Computer model coupling hemodynamics and oxygen transport in the coronary capillary network: Pulsatile vs. non-pulsatile analysis

IF 4.9 2区 医学 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Computer methods and programs in biomedicine Pub Date : 2024-11-08 DOI:10.1016/j.cmpb.2024.108486
Haifeng Wang , Jenny S. Choy , Ghassan S. Kassab , Lik-Chuan Lee
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Abstract

Background and Objective:

Oxygen transport in the heart is crucial, and its impairment can lead to pathological conditions such as hypoxia, ischemia, and heart failure. However, investigating oxygen transport in the heart using in vivo measurements is difficult due to the small size of the coronary capillaries and their deep embedding within the heart wall.

Methods:

In this study, we developed a novel computational modeling framework that integrates a 0-D hemodynamic model with a 1-D mass transport model to simulate oxygen transport in/across the coronary capillary network.

Results:

The model predictions agree with analytical solutions and experimental measurements. The framework is used to simulate the effects of pulsatile vs. non-pulsatile behavior of the capillary hemodynamics on oxygen-related metrics such as the myocardial oxygen consumption (MVO2) and oxygen extraction ratio (OER). Compared to simulations that consider (physiological) pulsatile behaviors of the capillary hemodynamics, the OER is underestimated by less than 9% and the MVO2 is overestimated by less than 5% when the pulsatile behaviors are ignored in the simulations. Statistical analyses show that model predictions of oxygen-related quantities and spatial distribution of oxygen without consideration of the pulsatile behaviors do not significantly differ from those that considered such behaviors (p-values >0.05).

Conclusions:

This finding provides the basis for reducing the model complexity by ignoring the pulsatility of coronary capillary hemodynamics in the computational framework without a substantial loss of accuracy when predicting oxygen-related metrics.
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冠状动脉毛细血管网络中血液动力学与氧运输耦合的计算机模型:脉动与非脉动分析。
背景和目的:心脏中的氧输送至关重要,其受损可导致缺氧、缺血和心力衰竭等病理状况。然而,由于冠状动脉毛细血管较小,且深埋于心壁内,利用体内测量来研究心脏内的氧输送十分困难:在这项研究中,我们开发了一个新颖的计算建模框架,将 0-D 血流动力学模型与 1-D 质量传输模型相结合,模拟冠状动脉毛细血管网络内/外的氧气传输:结果:模型预测结果与分析解法和实验测量结果一致。该框架用于模拟毛细血管血流动力学的搏动与非搏动行为对心肌耗氧量(MVO2)和氧萃取率(OER)等氧相关指标的影响。与考虑了毛细血管血液动力学(生理)搏动行为的模拟相比,如果在模拟中忽略搏动行为,OER 被低估了不到 9%,MVO2 被高估了不到 5%。统计分析显示,未考虑脉动行为的模型对氧气相关量和氧气空间分布的预测与考虑了脉动行为的模型没有显著差异(P 值大于 0.05):这一发现为在计算框架中忽略冠状动脉毛细血管血流动力学的搏动性以降低模型的复杂性提供了依据,而不会对预测氧相关指标的准确性造成重大损失。
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来源期刊
Computer methods and programs in biomedicine
Computer methods and programs in biomedicine 工程技术-工程:生物医学
CiteScore
12.30
自引率
6.60%
发文量
601
审稿时长
135 days
期刊介绍: To encourage the development of formal computing methods, and their application in biomedical research and medical practice, by illustration of fundamental principles in biomedical informatics research; to stimulate basic research into application software design; to report the state of research of biomedical information processing projects; to report new computer methodologies applied in biomedical areas; the eventual distribution of demonstrable software to avoid duplication of effort; to provide a forum for discussion and improvement of existing software; to optimize contact between national organizations and regional user groups by promoting an international exchange of information on formal methods, standards and software in biomedicine. Computer Methods and Programs in Biomedicine covers computing methodology and software systems derived from computing science for implementation in all aspects of biomedical research and medical practice. It is designed to serve: biochemists; biologists; geneticists; immunologists; neuroscientists; pharmacologists; toxicologists; clinicians; epidemiologists; psychiatrists; psychologists; cardiologists; chemists; (radio)physicists; computer scientists; programmers and systems analysts; biomedical, clinical, electrical and other engineers; teachers of medical informatics and users of educational software.
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