通过体外微结构表征揭示心脏结构的不连续性。聚焦左心室基底下部区域

IF 4.2 1区 医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS Journal of Cardiovascular Magnetic Resonance Pub Date : 2023-12-14 DOI:10.1186/s12968-023-00989-y
Pierre Cabanis, Julie Magat, Jairo Rodriguez-Padilla, Girish Ramlugun, Maxime Yon, Yann Bihan-Poudec, Nestor Pallares-Lupon, Fanny Vaillant, Philippe Pasdois, Pierre Jais, Pierre Dos-Santos, Marion Constantin, David Benoist, Line Pourtau, Virginie Dubes, Julien Rogier, Louis Labrousse, Michel Haissaguerre, Olivier Bernus, Bruno Quesson, Richard Walton, Josselin Duchateau, Edward Vigmond, Valéry Ozenne
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引用次数: 0

摘要

虽然左心室(LV)的微观结构已经被大量描述,但对右心室插入点(RVIP)的研究很少。人们普遍认为,由于心室腔的交叉,聚集的心肌细胞组织要复杂得多,但即使在该区域观察到与右心室壁压力或心律失常相关的临床表型,也缺乏人类心脏的精确结构表征。对大型哺乳动物全心(人:N = 5,羊:N = 5)进行mri衍生解剖成像(150µm3)和弥散张量成像(600µm3)。分数各向异性、聚集心肌细胞取向和束状图在两个物种中进行了比较。然后使用结构张量成像(STI)从微计算机断层扫描(MicroCT)成像获得的21 μ m各向同性采集数据中计算出一只离体绵羊整个心脏上的聚集心肌细胞方向。进行了肉眼和组织学检查。最后,利用电生理(EP)模型将实验心肌细胞取向分布与常规的基于规则的模型进行比较。电活动用单域公式建模。下室间隔水平的RVIP呈现独特的心肌细胞聚集排列。观察到心肌细胞方向在心肌中期发生突然变化,形成一个三角形区域,在绵羊和人类心脏中都存在。所鉴定区域的FA直方图分布(mean±std: 0.29±0.06)和主尺寸(22.2 mm±5.6 mm)在不同样品和物种间均呈均匀性。平均体积为0.34 cm3±0.15 cm3。在模拟楔形模型中,局部激活时间(LAT)的延迟和峰间振幅的变化对伪脑电图的局部激活时间(LAT)和形态都有强烈影响。该研究首次描述了人类心脏基底隔间左心室区域的三维心肌细胞结构,并确定了组织良好的聚集心肌细胞排列和心脏结构不连续的存在。该结果可能会更好地了解临床表型,如rvip -晚期钆增强或起源于该区域的罕见特发性室性心律失常(VA)。
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Cardiac structure discontinuities revealed by ex-vivo microstructural characterization. A focus on the basal inferoseptal left ventricle region
While the microstructure of the left ventricle (LV) has been largely described, only a few studies investigated the right ventricular insertion point (RVIP). It was accepted that the aggregate cardiomyocytes organization was much more complex due to the intersection of the ventricular cavities but a precise structural characterization in the human heart was lacking even if clinical phenotypes related to right ventricular wall stress or arrhythmia were observed in this region. MRI-derived anatomical imaging (150 µm3) and diffusion tensor imaging (600 µm3) were performed in large mammalian whole hearts (human: N = 5, sheep: N = 5). Fractional anisotropy, aggregate cardiomyocytes orientations and tractography were compared within both species. Aggregate cardiomyocytes orientation on one ex-vivo sheep whole heart was then computed using structure tensor imaging (STI) from 21 µm isotropic acquisition acquired with micro computed tomography (MicroCT) imaging. Macroscopic and histological examination were performed. Lastly, experimental cardiomyocytes orientation distribution was then compared to the usual rule-based model using electrophysiological (EP) modeling. Electrical activity was modeled with the monodomain formulation. The RVIP at the level of the inferior ventricular septum presented a unique arrangement of aggregate cardiomyocytes. An abrupt, mid-myocardial change in cardiomyocytes orientation was observed, delimiting a triangle-shaped region, present in both sheep and human hearts. FA’s histogram distribution (mean ± std: 0.29 ± 0.06) of the identified region as well as the main dimension (22.2 mm ± 5.6 mm) was found homogeneous across samples and species. Averaged volume is 0.34 cm3 ± 0.15 cm3. Both local activation time (LAT) and morphology of pseudo-ECGs were strongly impacted with delayed LAT and change in peak-to-peak amplitude in the simulated wedge model. The study was the first to describe the 3D cardiomyocytes architecture of the basal inferoseptal left ventricle region in human hearts and identify the presence of a well-organized aggregate cardiomyocytes arrangement and cardiac structural discontinuities. The results might offer a better appreciation of clinical phenotypes like RVIP-late gadolinium enhancement or uncommon idiopathic ventricular arrhythmias (VA) originating from this region.
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来源期刊
CiteScore
10.90
自引率
12.50%
发文量
61
审稿时长
6-12 weeks
期刊介绍: Journal of Cardiovascular Magnetic Resonance (JCMR) publishes high-quality articles on all aspects of basic, translational and clinical research on the design, development, manufacture, and evaluation of cardiovascular magnetic resonance (CMR) methods applied to the cardiovascular system. Topical areas include, but are not limited to: New applications of magnetic resonance to improve the diagnostic strategies, risk stratification, characterization and management of diseases affecting the cardiovascular system. New methods to enhance or accelerate image acquisition and data analysis. Results of multicenter, or larger single-center studies that provide insight into the utility of CMR. Basic biological perceptions derived by CMR methods.
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