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用于犬十字韧带损伤 stifles 关节外稳定的骨科缝合材料的力学测试。

Mechanical testing of orthopedic suture material used for extra-articular stabilization of canine cruciate ligament-deficient stifles.

作者信息

Rose Nathan D, Goerke Derek, Evans Richard B, Conzemius Michael G

机构信息

College of Veterinary Medicine, University of Minnesota, Veterinary Medical Center, St Paul, MN 55108, USA.

出版信息

Vet Surg. 2012 Feb;41(2):266-72. doi: 10.1111/j.1532-950X.2011.00887.x. Epub 2011 Sep 23.

DOI:10.1111/j.1532-950X.2011.00887.x
PMID:22092233
Abstract

OBJECTIVE

To determine (1) if braided, polyblend orthopedic suture materials are mechanically superior to monofilament nylon leader and (2) have mechanical properties similar to biomechanical properties of the canine cruciate ligament.

SAMPLE POPULATION

Different suture material types.

METHODS

Mechanical testing was performed on 5 different orthopedic suture materials: 80# test Mason monofilament nylon leader (MNL), FiberTape (FT), FiberWire (FW), Xgen OrthoFiber (XOF), and LigaFiba (LF) using a servohydraulic materials-testing machine. Materials were loaded to failure while collecting data for tensile strength, load at 3 mm and 5 mm of elongation and stiffness. Cyclic elongation of each suture material was tested under physiologic loading between 70 and 150 N for 1000 cycles using 3 mm of elongation to describe excessive elongation. Load at 3 mm of elongation and performance during cyclic testing were compared to previously published physiologic loads in the dog stifle.

RESULTS

Ultimate tensile strength was greatest with LF, followed by XOF that was stronger than FT and FW, and the weakest was MNL. LF was the stiffest of all tested materials at 3 mm of elongation. Cyclic elongation was greatest for the MNL elongating 3.75 mm after 1000 cycles. All polyblend braided materials continued to elongate throughout the 1000 cycles under physiologic loads.

CONCLUSIONS

Polyblend suture materials are stronger and elongate less than MNL in pure tension. The mechanical performance of all sutures tested is questionable when compared with the mechanical demands of the normal stifle in a mid-sized dog.

摘要

目的

确定(1)编织的聚混纺骨科缝合材料在机械性能上是否优于单丝尼龙引导线,以及(2)其机械性能是否与犬交叉韧带的生物力学性能相似。

样本群体

不同类型的缝合材料。

方法

使用伺服液压材料试验机对5种不同的骨科缝合材料进行机械测试:80号测试梅森单丝尼龙引导线(MNL)、纤维带(FT)、纤维丝(FW)、Xgen OrthoFiber(XOF)和LigaFiba(LF)。材料加载至破坏,同时收集拉伸强度、3毫米和5毫米伸长时的负荷以及刚度数据。每种缝合材料的循环伸长在70至150牛的生理负荷下进行测试,循环1000次,以3毫米伸长来描述过度伸长。将3毫米伸长时的负荷和循环测试期间的性能与先前发表的犬膝关节生理负荷进行比较。

结果

LF的极限拉伸强度最大,其次是XOF,其强于FT和FW,最弱的是MNL。LF在3毫米伸长时是所有测试材料中最硬的。MNL的循环伸长最大,在1000次循环后伸长3.75毫米。所有聚混纺编织材料在生理负荷下的1000次循环中持续伸长。

结论

在纯拉伸状态下,聚混纺缝合材料比MNL更强且伸长更少。与中型犬正常膝关节的机械需求相比,所有测试缝合线的机械性能都值得怀疑。

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