核心缝合材料和周边修复技术对凯斯勒屈肌腱修复强度的影响。

Influence of core suture material and peripheral repair technique on the strength of Kessler flexor tendon repair.

作者信息

Mishra V, Kuiper J H, Kelly C P

机构信息

Hand and Upper Limb Unit, Robert Jones and Agnes Hunt Orthopaedic Hospital, Oswestry, UK.

出版信息

J Hand Surg Br. 2003 Aug;28(4):357-62. doi: 10.1016/s0266-7681(03)00080-9.

DOI:10.1016/s0266-7681(03)00080-9

PMID:12849948

Abstract

The purpose of our study was to determine the most favourable combination of core suture material and peripheral repair technique for Kessler tendon repair. Thirty freshly thawed pig flexor tendons were repaired by a Kessler technique, either with braided polyester or monofilament nylon suture. A peripheral augmentation was done using one of the three techniques-running, cross-stitch and Halsted. All repairs were tested by cyclic loading, followed by load-to-failure. During cyclic loading six of the 15 tendons with a nylon core failed, but none with a braided polyester core. Irrespective of peripheral technique, the monofilament nylon core suture allowed early central cyclic gapping, resulting in failure of the repair. During load-to-failure testing, the running stitch proved weakest and the cross-stitch repair toughest.

摘要

我们研究的目的是确定用于凯斯勒肌腱修复的核心缝合材料和周边修复技术的最有利组合。采用凯斯勒技术，用编织聚酯或单丝尼龙缝线对30条刚解冻的猪屈肌腱进行修复。使用三种技术之一——连续缝合、十字缝合法和哈氏缝合法进行周边增强。所有修复均通过循环加载测试，然后进行破坏载荷测试。在循环加载过程中，15条尼龙核心肌腱中有6条失败，但编织聚酯核心的肌腱无一失败。无论周边技术如何，单丝尼龙核心缝合线都会导致早期中央循环间隙，从而导致修复失败。在破坏载荷测试中，连续缝合法被证明是最弱的，而十字缝合法修复最牢固。

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核心缝合材料和周边修复技术对凯斯勒屈肌腱修复强度的影响。

Influence of core suture material and peripheral repair technique on the strength of Kessler flexor tendon repair.

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