Incorporating a poly-ε-caprolactone scaffold in a stapled small intestinal anastomosis with induced ischemia significantly increased anastomotic tensile strength. An experimental study in pigs.
Jon Erlend Rimereit, Carl Gunnar William Lindgren, Nikolaj Nerup, Gunvor Iben Madsen, Dang Quang Svend Le, Sören Möller, Niels Qvist, Mark Bremholm Ellebaek
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引用次数: 0
Abstract
Objective: Anastomotic leakage is a severe complication with multifactorial aetiology, including impaired tissue oxygenation, infection, inflammation, and anastomotic tension. Reinforcement with poly-ε-caprolactone (PCL) scaffold incorporated in a stapled intestinal anastomosis has demonstrated a significant increase in the anastomotic tensile strength. This study aimed to investigate whether incorporation of the scaffold would influence tensile strength with induced ischemia compared to normal blood perfusion.
Methods: Eighteen pigs were randomly allocated into an intervention group with a induced relative reduction in blood perfusion to 30% at the anastomotic area and a control group with normal perfusion controlled by quantitative fluorescence angiography. Each pig recieved two stapled small intestinal anastomoses, one with a PCL scaffold incorporated and one without. On postoperative day five, the anastomoses were subjected to a maximal tensile strength test (MATS) and a histopathological analysis. Tensile strength was measured at three events: when a serosal tear became visible (MATS-1), at transmural rupture (MATS-2), and at maximum load before the load-strain curve dropped (MATS-3).
Results: In the intervention group, MATS-1 was significantly higher in scaffold-reinforced anastomoses compared to controls (7.9 ± 4.2N and 4.4 ± 2.5N, p < 0.02). The same tendency was found for MATS-2 and MATS-3, with statistically significant differences after adjusting for adhesion grade (p < 0.05). Histological analysis revealed no significant differences in wound healing between groups.
Conclusion: Incorporating a PCL scaffold in a stapled small intestinal anastomosis with induced ischemia improved anastomotic tensile strength.
目的:吻合口瘘是一种多因素的严重并发症,包括组织氧合受损、感染、炎症和吻合口张力。聚-ε-己内酯(PCL)支架在吻合器肠吻合器中的加固效果显著增加了吻合口的拉伸强度。本研究旨在探讨与正常血液灌注相比,支架的掺入是否会影响诱导缺血的抗张强度。方法:将18头猪随机分为诱导吻合口血流灌注相对减少30%的干预组和定量荧光血管造影控制血流灌注正常的对照组。每只猪接受两个小肠吻合器,其中一个与PCL支架合并,另一个没有。术后第5天,对吻合口进行最大拉伸强度试验(MATS)和组织病理学分析。在三种情况下测量拉伸强度:当浆膜撕裂可见时(MATS-1),跨壁破裂时(MATS-2),以及在载荷-应变曲线下降之前的最大载荷时(MATS-3)。结果:在干预组中,支架增强吻合口的MATS-1明显高于对照组(7.9±4.2N和4.4±2.5N, p p)。结论:在诱导缺血的小肠吻合器中应用PCL支架可提高吻合口的抗张强度。
期刊介绍:
The Scandinavian Journal of Gastroenterology is one of the most important journals for international medical research in gastroenterology and hepatology with international contributors, Editorial Board, and distribution
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