Wu Z, Vakalopoulos K A, Kroese L F, Boersema G S A, Kleinrensink G J, Jeekel J, Lange J F
Department of Surgery, Erasmus University Medical Center, Rotterdam, The Netherlands.
Eur Surg Res. 2013;50(3-4):255-61. doi: 10.1159/000350383. Epub 2013 May 31.
Technical failure of sutured or stapled anastomoses may lead to anastomotic leakage, which is one of the most important complications after colorectal surgery. Cyanoacrylate glue (CA) provides strong mechanical attachment, making it a good candidate for suture reinforcement. This study aimed to demonstrate that CA is the most important factor in the strength of a sealed colorectal anastomosis, in both normal and insufficient anastomoses.
Ex vivo porcine colorectal segments were resected. A 1-layer continuous anastomosis or an insufficient 6-interrupted-suture anastomosis was created, and the baseline anastomotic bursting pressure (ABP) was measured. The primary anastomosis was then reinforced either by CA or with 4 additional interrupted sutures, further inverting the anastomosis. After reinforcement a second ABP test was performed.
Thirty-two segments were used. Reinforcing the anastomosis by CA significantly increased ABP in both normal and insufficient anastomoses when compared to the primary anastomosis (p < 0.05 for all groups); no significant difference in ABP was found between normal and insufficient anastomosis groups after CA reinforcement. Anastomotic reinforcement with CA was not inferior to the reinforcement with sutures in both normal and insufficient anastomoses, and had significantly fewer ABP variances in normal anastomosis groups (p = 0.042).
Reinforcing a colorectal anastomosis with CA increases its mechanical strength in both normal and technically insufficient situations, which may contribute to the reduction of anastomotic leakage. CA is promising for anastomotic reinforcement based on mechanical improvement of the anastomosis, and in vivo studies are needed to evaluate its biological effects.
缝合或吻合器吻合的技术失败可能导致吻合口漏,这是结直肠手术后最重要的并发症之一。氰基丙烯酸酯胶(CA)能提供强大的机械附着作用,使其成为缝合加固的理想选择。本研究旨在证明,在正常和不完全吻合的情况下,CA是密封结直肠吻合口强度的最重要因素。
切除猪离体结直肠段。进行一层连续吻合或不完全的6针间断缝合吻合,并测量基线吻合口破裂压力(ABP)。然后用CA或另外4针间断缝合对初次吻合进行加固,进一步翻转吻合口。加固后进行第二次ABP测试。
共使用32个肠段。与初次吻合相比,用CA加固吻合口在正常和不完全吻合情况下均显著提高了ABP(所有组p<0.05);CA加固后,正常和不完全吻合组之间的ABP无显著差异。在正常和不完全吻合情况下,用CA进行吻合口加固均不逊色于用缝线加固,且在正常吻合组中ABP的差异显著更少(p = 0.042)。
在正常和技术上不完全的情况下,用CA加固结直肠吻合口均可提高其机械强度,这可能有助于减少吻合口漏。基于吻合口机械性能的改善,CA在吻合口加固方面很有前景,需要进行体内研究以评估其生物学效应。
