Impact of Hypothermic Perfusion on Immune Responses and Sterile Inflammation in a Preclinical Model of Pancreatic Transplantation.

IF 1.9 Q3 TRANSPLANTATION

Transplantation Direct Pub Date : 2024-12-13 eCollection Date: 2025-01-01 DOI:10.1097/TXD.0000000000001743

Benoit Mesnard, Sarah Bruneau, Stéphanie Le Bas-Bernardet, Etohan Ogbemudia, Delphine Kervella, Christophe Masset, Mélanie Neel, M David Minault, M Jeremy Hervouet, Diego Cantarovich, Jérôme Rigaud, Lionel Badet, Peter Friend, Rutger Ploeg, Gilles Blancho, James Hunter, Thomas Prudhomme, Julien Branchereau

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Abstract

Background: In organ transplantation, cold ischemia is associated with sterile inflammation that subsequently conditions adaptive immunity directed against the grafts during revascularization. This inflammation is responsible for venous thrombosis, which is the main postoperative complication affecting graft function. Our aim was to investigate the modulation of immune responses and endothelial function of pancreatic grafts during cold ischemia using different preservation modalities.

Methods: According to a preclinical porcine model of controlled donation after circulatory death, pancreatic grafts were preserved under hypothermic conditions for 24 h according to 4 modalities: static cold storage, hypothermic machine perfusion, hypothermic oxygenated perfusion at 21%, and 100%. Biopsies of the head and tail of the pancreas were performed during preservation. The first step involved a broad screening of the gene expression profile (84 genes) during preservation on a limited number of grafts. In the second step, a confirmation test was performed in all 4 groups.

Results: Vascular endothelial growth factor gene expression showed a decrease during preservation in the hypothermic oxygenated perfusion 21% and 100% groups compared with the static cold storage group. In contrast, thrombomodulin gene expression showed an increase during preservation in the hypothermic oxygenated perfusion 21% and 100% groups compared with the static cold storage and hypothermic machine perfusion groups.

Conclusions: We demonstrated that compared with static cold storage, hypothermic oxygenated perfusion is an effective modality for modulating endothelial function by increasing thrombomodulin expression and decreasing ischemia and vascular endothelial growth factor expression.

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低温灌注对胰腺移植临床前模型免疫反应和无菌炎症的影响

背景：在器官移植过程中，冷缺血与无菌性炎症有关，这种炎症会在血管再通过程中产生针对移植物的适应性免疫。这种炎症是静脉血栓形成的原因，也是影响移植物功能的主要术后并发症。我们的目的是利用不同的保存方式，研究冷缺血期间胰腺移植物免疫反应和内皮功能的调节：方法：根据猪循环死亡后控制性捐献的临床前模型，胰腺移植物在低温条件下按照 4 种模式保存 24 小时：静态冷藏、低温机器灌注、21% 低温氧合灌注和 100% 低温氧合灌注。在保存过程中对胰腺头部和尾部进行了活检。第一步是在保存过程中对数量有限的移植物进行基因表达谱（84 个基因）的广泛筛选。第二步，对所有 4 组进行确认测试：结果：与静态冷藏组相比，低温氧合灌注 21% 组和 100% 组的血管内皮生长因子基因表达在保存过程中有所下降。相比之下，低温氧合灌注 21% 组和 100% 组与静态冷藏组和低温机器灌注组相比，血栓调节蛋白基因表达在保存过程中有所增加：我们证明，与静态冷藏相比，低温氧合灌注是一种通过增加血栓调节蛋白表达、减少缺血和血管内皮生长因子表达来调节内皮功能的有效方式。

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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