伸肌腱的钻孔穿透伤：生物力学分析

Drill Penetration Injury to Extensor Tendons: A Biomechanical Analysis.

作者信息

Mahylis Jared M, Burwell Anora K, Bonneau Laura, Marshall Lynn M, Mirarchi Adam J

机构信息

1 Oregon Health & Science University, Portland, USA.

2 Plastic Surgery Northwest, Spokane, WA, USA.

出版信息

Hand (N Y). 2017 May;12(3):301-306. doi: 10.1177/1558944716668824. Epub 2016 Sep 20.

DOI:10.1177/1558944716668824

PMID:28453347

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5480667/

Abstract

BACKGROUND

Little is known about extensor tendon failure following drill injury at the time of volar plate fixation. Our goals were to analyze extensor tendon injury following simulated drill penetration, and change in tendon displacement during cyclic loading following simulated drill penetration injury.

METHODS

Extensor pollicis longus (EPL) and extensor carpi radialis brevis (ECRB) tendons were harvested from 9 fresh frozen cadaveric arms. Eighteen EPL and 18 ECRB samples were created from harvested tendons. Drill penetration injury was performed in either a continuous or an oscillating mode. Injured tendons were subjected to 1200 cycles at 1- to 15-kg cyclic load at a frequency of 1 Hz, and analyzed for failure at drill sites and change in displacement throughout the testing cycle.

RESULTS

Ten EPL samples and 16 ECRB samples completed testing without failure. Tendon type (ECRB, EPL), mode of injury (continuous, oscillating), and location (proximal, distal) did not affect tendon displacement during loading. A single EPL tendon failed following continuous drill penetration injury. Extensor carpi radialis brevis samples had a mean change in displacement of 2.8 (standard deviation [SD]: 1.5 mm) and 5.9 mm (SD: 4.7 mm) for oscillating and continuous modes, respectively. Six EPL samples had a mean change in displacement of 4.7 (SD: 2.7 mm) and 4.3 mm (SD: 1.8 mm) for oscillating and continuous modes, respectively.

CONCLUSIONS

Complete extensor tendon failure due to drill penetration was rare. Drill mode did not affect the degree of elongation. Increasing cyclic loading of extensor tendons after drill injury caused modest extensor tendon elongation.

摘要

背景

关于掌板固定时钻孔损伤后伸肌腱断裂的情况，人们了解甚少。我们的目标是分析模拟钻孔穿透后伸肌腱损伤情况，以及模拟钻孔穿透损伤后循环加载过程中肌腱位移的变化。

方法

从9具新鲜冷冻尸体手臂上获取拇长伸肌（EPL）和桡侧腕短伸肌（ECRB）肌腱。从获取的肌腱中制作18个EPL样本和18个ECRB样本。以连续或振荡模式进行钻孔穿透损伤。对损伤的肌腱施加1至15千克的循环负荷，频率为1赫兹，共1200个循环，并分析钻孔部位的断裂情况以及整个测试循环中位移的变化。

结果

10个EPL样本和16个ECRB样本完成测试且未发生断裂。肌腱类型（ECRB、EPL）、损伤模式（连续、振荡）和位置（近端、远端）在加载过程中均不影响肌腱位移。1个EPL肌腱在连续钻孔穿透损伤后发生断裂。桡侧腕短伸肌样本在振荡模式和连续模式下的平均位移变化分别为2.8（标准差[SD]：1.5毫米）和5.9毫米（SD：4.7毫米）。6个EPL样本在振荡模式和连续模式下的平均位移变化分别为4.7（SD：2.7毫米）和4.3毫米（SD：1.8毫米）。

结论

因钻孔穿透导致的伸肌腱完全断裂很少见。钻孔模式不影响伸长程度。钻孔损伤后增加伸肌腱的循环负荷会导致伸肌腱适度伸长。

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