Enhanced myocardial perfusion in late gestation fetal lambs with impaired left ventricular inflow.

IF 4.7 2区医学 Q1 NEUROSCIENCES Journal of Physiology-London Pub Date : 2025-01-04 DOI:10.1113/JP286685

Matthew W Hagen, Samantha Louey, Sarah M Alaniz, Eric B McClellan, Jonathan R Lindner, George D Giraud, Sonnet S Jonker

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Abstract

Robust preclinical models of asymmetric ventricular loading in late gestation reflecting conditions such as hypoplastic left heart syndrome are lacking. We characterized the morphometry and microvascular function of the hypoplastic left ventricle (LV) and remaining right ventricle (RV) in a sham-controlled late gestation fetal lamb model of impaired left ventricular inflow (ILVI). Singleton fetuses were instrumented at ∼120 days gestational age (dGA; term is ∼147 days) with vascular catheters, an aortic flow probe and a deflated left atrial balloon. Balloons in ILVI fetuses were inflated over the 8 day study until aortic output was eliminated; Sham balloons remained deflated. At the study end-point (∼134 dGA), cardiac function was assessed by echocardiography, microvascular perfusion of each free wall was measured by myocardial contrast echocardiography (MCE) and terminal morphometric data were collected. During the chronic study, flow through the ascending aorta of ILVI fetuses fell from 389 to -48 mL min^-1 with minimal changes to other haemodynamics or blood chemistry. End-point echocardiography and morphometry similarly showed significant and meaningful reductions in ILVI LV chamber volume and wall mass without statistically significant changes in RV size relative to Shams. MCE revealed modestly increased LV perfusion and profoundly increased RV perfusion in ILVI fetuses. Our model displays effective LV hypoplasia with preserved overall fetal health, and our finding of increased RV myocardial perfusion may indicate active vascular remodelling in response to the experimental lesion. KEY POINTS: Hypoplastic left heart syndrome can be caused by insufficient inflow of blood to the fetal left ventricle. We found that eliminating fetal left ventricular input for 8 days reduced left ventricular size and volume, with minimal effects on the right ventricle or overall fetal health. Blood and oxygen delivery increased significantly in the right ventricle and slightly in the hypoplastic left ventricle. Our results suggest functional and anatomical adaptation of the fetal coronary microvasculature to univentricular right heart conditions.

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妊娠晚期胎羊左心室血流受损时心肌灌注增强。

妊娠晚期不对称心室负荷的临床前模型缺乏反映左心发育不全综合征等情况。我们在假对照妊娠晚期左心室流入受损胎羊模型（ILVI）中对发育不全的左心室（LV）和剩余的右心室（RV）的形态和微血管功能进行了表征。单胎胎儿在孕龄~ 120天(dGA；足月约147天)，使用血管导管、主动脉血流探头和放气的左心房球囊。在8天的研究中，ILVI胎儿的气球被充气，直到主动脉输出消除；假气球仍然没有充气。在研究终点（~ 134 dGA），通过超声心动图评估心功能，通过心肌对比超声心动图（MCE）测量每个游离壁的微血管灌注，并收集终末形态测量数据。在慢性研究中，通过ILVI胎儿升主动脉的流量从389 mL min下降到-48 mL min-1，其他血流动力学或血液化学变化很小。终点超声心动图和形态测量同样显示ILVI左室容积和壁质量显著减少，相对于Shams，左室大小没有统计学上的显著变化。MCE显示ILVI胎儿左室灌注轻度增加，右室灌注深度增加。我们的模型显示了有效的左室发育不全，并保留了胎儿的整体健康，我们发现左室心肌灌注增加可能表明对实验损伤的血管重构活跃。关键点：左心发育不全综合征可由胎儿左心室供血不足引起。我们发现，消除胎儿左心室输入8天会减少左心室的大小和容量，对右心室或胎儿整体健康的影响最小。右心室血氧输送明显增加，左心室发育不全略有增加。我们的研究结果表明胎儿冠状动脉微血管在功能和解剖上适应于单心室右心脏状况。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Physiology-London 医学-神经科学

CiteScore

9.70

自引率

7.30%

发文量

817

审稿时长

2 months

期刊介绍： The Journal of Physiology publishes full-length original Research Papers and Techniques for Physiology, which are short papers aimed at disseminating new techniques for physiological research. Articles solicited by the Editorial Board include Perspectives, Symposium Reports and Topical Reviews, which highlight areas of special physiological interest. CrossTalk articles are short editorial-style invited articles framing a debate between experts in the field on controversial topics. Letters to the Editor and Journal Club articles are also published. All categories of papers are subjected to peer reivew. The Journal of Physiology welcomes submitted research papers in all areas of physiology. Authors should present original work that illustrates new physiological principles or mechanisms. Papers on work at the molecular level, at the level of the cell membrane, single cells, tissues or organs and on systems physiology are all acceptable. Theoretical papers and papers that use computational models to further our understanding of physiological processes will be considered if based on experimentally derived data and if the hypothesis advanced is directly amenable to experimental testing. While emphasis is on human and mammalian physiology, work on lower vertebrate or invertebrate preparations may be suitable if it furthers the understanding of the functioning of other organisms including mammals.