A novel rat lung transplantation model using venoarterial extracorporeal membrane oxygenation support

IF 1.7 Q3 CARDIAC & CARDIOVASCULAR SYSTEMS JTCVS Techniques Pub Date : 2024-10-01 DOI:10.1016/j.xjtc.2024.07.002

Xiucheng Yang MD , Mingzhao Liu MD , Jin Zhao MD , Dong Tian MD, PhD , Bingqing Yue MD , Jingbo Shao MD , Dong Wei MD , Man Huang PhD , Jingyu Chen MD

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Abstract

Objectives

Extracorporeal membrane oxygenation (ECMO) has become an important life support technique during lung transplantation. We aimed to develop a rat model for lung transplantation using venoarterial (VA) ECMO support.

Methods

Adult male Sprague-Dawley rats weighing 400 to 450 g were used in this study. ECMO circuits were created by obtaining venous access from the femoral vein with subsequent extracorporeal oxygen exchange, which was then returned to the circulatory system through the left carotid artery (ie, VA-ECMO). Simultaneously, the donor lungs were retrieved and immersed in cold, low-potassium dextran lung preservation solution. Orthotopic left lung transplantation supported by VA-ECMO was performed. Thereafter, a respiratory failure rat model was constructed using ventilation with a hypoxic and hypercapnic gas mixture, consisting of 6% oxygen, 8% carbon dioxide, and 86% nitrogen, before lung transplantation. Similarly, left lung transplantation supported by VA-ECMO was performed in rats with respiratory failure. Arterial blood gas levels were measured at designated time points throughout the experiment.

Results

We found that VA-ECMO provided sufficient oxygenation and carbon dioxide removal to allow for smooth left lung transplantation in healthy rats and those with respiratory failure.

Conclusions

We established a rat model for lung transplantation using VA-ECMO. Left lung transplantation using VA-ECMO support is also feasible and safe in rat models of respiratory failure. These models provide efficient and economical models for translational medicine for lung transplantation using ECMO. Moreover, it will be invaluable to evaluate the physiological and pathophysiological roles of ECMO during lung transplantation.

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使用静脉-动脉体外膜氧合支持的新型大鼠肺移植模型

目的体外膜肺氧合（ECMO）已成为肺移植过程中一项重要的生命支持技术。我们的目的是利用静脉动脉（VA）ECMO 支持建立肺移植大鼠模型。方法本研究使用体重 400-450 克的成年雄性 Sprague-Dawley 大鼠。大鼠体重为 400 至 450 克，通过从股静脉获得静脉通路建立 ECMO 循环，随后进行体外氧交换，再通过左颈动脉返回循环系统（即 VA-ECMO）。同时，取回供体肺，并将其浸泡在低温、低钾右旋糖酐肺保存液中。在 VA-ECMO 的支持下进行了异位左肺移植。此后，在肺移植前使用由 6% 氧气、8% 二氧化碳和 86% 氮气组成的缺氧和高碳酸血症混合气体通气，建立了呼吸衰竭大鼠模型。同样，在 VA-ECMO 的支持下，对呼吸衰竭大鼠进行了左肺移植。结果我们发现 VA-ECMO 提供了足够的氧合和二氧化碳排出，使健康大鼠和呼吸衰竭大鼠的左肺移植手术顺利进行。在呼吸衰竭大鼠模型中，使用 VA-ECMO 支持进行左肺移植也是可行和安全的。这些模型为使用 ECMO 进行肺移植的转化医学提供了高效、经济的模型。此外，对评估 ECMO 在肺移植过程中的生理和病理生理学作用也非常有价值。

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