A novel arterial coupler with non-return snap-fit connection approach optimized arterial end-to-end anastomotic technique: An experimental study.

IF 1.8 4区 医学 Q2 ORTHOPEDICS Chinese Journal of Traumatology Pub Date : 2024-09-17 DOI:10.1016/j.cjtee.2024.09.006
Hong-Bo Guo, Mo-Fei Wang, Ren-Qi Yin, Kang-Kang Zhi
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Abstract

Purpose: Hand-sewn anastomosis as the gold standard of vascular anastomosis cannot fully meet the requirements of vascular anastomosis in speed and quality. Various vascular couplers have been developed to ameliorate this situation. Most of them are mainly used for venous anastomosis rather than arterial anastomosis, even though it is generally acknowledged that in almost all operations involving vascular reconstruction, it is the arteries that need to be anastomosed faster and more accurately and not the veins. A dedicated device is needed for creating arterial anastomosis in an easy, timesaving, less damaging but reliable procedure. Therefore, we plan to develop a novel arterial coupler device and test pre-clinical safety and effectiveness.

Methods: In this cohort study, the rationality of this novel arterial coupler was preliminarily tested by finite element analysis before it was manufactured. Several factors restrict the use of vascular couplers in arterial anastomosis, such as arterial eversion, fixation, etc. The manufactured arterial couplers underwent in vitro and in vivo experiments. In vitro, isolated arteries of beagles were anastomosed with the assistance of an arterial coupler, and the anastomosed arteries were evaluated through anti-traction tests. In animal experiments, the bilateral femoral arteries of 5 beagles served as a control group. After dissection, the femoral artery on one side was randomly selected to be anastomosed with a quick arterial coupler (QAC) (QAC group), and the femoral artery on the other side was anastomosed by the same person using an end-to-end suture technique with a 6-0 Prolene suture (suture group). The bilateral femoral arteries of 5 beagles were used for coupler-assisted anastomosis and hand-sewn anastomosis in vivo, respectively. Success rate, blood loss, anastomotic time, clamp time, total operation time, and patency rate were recorded. The patency of anastomosed arteries was assessed using vascular Doppler ultrasound, electromagnetic flowmeter, and pathological examination (6 weeks after surgery).

Results: As a novel arterial coupler, QAC was successfully designed and manufactured by using poly lactic-co-glycolic acid raw materials and 3-dimensions printing technology. Its rationality was preliminarily tested through finite element analysis and related mechanical analysis methods. The isolated arteries were successfully anastomosed with the assistance of QAC in vitro testing, which showed good anti-traction properties. In animal studies, QAC-assisted arterial anastomosis has superior profiles compared to hand-sewn anastomosis in anastomotic time (7.80 ± 1.41 vs. 16.38 ± 1.04 min), clamp time (8.80 ± 1.41 vs. 14.14 ± 1.57 min), and total operation time (46.64 ± 2.38 vs. 51.96 ± 3.65 min). The results of electromagnetic flowmeter, vascular Doppler ultrasound, and pathological examination showed that QAC-assisted anastomotic arteries were superior to hand-sewn arteries in terms of postoperative blood flow (16.86 ± 3.93 vs. 10.36 ± 0.92 mL/min) and vascular patency in 6 weeks after surgery.

Conclusion: QAC is a well-designed and easily maneuverable device specialized for end-to-end arterial anastomosis. Application of this device may decrease thermal ischemia time and improve the patency of anastomotic arteries, thus, improving outcomes.

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新型动脉耦合器与非回流卡入式连接方法优化了动脉端到端吻合技术:实验研究。
目的:手工缝合作为血管吻合的金标准,在速度和质量上无法完全满足血管吻合的要求。为了改善这种情况,人们开发了各种血管耦合器。尽管人们普遍认为,在几乎所有涉及血管重建的手术中,需要更快、更准确吻合的是动脉而不是静脉,但它们大多主要用于静脉吻合而不是动脉吻合。因此,我们需要一种专用设备,以简便、省时、损伤小且可靠的方式进行动脉吻合。因此,我们计划开发一种新型动脉耦合器装置,并对其临床前安全性和有效性进行测试:在这项队列研究中,我们在制造这种新型动脉耦合器之前,通过有限元分析对其合理性进行了初步测试。在动脉吻合术中使用血管耦合器受到多种因素的限制,如动脉外翻、固定等。制造出的动脉耦合器经过了体外和体内实验。在体外实验中,在动脉耦合器的辅助下吻合了小猎犬的离体动脉,并通过抗牵引试验对吻合动脉进行了评估。在动物实验中,5 只猎犬的双侧股动脉作为对照组。解剖后,随机选择一侧股动脉用快速动脉耦合器(QAC)进行吻合(QAC 组),另一侧股动脉由同一人使用 6-0 Prolene 缝线进行端对端缝合(缝合组)。5 只猎犬的双侧股动脉分别用于耦合器辅助吻合和体内手缝吻合。记录了吻合成功率、失血量、吻合时间、钳夹时间、总手术时间和通畅率。使用血管多普勒超声、电磁流量计和病理检查(术后 6 周)评估吻合动脉的通畅情况:结果:采用聚乳酸-共聚乙醇酸原料和三维打印技术,成功设计并制造了新型动脉耦合器 QAC。通过有限元分析和相关力学分析方法对其合理性进行了初步测试。在体外测试中,离体动脉在 QAC 的辅助下成功吻合,显示出良好的抗牵引性。在动物实验中,QAC 辅助动脉吻合术在吻合时间(7.80 ± 1.41 vs. 16.38 ± 1.04 分钟)、夹持时间(8.80 ± 1.41 vs. 14.14 ± 1.57 分钟)和总手术时间(46.64 ± 2.38 vs. 51.96 ± 3.65 分钟)方面均优于手缝吻合术。电磁流量计、血管多普勒超声和病理检查结果表明,QAC辅助吻合动脉的术后血流量(16.86 ± 3.93 vs. 10.36 ± 0.92 mL/min)和术后6周的血管通畅度均优于手缝动脉:结论:QAC 是一种设计精良、易于操作的装置,专门用于端对端动脉吻合术。结论:QAC 是一种设计精良、易于操作的装置,专门用于端对端动脉吻合术,应用该装置可缩短热缺血时间,改善吻合动脉的通畅性,从而改善预后。
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来源期刊
CiteScore
3.80
自引率
4.80%
发文量
1707
审稿时长
28 weeks
期刊介绍: Chinese Journal of Traumatology (CJT, ISSN 1008-1275) was launched in 1998 and is a peer-reviewed English journal authorized by Chinese Association of Trauma, Chinese Medical Association. It is multidisciplinary and designed to provide the most current and relevant information for both the clinical and basic research in the field of traumatic medicine. CJT primarily publishes expert forums, original papers, case reports and so on. Topics cover trauma system and management, surgical procedures, acute care, rehabilitation, post-traumatic complications, translational medicine, traffic medicine and other related areas. The journal especially emphasizes clinical application, technique, surgical video, guideline, recommendations for more effective surgical approaches.
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