Technical and analytical approach to biventricular pressure-volume loops in swine including a completely endovascular, percutaneous closed-chest large animal model

Q3 Medicine
David P. Stonko MD, MS , Mathieu C. Rousseau MD , Colin Price BS , Amy Benike MS , Rebecca N. Treffalls BS , Nichole E. Brunton DO , Dorian Rosen PhD , Jonathan J. Morrison MBChB, PhD
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引用次数: 0

Abstract

Pressure-volume (PV) loop analysis is a sophisticated invasive approach to quantifying load-dependent and independent measures of cardiac function. Biventricular (BV) PV loops allow left and right ventricular function to be quantified simultaneously and independently, which is important for conditions and certain physiologic states, such as ventricular decoupling or acute physiologic changes. BV PV loops can be performed in an entirely endovascular, percutaneous, and closed-chest setting. This technique is helpful in a survival animal model, as a percutaneous monitoring system during endovascular device experiments, or in cases where chest wall compliance is being tested or may be a confounder. In this article, we describe the end-to-end implementation of a completely endovascular, totally percutaneous, and closed-chest large animal model to obtain contemporaneous BV PV loops in 40 to 70 kg swine. We describe the associated surgical and technical challenges and our solutions to obtaining endovascular BV PV loops, closed-chest cardiac output, and stroke volume (including validation of the correction factor necessary for thermodilution), as well as how to perform endovascular inferior vena cava occlusion in this swine model. We also include techniques for data acquisition and analysis that are required for this method.

Abstract Image

猪双心室压力-容积环路的技术和分析方法,包括完全血管内、经皮闭胸大型动物模型
压力-容积(PV)环路分析是一种复杂的有创方法,用于量化心脏功能的负荷依赖性和独立指标。双心室(BV)压力-容积环路可同时独立量化左心室和右心室的功能,这对于心室解耦或急性生理变化等情况和某些生理状态非常重要。BV PV 循环可在完全血管内、经皮和闭胸的情况下进行。该技术有助于建立存活的动物模型,在血管内设备实验中作为经皮监测系统,或在测试胸壁顺应性或可能成为混杂因素的情况下使用。在这篇文章中,我们描述了一种完全经皮、闭胸的血管内大型动物模型的端到端实施过程,该模型用于获取 40 至 70 千克猪的同期 BV PV 环路。我们描述了相关的手术和技术挑战,以及获得血管内BV PV环路、闭胸心输出量和每搏容量的解决方案(包括验证热稀释所需的校正因子),以及如何在该猪模型中进行血管内下腔静脉闭塞。我们还包括该方法所需的数据采集和分析技术。
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
CiteScore
4.20
自引率
0.00%
发文量
0
审稿时长
28 weeks
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