Department of General, Visceral- and Transplantation Surgery, RWTH Aachen University Hospital, Pauwelsstr. 30, 52074 Aachen, Germany.
Institute fuer Textiltechnik, RWTH Aachen University, 52074 Aachen, Germany.
Int J Mol Sci. 2022 May 11;23(10):5389. doi: 10.3390/ijms23105389.
Gastrointestinal anastomoses are an important source of postoperative complications. In particular, the ideal suturing material is still the subject of investigation. Therefore, this study aimed to evaluate a newly developed suturing material with elastic properties made from thermoplastic polyurethane (TPU); Polyvinylidene fluoride (PVDF) and TPU were tested in two different textures (round and a modified, "snowflake" structure) in 32 minipigs, with two anastomoses of the small intestine sutured 2 m apart. After 90 days, the anastomoses were evaluated for inflammation, the healing process, and foreign body reactions. A computer-assisted immunohistological analysis of staining for Ki67, CD68, smooth muscle actin (SMA), and Sirius red was performed using TissueFAXS. Additionally, the in vivo elastic properties of the material were assessed by measuring the suture tension in a rabbit model. Each suture was tested twice in three rabbits; No major surgical complications were observed and all anastomoses showed adequate wound healing. The Ki67+ count and SMA area differed between the groups (F (3, 66) = 5.884, = 0.0013 and F (3, 56) = 6.880, = 0.0005, respectively). In the TPU-snowflake material, the Ki67+ count was the lowest, while the SMA area provided the highest values. The CD68+ count and collagen I/III ratio did not differ between the groups (F (3, 69) = 2.646, = 0.0558 and F (3, 54) = 0.496, = 0.686, respectively). The suture tension measurements showed a significant reduction in suture tension loss for both the TPU threads; Suturing material made from TPU with elastic properties proved applicable for intestinal anastomoses in a porcine model. In addition, our results suggest a successful reduction in tissue incision and an overall suture tension homogenization.
胃肠吻合术是术后并发症的一个重要来源。特别是,理想的缝合材料仍在研究中。因此,本研究旨在评估一种新开发的具有弹性的缝合材料,该材料由热塑性聚氨酯(TPU)制成;聚偏二氟乙烯(PVDF)和 TPU 以两种不同的纹理(圆形和改良的“雪花”结构)在 32 只小型猪中进行了测试,将小肠的两个吻合部位缝合 2 m 远。90 天后,对吻合部位进行炎症、愈合过程和异物反应评估。使用 TissueFAXS 对 Ki67、CD68、平滑肌肌动蛋白(SMA)和 Sirius 红的免疫组织化学染色进行计算机辅助分析。此外,通过在兔模型中测量缝线张力来评估材料的体内弹性特性。每个缝线在三只兔子中测试两次;未观察到主要手术并发症,所有吻合部位均显示出适当的伤口愈合。Ki67+计数和 SMA 面积在组间存在差异(F(3,66)= 5.884, = 0.0013 和 F(3,56)= 6.880, = 0.0005)。在 TPU-雪花材料中,Ki67+计数最低,而 SMA 面积提供了最高值。CD68+计数和胶原 I/III 比值在组间无差异(F(3,69)= 2.646, = 0.0558 和 F(3,54)= 0.496, = 0.686)。缝线张力测量显示,两种 TPU 缝线的缝线张力损失均显著降低;具有弹性的 TPU 缝线材料适用于猪模型中的肠吻合术。此外,我们的结果表明组织切口成功减少,缝线整体张力均匀化。
