局部应用氨甲环酸预防吻合口漏：靶向细菌介导纤溶酶原激活的实用解决方案。

Prevention of Anastomotic Leak Via Local Application of Tranexamic Acid to Target Bacterial-mediated Plasminogen Activation: A Practical Solution to a Complex Problem.

机构信息

Rush University Medical Center Department of Surgery, Chicago, IL.

The University of Chicago Pritzker School of Medicine Department of Surgery, Chicago, IL.

出版信息

Ann Surg. 2021 Dec 1;274(6):e1038-e1046. doi: 10.1097/SLA.0000000000003733.

DOI:10.1097/SLA.0000000000003733

PMID:31851007

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7875208/

Abstract

OBJECTIVE

To investigate the role of bacterial- mediated plasminogen (PLG) activation in the pathogenesis of anastomotic leak (AL) and its mitigation by tranexamic acid (TXA).

BACKGROUND

AL is the most feared complication of colorectal resections. The pathobiology of AL in the setting of a technically optimal procedure involves excessive submucosal collagen degradation by resident microbes. We hypothesized that activation of the host PLG system by pathogens is a central and targetable pathway in AL.

METHODS

We employed kinetic analysis of binding and activation of human PLG by microbes known to cause AL, and collagen degradation assays to test the impact of PLG on bacterial collagenolysis. Further, we measured the ability of the antifibrinolytic drug TXA to inhibit this process. Finally, using mouse models of pathogen-induced AL, we locally applied TXA via enema and measured its ability to prevent a clinically relevant AL.

RESULTS

PLG is deposited rapidly and specifically at the site of colorectal anastomoses. TXA inhibited PLG activation and downstream collagenolysis by pathogens known to have a causal role in AL. TXA enema reduced collagenolytic bacteria counts and PLG deposition at anastomotic sites. Postoperative PLG inhibition with TXA enema prevented clinically and pathologically apparent pathogen-mediated AL in mice.

CONCLUSIONS

Bacterial activation of host PLG is central to collagenolysis and pathogen-mediated AL. TXA inhibits this process both in vitro and in vivo. TXA enema represents a promising method to prevent AL in high-risk sites such as the colorectal anastomoses.

摘要

目的

研究细菌介导的纤溶酶原（PLG）激活在吻合口漏（AL）发病机制中的作用及其被氨甲环酸（TXA）缓解的作用。

背景

AL 是结直肠切除术后最可怕的并发症。在技术上最佳的手术过程中，AL 的病理生物学涉及驻留微生物对黏膜下胶原的过度降解。我们假设病原体对宿主 PLG 系统的激活是 AL 的一个核心和可靶向的途径。

方法

我们采用已知可引起 AL 的微生物对人 PLG 结合和激活的动力学分析，以及胶原降解测定来测试 PLG 对细菌胶原分解的影响。此外，我们还测量了抗纤维蛋白溶解药物 TXA 抑制这一过程的能力。最后，使用病原体诱导的 AL 小鼠模型，我们通过灌肠局部应用 TXA，并测量其预防临床上相关 AL 的能力。

结果

PLG 迅速且特异性地沉积在结直肠吻合部位。TXA 抑制了已知在 AL 中具有因果关系的病原体的 PLG 激活和下游胶原分解。TXA 灌肠减少了吻合部位胶原分解菌的数量和 PLG 沉积。术后 TXA 灌肠抑制 PLG 可预防小鼠中临床上和病理上明显的病原体介导的 AL。

结论

细菌激活宿主 PLG 是胶原分解和病原体介导的 AL 的核心。TXA 既在体外又在体内抑制这一过程。TXA 灌肠代表了预防结直肠吻合等高危部位 AL 的一种有前途的方法。

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