评估鼻腔气道阻力和对称性:通过计算流体动力学的全球视角方法

IF 2.2 4区 医学 Q3 ENGINEERING, BIOMEDICAL
Manuel A. Burgos, Markus Bastir, Alejandro Pérez-Ramos, Daniel Sanz-Prieto, Yann Heuzé, Laura Maréchal, Francisco Esteban-Ortega
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引用次数: 0

摘要

本研究旨在利用计算流体动力学(CFD)探索不同性别和人群之间鼻腔气流模式的变异性。我们重点评估了无量纲参数 R(双侧鼻腔阻力)和 ϕ(鼻腔气流不对称性)的普遍性和适用性,这两个参数最初是在西班牙高加索人队列中建立的,用于评估健康气道的正常呼吸功能。在这项回顾性研究中,分析了来自柬埔寨(20 名男性,20 名女性)、俄罗斯(20 名男性,18 名女性)和西班牙(19 名男性,19 名女性)的 CT 扫描图像。采用标准化的 CFD 工作流程计算这些扫描的 R-ϕ 参数。我们进行了统计分析,以评估和比较这些参数在不同性别和人群中的分布和差异。结果表明,不同种群的 R 参数没有明显的性别差异。然而,在柬埔寨群体中,j 参数出现了中度的性别二态性。值得注意的是,R 或 ϕ 参数均未发现地域差异,这表明所研究的不同人类群体具有一致的鼻气流特征。该研究还强调了使用无量纲变量有效分析鼻气流形式与功能之间关系的重要性。在不同人群中观察到的 R-ϕ 参数的一致性凸显了它们在医疗实践和进一步 CFD 研究中作为可靠指标的潜力,尤其是在不同人群中。我们的研究结果表明,无量纲 CFD 参数在分析鼻腔气流方面具有潜在的适用性,突出了它们在不同人口和地理背景下的实用性。这项研究加深了我们对鼻腔气流动力学的理解,并强调了在更广泛的人群中验证这些参数的其他研究的必要性。采用无量纲参数的方法为今后的研究铺平了道路,消除了尺寸效应的干扰,使不同人群和性别之间的比较更加准确。这项研究对于促进个性化医疗和开发适应鼻气流个体差异的诊断工具意义重大。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Assessing nasal airway resistance and symmetry: An approach to global perspective through computational fluid dynamics

Assessing nasal airway resistance and symmetry: An approach to global perspective through computational fluid dynamics

This study aimed to explore the variability in nasal airflow patterns among different sexes and populations using computational fluid dynamics (CFD). We focused on evaluating the universality and applicability of dimensionless parameters R (bilateral nasal resistance) and ϕ (nasal flow asymmetry), initially established in a Caucasian Spanish cohort, across a broader spectrum of human populations to assess normal breathing function in healthy airways. In this retrospective study, CT scans from Cambodia (20 males, 20 females), Russia (20 males, 18 females), and Spain (19 males, 19 females) were analyzed. A standardized CFD workflow was implemented to calculate R-ϕ parameters from these scans. Statistical analyses were conducted to assess and compare these parameters across different sexes and populations, emphasizing their distribution and variances. Our results indicated no significant sex-based differences in the R parameter across the populations. However, moderate sexual dimorphism in the ϕ parameter was observed in the Cambodian group. Notably, no geographical differences were found in either R or ϕ parameters, suggesting consistent nasal airflow characteristics across the diverse human groups studied. The study also emphasized the importance of using dimensionless variables to effectively analyze the relationships between form and function in nasal airflow. The observed consistency of R-ϕ parameters across various populations highlights their potential as reliable indicators in both medical practice and further CFD research, particularly in diverse human populations. Our findings suggest the potential applicability of dimensionless CFD parameters in analyzing nasal airflow, highlighting their utility across diverse demographic and geographic contexts. This research advances our understanding of nasal airflow dynamics and underscores the need for additional studies to validate these parameters in broader population cohorts. The approach of employing dimensionless parameters paves the way for future research that eliminates confounding size effects, enabling more accurate comparisons across different populations and sexes. The implications of this study are significant for the advancement of personalized medicine and the development of diagnostic tools that accommodate individual variations in nasal airflow.

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来源期刊
International Journal for Numerical Methods in Biomedical Engineering
International Journal for Numerical Methods in Biomedical Engineering ENGINEERING, BIOMEDICAL-MATHEMATICAL & COMPUTATIONAL BIOLOGY
CiteScore
4.50
自引率
9.50%
发文量
103
审稿时长
3 months
期刊介绍: All differential equation based models for biomedical applications and their novel solutions (using either established numerical methods such as finite difference, finite element and finite volume methods or new numerical methods) are within the scope of this journal. Manuscripts with experimental and analytical themes are also welcome if a component of the paper deals with numerical methods. Special cases that may not involve differential equations such as image processing, meshing and artificial intelligence are within the scope. Any research that is broadly linked to the wellbeing of the human body, either directly or indirectly, is also within the scope of this journal.
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