巨大肩袖撕裂补片桥接重建中的最佳缝合技术：有限元分析

Optimal suturing techniques in patch-bridging reconstruction for massive rotator cuff tears: A finite element analysis.

作者信息

Zhong Yuting, Yu Chengxuan, Feng Sijia, Gao Han, Sun Luyi, Li Yunxia, Chen Shiyi, Chen Jun

机构信息

Sports Medicine Institute of Fudan University, Department of Sports Medicine, Huashan Hospital, Fudan University, Shanghai, 200040, PR China.

Department of Orthopedic Surgery, The Second Affiliated Hospital, Zhejiang University School of Medicine, Hangzhou, Zhejiang, PR China.

出版信息

Asia Pac J Sports Med Arthrosc Rehabil Technol. 2024 Nov 28;39:22-29. doi: 10.1016/j.asmart.2024.10.002. eCollection 2025 Jan.

DOI:10.1016/j.asmart.2024.10.002

PMID:39669381

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11635007/

Abstract

PURPOSE

To use a finite element method to construct a patch-bridge repair model for massive rotator cuff tears (MRCTs) and investigate the effects of different suture methods and knot numbers on postoperative biomechanics.

METHODS

A finite element model based on intact glenohumeral joint data was used for a biomechanical study. A full-thickness defect and retraction model of the supraspinatus tendon simulated MRCTs. Patch, suture, and anchor models were constructed, and the Marlow method was used to assign the material properties. Three suturing models were established: 1-knot simple, 1-knot mattress, and 2-knot mattress. The ultimate failure load, failure mode, stress distribution of each structure, and other biomechanical results of the different models were calculated and compared.

RESULTS

The ultimate failure load of the 1-knot mattress suture (71.3 N) was 5.6 % greater than that of the 1-knot simple suture (67.5 N), while that (81.5 N) of the 2-knot mattress was 14.3 % greater than that of the 1-knot mattress. The stress distribution on the patch and supraspinatus tendon was concentrated on suture perforation. Failure of the bridging reconstruction mainly occurred at the suture perforation of the patch, and the damage forms included cutting-through and isthmus pull-out.

CONCLUSION

A finite element model for the patch-bridging reconstruction of MRCTs was established, and patch-bridging restored the mechanical integrity of the rotator cuff. The 2-knot mattress suture was optimal for patch-bridging reconstruction of MRCTs.

摘要

目的

采用有限元方法构建巨大肩袖撕裂（MRCT）的补片-桥接修复模型，并研究不同缝合方法和打结数量对术后生物力学的影响。

方法

基于完整盂肱关节数据的有限元模型用于生物力学研究。模拟MRCT的冈上肌腱全层缺损和回缩模型。构建补片、缝线和锚钉模型，并采用马洛方法赋予材料属性。建立三种缝合模型：单结简单缝合、单结褥式缝合和双结褥式缝合。计算并比较不同模型的极限破坏载荷、破坏模式、各结构的应力分布及其他生物力学结果。

结果

单结褥式缝合的极限破坏载荷（71.3 N）比单结简单缝合（67.5 N）高5.6%，而双结褥式缝合的极限破坏载荷（81.5 N）比单结褥式缝合高14.3%。补片和冈上肌腱上的应力分布集中在缝线穿孔处。桥接重建的失败主要发生在补片的缝线穿孔处，损伤形式包括穿透和峡部拔出。

结论

建立了MRCT补片-桥接重建的有限元模型，补片-桥接恢复了肩袖的力学完整性。双结褥式缝合是MRCT补片-桥接重建的最佳选择。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4798/11635007/54db16db0cf0/gr1.jpg

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巨大肩袖撕裂补片桥接重建中的最佳缝合技术：有限元分析

Optimal suturing techniques in patch-bridging reconstruction for massive rotator cuff tears: A finite element analysis.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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