Modelling The Hemodynamics of Coronary Ischemia

Medientyp: E-Artikel

Titel: Modelling The Hemodynamics of Coronary Ischemia

Beteiligte: Baraikan, Abdulaziz Al; Czechowicz, Krzysztof; Morris, Paul D.; Halliday, Ian; Gosling, Rebecca C.; Gunn, Julian P.; Narracott, Andrew J.; Williams, Gareth; Garg, Pankaj; Malawski, Maciej; Vosse, Frans van de; Lungu, Angela; Rafiroiu, Dan; Hose, David Rodney

Erschienen: MDPI AG, 2023

Sprache: Englisch

DOI: 10.3390/fluids8050159

ISSN: 2311-5521

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Beschreibung: Acting upon clinical patient data, acquired in the pathway of percutaneous intervention, we deploy hierarchical, multi-stage, data-handling protocols and interacting low- and high-order mathematical models (chamber elastance, state-space system and CFD models), to establish and then validate a framework to quantify the burden of ischaemia. Our core tool is a compartmental, zero-dimensional model of the coupled circulation with four heart chambers, systemic and pulmonary circulations and an optimally adapted windkessel model of the coronary arteries that reflects the diastolic dominance of coronary flow. We guide the parallel development of protocols and models by appealing to foundational physiological principles of cardiac energetics and a parameterisation (stenotic Bernoulli resistance and micro-vascular resistance) of patients’ coronary flow. We validate our process first with results which substantiate our protocols and, second, we demonstrate good correspondence between model operation and patient data. We conclude that our core model is capable of representing (patho)physiological states and discuss how it can potentially be deployed, on clinical data, to provide a quantitative assessment of the impact, on the individual, of coronary artery disease.

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