猪二尖瓣和三尖瓣瓣叶和腱索的比较力学、形态学和微观结构特征。
Comparative mechanical, morphological, and microstructural characterization of porcine mitral and tricuspid leaflets and chordae tendineae.
机构信息
The Wallace H. Coulter Department of Biomedical Engineering, Georgia Institute of Technology and Emory University, Atlanta, GA, USA.
Department of Biomedical Engineering, Rutgers, The State University of New Jersey, Piscataway, NJ, USA.
出版信息
Acta Biomater. 2019 Feb;85:241-252. doi: 10.1016/j.actbio.2018.12.029. Epub 2018 Dec 21.
BACKGROUND
Healthy function of tricuspid valve (TV) structures is essential to avoid tricuspid regurgitation (TR) and may significantly improve disease prognosis. Mitral valve (MV) structures have been extensively studied, but little is known about the TV and right-sided heart diseases. Therefore, clinical decisions and finite element (FE) simulations often rely heavily on MV data for TV applications, despite fundamentally different mechanical and physiological environments.
METHOD/RESULTS: To bridge this gap, we performed a rigorous mechanical, morphological, and microstructural characterization of the MV and TV leaflets and chordae in a porcine model. Planar biaxial testing, uniaxial testing, second harmonic generation imaging and Verhoeff Van Gieson staining were performed. Morphological parameters, tissue moduli, extensibility, and anisotropy were quantified and compared. No major differences in leaflet mechanics or structure were found between TV and MV; chordal mechanics, morphology, and structure were found to compensate for anatomical and physiological loading differences between the valves. No differences in chordal mechanics were observed by insertion point within a leaflet; the septal tricuspid leaflet (STL) and posterior mitral leaflet (PML) did not have distinguishable strut chords, and the STL had the shortest chords. Within a valve, chords from septally-located leaflets were more extensible. MV chords were stiffer.
CONCLUSIONS
This study presents the first rigorous comparative mechanical and structural dataset of MV and TV structures. Valve type and anatomical location may be stronger predictors of chordal mechanics. Chords from septally-located leaflets differ from each other and from their intravalvular counterparts; they merit special consideration in surgical and computational applications.
STATEMENT OF SIGNIFICANCE
A better understanding of the tricuspid valve (TV) and its associated structures is important for making advancements towards the repair of tricuspid regurgitation. Mitral valve structures have been extensively studied, but little is known about the TV and right-sided heart diseases. Clinical decisions and computational simulations often rely heavily on MV data for TV applications, despite fundamentally different environments. We therefore performed a rigorous mechanical, morphological, and microstructural characterization of atrioventricular leaflets and chordae tendineae in a porcine model. Finding that valve type and anatomical location may be strong predictors of chordal mechanics, chords from septally-located leaflets differ from each other and from their intravalvular counterparts; they merit special consideration in surgical and computational applications.
背景
三尖瓣(TV)结构的健康功能对于避免三尖瓣反流(TR)至关重要,并且可能显著改善疾病预后。二尖瓣(MV)结构已得到广泛研究,但对于 TV 和右心疾病知之甚少。因此,尽管 MV 和 TV 的力学和生理环境存在根本差异,但临床决策和有限元(FE)模拟通常严重依赖 MV 数据来进行 TV 应用。
方法/结果:为了弥补这一差距,我们在猪模型中对 MV 和 TV 瓣叶和腱索进行了严格的力学、形态和微观结构表征。进行了平面双轴测试、单轴测试、二次谐波成像和 Verhoeff Van Gieson 染色。量化并比较了形态参数、组织模量、伸展性和各向异性。MV 和 TV 瓣叶之间在瓣叶力学或结构上没有发现明显差异;瓣叶之间的解剖和生理负荷差异由腱索的力学、形态和结构来补偿。在一个瓣叶内,通过插入点观察到的腱索力学没有差异;隔瓣三尖瓣(STL)和后瓣二尖瓣(PML)没有可区分的支柱腱索,并且 STL 的腱索最短。在一个瓣内,来自隔瓣的腱索更具伸展性。MV 腱索更硬。
结论
本研究首次提供了 MV 和 TV 结构的严格比较力学和结构数据集。瓣叶类型和解剖位置可能是腱索力学的更强预测因素。来自隔瓣的腱索彼此之间以及与其瓣内对应物不同;它们在手术和计算应用中值得特别考虑。
意义
更好地了解三尖瓣(TV)及其相关结构对于推进三尖瓣反流修复至关重要。二尖瓣结构已得到广泛研究,但对于 TV 和右心疾病知之甚少。临床决策和计算模拟通常严重依赖 MV 数据来进行 TV 应用,尽管环境根本不同。因此,我们在猪模型中对房室瓣叶和腱索进行了严格的力学、形态和微观结构表征。发现瓣叶类型和解剖位置可能是腱索力学的强预测因素,来自隔瓣的腱索彼此之间以及与其瓣内对应物不同;它们在手术和计算应用中值得特别考虑。
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