing an open source cardiovascular circulation model. The model should be registered to the musculo-skeletal system. The computational infrastructure for the cardiovascular model should provide for near real-time computation of blood flow and pressure in all parts of the body. The model should deal with vascular beds in all tissues, and the computational infrastructure for the model should provide links into CellML models of cell function and tissue function. In this work we review the literature associated with 1D blood flow modelling in the cardiovascular system, discuss model encoding standards, software and a model repository. We then describe the coordinate systems used to define the vascular geometry, derive the equations and discuss the implementation of these coupled equations in the open source computational software OpenCMISS. Finally, some preliminary results are presented and plans outlined for the next steps in the development of the model, the computational software and the graphical user interface for accessing the model.

Published
2016

14. The Effects of Cerebral Vasospasm on Cerebral Blood Flow and the Effects of Induced Hypertension: A Mathematical Modelling Study

Author

Bhogal, Pervinder, Yeo, Leonard Leong, Müller, Lucas O., and Blanco, Pablo J.

Abstract

Background:Induced hypertension has been used to promote cerebral blood flow under vasospastic conditions although there is no randomised clinical trial to support its use. We sought to mathematically model the effects of vasospasm on the cerebral blood flow and the effects of induced hypertension. Methods:The Anatomically Detailed Arterial Network (ADAN) model is employed as the anatomical substrate in which the cerebral blood flow is simulated as part of the simulation of the whole body arterial circulation. The pressure drop across the spastic vessel is modelled by inserting a specific constriction model within the corresponding vessel in the ADAN model. We altered the degree of vasospasm, the length of the vasospastic segment, the location of the vasospasm, the pressure (baseline mean arterial pressure [MAP] 90 mm Hg, hypertension MAP 120 mm Hg, hypotension), and the presence of collateral supply. Results:Larger decreases in cerebral flow were seen for diffuse spasm and more severe vasospasm. The presence of collateral supply could maintain cerebral blood flow, but only if the vasospasm did not occur distal to the collateral. Induced hypertension caused an increase in blood flow in all scenarios, but did not normalise blood flow even in the presence of moderate vasospasm (30%). Hypertension in the presence of a complete circle of Willis had a marginally greater effect on the blood flow, but did not normalise flow. Conclusion:Under vasospastic condition, cerebral blood flow varies considerably. Hypertension can raise the blood flow, but it is unable to restore cerebral blood flow to baseline.

Published
2020
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15. Roadmap for cardiovascular circulation model

Author

Safaei, Soroush, primary, Bradley, Christopher P., additional, Suresh, Vinod, additional, Mithraratne, Kumar, additional, Muller, Alexandre, additional, Ho, Harvey, additional, Ladd, David, additional, Hellevik, Leif R., additional, Omholt, Stig W., additional, Chase, J. Geoffrey, additional, Müller, Lucas O., additional, Watanabe, Sansuke M., additional, Blanco, Pablo J., additional, de Bono, Bernard, additional, and Hunter, Peter J., additional

Published
2016
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16. How to identify which patients should not have a systolic blood pressure target of <120 mmHg.

Author

Spence, J David, Müller, Lucas O, and Blanco, Pablo J

Subjects
COSMETICS, ARTERIES, BRADYCARDIA, COMPUTER-generated imagery evidence, BLOOD pressure
Abstract

The article presents the discussion on cerebrotoxicity of antihypertensive therapy and risk factor cosmetics. Topics include patients with stiff arteries having a wide pulse pressure aggravated by bradycardia showing diastolic pressure being lower than the cuff pressure; and computer simulations using an anatomically detailed cerebrovascular architecture estimating the the blood pressure in the brachial artery.

Published
2022
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