Comparison of different porcine models simulating myocardial cold ischemia of pediatric donor hearts.

IF 1.1 4区医学 Q4 CARDIAC & CARDIOVASCULAR SYSTEMS

Perfusion-Uk Pub Date : 2025-01-01 Epub Date: 2024-02-23 DOI:10.1177/02676591241226464

Yuriy Stukov, Mark S Bleiweis, Laura Wilson, Giles J Peek, Keith March, Elaine M Richards, Edward D Staples, Jeffrey P Jacobs

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引用次数: 0

Abstract

Background: Our team previously identified a stem cell-derived cardioprotective additive that can be added to standard cardioplegia to extend myocardial viability during prolonged myocardial cold ischemic time (CIT) in rodent models. The purpose of this study was to utilize a porcine model to compare in-vivo versus ex-vivo porcine simulation of CIT that accompanies cardiac transplantation in humans, in order to determine an optimal method for translation of our studies to larger animals.

Methods: Eight 39-55 kg Yorkshire X pigs were randomly assigned to either in-vivo or ex-vivo simulation. After administration of general anesthesia and endotracheal intubation, baseline measurement of left ventricular performance was obtained via transesophageal echocardiography (TEE). After midline sternotomy and heparin administration, the aorta was cross-clamped and two liters of HTK-Custodiol were introduced via the aortic root. The in-vivo method utilized cold ischemic heart storage in the chest cavity while supporting the experimental animal with cardiopulmonary bypass (CPB). The ex-vivo method involved standard cardiac procurement, cold ischemic storage outside of the body, and subsequent cardiac reperfusion utilizing cardiac reanimation in a Langendorff heart perfusion mode. After CIT, measurements of post-ischemic left ventricular performance were obtained via echocardiography. Results are presented as: Mean ± Standard Deviation (Median, Minimum-Maximum).

Results: Weight (kilograms) was similar in the in-vivo group and the ex-vivo group: 44 ± 1.8 (44, 42-46) versus 44 ± 5.1 (43.5, 39-51), respectively. Cold ischemic time (minutes) was longer in the ex-vivo group: 360 ± 0 (360, 360-360) versus 141 ± 26.7 (149, 102-163). Temperature (degrees Celsius) was colder in the ex-vivo group: 8 ± 0 (8, 8-8) versus 16.5 ± 4.2 (16, 12-16).In the in-vivo group, baseline ejection fraction and ejection fraction after CIT were: 48.25% ± 14.95% (48.5%, 33%-63%) and 41.25% ± 22.32% (41.5%, 20%-62%), respectively. In the ex-vivo group, baseline ejection fraction and ejection fraction after CIT were: 56.4% ± 5.9% (57%, 50%-67%) and 60.4% ± 7.7% (61.5%, 51.9%-67%), respectively.

Conclusion: The ex-vivo technique is suitable to evaluate cardioplegia additives that may substantially extend myocardial tolerance to cold ischemia.

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模拟小儿捐献心脏心肌冷缺血的不同猪模型的比较。

背景：我们的团队之前发现了一种干细胞衍生的心脏保护添加剂，可添加到标准心脏麻痹剂中，延长啮齿类动物模型中心肌冷缺血时间（CIT）的心肌存活时间。本研究的目的是利用猪模型比较体内与体外猪模拟人类心脏移植时的 CIT，以确定将我们的研究转化为大型动物的最佳方法：8头39-55公斤重的约克夏X猪被随机分配到体内或体外模拟。进行全身麻醉和气管插管后，通过经食道超声心动图（TEE）测量左心室的基线性能。中线胸骨切开术和肝素给药后，交叉夹闭主动脉，经主动脉根部输入两升 HTK-Custodiol。体内法是将冷缺血心脏储存在胸腔内，同时用心肺旁路（CPB）支持实验动物。体外法包括标准的心脏采集、体外冷缺血储存以及随后利用朗根多夫心脏灌注模式下的心脏复苏进行心脏再灌注。CIT 后，通过超声心动图测量缺血后左心室的性能。结果显示为结果：体内组和体外组的体重（公斤）相似：分别为 44 ± 1.8（44，42-46）对 44 ± 5.1（43.5，39-51）。体外组的冷缺血时间（分钟）更长：360 ± 0（360，360-360）对 141 ± 26.7（149，102-163）。体外组的温度（摄氏度）更低：体外组的基线射血分数和 CIT 后的射血分数分别为：48.25% ± 14.95%（8，8-8）对 16.5 ± 4.2（16，12-16）：体内组的基线射血分数和CIT后的射血分数分别为：48.25%±14.95%（48.5%，33%-63%）和41.25%±22.32%（41.5%，20%-62%）。在体外组中，基线射血分数和 CIT 后的射血分数分别为结论：体内外技术适用于评估可大幅延长心肌对冷缺血耐受性的心脏麻痹添加剂。

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

Perfusion-Uk 医学-外周血管病

CiteScore

3.00

自引率

8.30%

发文量

203

审稿时长

6-12 weeks

期刊介绍： Perfusion is an ISI-ranked, peer-reviewed scholarly journal, which provides current information on all aspects of perfusion, oxygenation and biocompatibility and their use in modern cardiac surgery. The journal is at the forefront of international research and development and presents an appropriately multidisciplinary approach to perfusion science.