优化磁压榨吻合术在犬肠组织中的力学范围。
Optimized force range of magnetic compression anastomosis in dog intestinal tissue.
机构信息
State Key Laboratory for Manufacturing Systems Engineering, Xi'an Jiaotong University, 710049, Xi'an, China.
The First Affiliated Hospital of Xi'an Jiaotong University, 710061, Xi'an, China; National Local Joint Engineering Research Center for Precision Surgery & Regenerative Medicine, Xi'an Jiaotong University, 710061, Xi'an, China; Department of surgical oncology, the Third Affiliated Hospital, Xi'an Jiaotong University, Shaanxi Provincial People's Hospital, 710068, Xi'an, China.
出版信息
J Pediatr Surg. 2019 Oct;54(10):2166-2171. doi: 10.1016/j.jpedsurg.2019.03.005. Epub 2019 Mar 20.
BACKGROUND
Magnetic compression anastomosis (MCA) is a commonly used anastomosis method. MCA was widely used in tissues repair, gastroenterostomy, choledochoenterostomy, and so on. It is safer and more effective than stapler and manual surgical suturing. However, there are few detailed studies on the biomechanical characteristics and tissue transformation mechanisms of the anastomosis process. In this research, taking intestinal tissue as research object, we need to determine an optimal compressive force range to provide a biomechanical reference for the design of anastomats.
METHODS
Magnets with different magnetic force groups (2.06, 3.21, 6.27, 13.3 and 19.2 N) were implanted into each dog to form intestinal tissue side-to-side anastomoses. Five dogs were euthanized on each of postoperative day 1, day 3, and day 7. Anastomoses were then harvested and compared with respect to postoperative complications, histology and tear-resistance load capacity (TRLC).
RESULTS
The TRLC of anastomotic tissue formed by magnets with different magnetic forces differed markedly, but with the tissue growth, the TRLC differences between groups were decreased. Histology of anastomotic tissue showed that, in the initial stage, the anastomoses compressed by 2.06-N magnets did not form effectively, while the leakage appeared in the anastomoses compressed by 19.2-N magnets, in the rest groups, with magnetic force increasing, severity of ischemia and necrosis of compressed tissue increased and healing speed of anastomotic tissue improved. In the late stage, the influence of magnetic force for anastomotic tissue was gradually diminished.
CONCLUSIONS
The magnetic force applied on the magnetic compression anastomats affects the necrosis speed of compressed tissue and the healing speed of anastomotic tissue. The optimal compressive force range for intestinal compression anastomosis is 6.27 N to 13.3 N, and the actual optimal compression pressure is 79.8 kPa - 169 kPa.
LEVEL OF EVIDENCE
Magnetic compression anastomosis (MCA) is a commonly used anastomosis method. MCA was widely used in tissues repair, gastroenterostomy, choledochoenterostomy, and so on. It is safer and more effective than stapler and manual surgical suturing. However, there are few detailed studies on the biomechanical characteristics and tissue transformation mechanisms of the anastomosis process. In this research, taking intestinal tissue as research object, we need to determine an optimal compressive force range to provide a biomechanical reference for the design of anastomats.
背景
磁压缩吻合术(MCA)是一种常用的吻合术方法。MCA 广泛应用于组织修复、胃肠吻合、胆肠吻合等领域。它比吻合器和手动缝合更安全、更有效。然而,关于吻合过程的生物力学特性和组织转化机制的详细研究较少。在这项研究中,以肠组织为研究对象,我们需要确定一个最佳的压缩力范围,为吻合器的设计提供生物力学参考。
方法
将具有不同磁力组(2.06、3.21、6.27、13.3 和 19.2N)的磁铁植入每只狗体内,形成肠组织侧侧吻合。术后第 1、3、7 天每组处死 5 只狗。然后采集吻合口,比较术后并发症、组织学和抗撕裂负荷能力(TRLC)。
结果
不同磁力吻合组织的 TRLC 差异显著,但随着组织生长,各组间 TRLC 差异减小。吻合组织的组织学显示,在初始阶段,受 2.06N 磁铁压缩的吻合口未有效形成,而受 19.2N 磁铁压缩的吻合口出现渗漏,在其余组中,随着磁力的增加,受压组织的缺血和坏死程度加重,吻合口组织的愈合速度加快。在后期,磁力对吻合组织的影响逐渐减弱。
结论
磁压缩吻合器施加的磁力会影响受压组织的坏死速度和吻合口组织的愈合速度。肠压缩吻合的最佳压缩力范围为 6.27N 至 13.3N,实际最佳压缩压力为 79.8kPa 至 169kPa。
证据等级
磁压缩吻合术(MCA)是一种常用的吻合术方法。MCA 广泛应用于组织修复、胃肠吻合、胆肠吻合等领域。它比吻合器和手动缝合更安全、更有效。然而,关于吻合过程的生物力学特性和组织转化机制的详细研究较少。在这项研究中,以肠组织为研究对象,我们需要确定一个最佳的压缩力范围,为吻合器的设计提供生物力学参考。
Zotero 插件