A comprehensive experimental analysis of the local passive response across the healthy porcine left ventricle

IF 9.4 1区 医学 Q1 ENGINEERING, BIOMEDICAL
Nicolás Laita , Alejandro Aparici-Gil , Aida Oliván-Viguera , Alba Pérez-Martínez , Miguel Ángel Martínez , Manuel Doblaré , Estefanía Peña
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引用次数: 0

Abstract

This work provides a comprehensive characterization of porcine myocardial tissue, combining true biaxial (TBx), simple triaxial shear (STS) and confined compression (CC) tests to analyze its elastic behavior under cyclic loads. We expanded this study to different zones of the ventricular free wall, providing insights into the local behavior along the longitudinal and radial coordinates. The aging impact was also assessed by comparing two age groups (4 and 8 months). Resulting data showed that the myocardium exhibits a highly nonlinear hyperelastic and incompressible behavior. We observed an anisotropy ratio of 2-2.4 between averaged peak stresses in TBx tests and 1-0.59-0.40 orthotropy ratios for normalised fiber-sheet-normal peak stresses in STS tests. We obtained a highly incompressible response, reaching volumetric pressures of 2-7 MPa for perfused tissue in CC tests, with notable differences when fluid drainage was allowed, suggesting a high permeability. Regional analysis showed reduced stiffness and anisotropy (20-25%) at the apical region compared to the medial, which we attributed to differences in the fiber field dispersion. Compressibility also increased towards the epicardium and apical regions. Regarding age-related variations, 8-month animals showed stiffer response (at least 25% increase), particularly in directions where the mechanical stress is absorbed by collagenous fibers (more than 90%), as supported by a histological analysis. Although compressibility of perfused tissue remained unchanged, permeability significantly reduced in 8-month-old animals. Our findings offer new insights into myocardial properties, emphasizing on local variations, which can help to get a more realistic understanding of cardiac mechanics in this common animal model.

Statement of significance

In this work, we conducted a comprehensive analysis of the passive mechanical behavior of porcine myocardial tissue through biaxial, triaxial shear, and confined compression tests. Unlike previous research, we investigated the variation in mechanical response across the left ventricular free wall, conventionally assumed homogeneous, revealing differences in terms of stiffness and compressibility. Additionally, we evaluated age-related effects on mechanical properties by comparing two age groups, observing significant variations in stiffness and permeability. To date, there has been no such in-depth exploration of myocardial elastic response and compressibility considering regional variations along the wall and may contribute to a better understanding of the cardiac tissue’s passive mechanical response.

Abstract Image

对健康猪左心室局部被动反应的全面实验分析。
这项研究提供了猪心肌组织的全面特征,结合真实双轴(TBx)、简单三轴剪切(STS)和约束压缩(CC)试验,分析了其在循环负荷下的弹性行为。我们将这项研究扩展到心室游离壁的不同区域,从而深入了解了沿纵向和径向坐标的局部行为。我们还通过比较两个年龄组(4 个月和 8 个月)来评估老化的影响。结果数据显示,心肌表现出高度非线性的超弹性和不可压缩行为。我们观察到,在 TBx 试验中,平均峰值应力之间的各向异性比为 2-2.4,而在 STS 试验中,归一化纤维片正常峰值应力的正交各向异性比为 1-0.59-0.40。我们获得了高度不可压缩的响应,在 CC 试验中,灌注组织的容积压力达到 2-7 兆帕,在允许液体排出时差异显著,这表明组织具有高渗透性。区域分析显示,与内侧相比,顶端区域的刚度和各向异性降低了(20-25%),我们将其归因于纤维场分散的差异。心外膜和心尖区域的可压缩性也有所增加。关于与年龄相关的变化,8 个月大的动物表现出更硬的反应(至少增加 25%),尤其是在机械应力被胶原纤维吸收的方向(超过 90%),组织学分析也证明了这一点。虽然灌注组织的可压缩性保持不变,但 8 个月大的动物的通透性明显降低。我们的研究结果为了解心肌特性提供了新的视角,强调了局部变化,有助于更真实地了解这种常见动物模型的心脏力学。意义说明:在这项工作中,我们通过双轴、三轴剪切和密闭压缩试验对猪心肌组织的被动力学行为进行了全面分析。与以往研究不同的是,我们研究了左心室游离壁机械响应的变化,揭示了刚度和可压缩性方面的差异。此外,我们还通过比较两个年龄组的机械性能,评估了与年龄有关的影响,观察到了刚度和渗透性的显著变化。迄今为止,还没有人对心肌弹性响应和可压缩性进行过如此深入的研究,而这种研究考虑到了心肌壁的区域性变化,可能有助于更好地理解心脏组织的被动机械响应。
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来源期刊
Acta Biomaterialia
Acta Biomaterialia 工程技术-材料科学:生物材料
CiteScore
16.80
自引率
3.10%
发文量
776
审稿时长
30 days
期刊介绍: Acta Biomaterialia is a monthly peer-reviewed scientific journal published by Elsevier. The journal was established in January 2005. The editor-in-chief is W.R. Wagner (University of Pittsburgh). The journal covers research in biomaterials science, including the interrelationship of biomaterial structure and function from macroscale to nanoscale. Topical coverage includes biomedical and biocompatible materials.
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