新型含超高分子量聚乙烯缝线的半月板修复技术的生物力学测试。

Biomechanical testing of new meniscal repair techniques containing ultra high-molecular weight polyethylene suture.

机构信息

Plano Orthopedic Sports Medicine and Spine Center, Plano, Texas 75093, USA.

出版信息

Arthroscopy. 2009 Sep;25(9):959-67. doi: 10.1016/j.arthro.2009.03.020.

DOI:10.1016/j.arthro.2009.03.020

PMID:19732633

Abstract

PURPOSE

To evaluate the biomechanical characteristics of current meniscal repair techniques containing ultra high-molecular weight polyethylene (UHMWPE) suture with and without cyclic loading.

METHODS

Vertical longitudinal cuts made in porcine menisci were secured with a single repair device. Noncycled and cycled (500 cycles) biomechanical tests were performed on the following groups: group 1, No. 2-0 Mersilene vertical suture (Ethicon, Somerville, NJ); group 2, No. 2-0 Orthocord vertical suture (DePuy Mitek, Westwood, MA); group 3, No. 0 Ultrabraid vertical suture (Smith & Nephew Endoscopy, Andover, MA); group 4, No. 2-0 FiberWire vertical suture (Arthrex, Naples, FL); group 5, vertically oriented mattress suture by use of an Ultra FasT-Fix device (Smith & Nephew Endoscopy) with No. 0 Ultrabraid; group 6, vertically oriented mattress suture by use of a RapidLoc A2 device (DePuy Mitek) with No. 2-0 Orthocord suture; group 7, vertically oriented stitch by use of a MaxFire device with MaxBraid PE suture (Biomet Sports Medicine, Warsaw, IN); and group 8, an obliquely oriented stitch of No. 0 UHMWPE suture inserted by use of a CrossFix device (Cayenne Medical, Scottsdale, AZ). Endpoints were failure loads, failure modes, stiffness, and cyclic displacement.

RESULTS

Mean single-pull loads were calculated for Ultra FasT-Fix (121 N), FiberWire (110 N), MaxFire (130 N), Mersilene (84 N), Orthocord (124 N), RapidLoc A2 (86 N), CrossFix (77 N), and Ultrabraid (109 N). After 500 cyclic loads, the Orthocord (222 N) repair was stronger than the others: Ultra FasT-Fix (110 N), FiberWire (117 N), MaxFire (132 N), Mersilene (89 N), RapidLoc A2 (108 N), CrossFix (95 N), and Ultrabraid (126 N) (P < .05). Ultrabraid suture showed significantly more elongation over 500 cycles than the other repairs (P < .05). The principal failure mode associated with the single destructive pull (suture breakage) changed to pulling through the meniscus after cyclic loading for most devices. Knot slippage or device failure was seldom observed as the failure mode with these techniques.

CONCLUSIONS

Self-adjusting, UHMWPE suture-containing meniscal repair devices (Ultra FasT-Fix, RapidLoc A2, and MaxFire) were comparable to the isolated UHMWPE-containing suture repairs on single-failure load testing. UHMWPE-containing suture repairs are stronger than braided polyester suture repairs, but pure UHMWPE suture (Ultrabraid) elongated more during cycling. Orthocord suture is significantly stronger than the other meniscal repair techniques after cyclic loading (P < .05).

CLINICAL RELEVANCE

Meniscal repair techniques using UHMWPE containing sutures provide greater strength than earlier generations of meniscal repair techniques.

摘要

目的

评估含有超高分子量聚乙烯（UHMWPE）缝线的半月板修复技术的生物力学特性，包括有无循环加载。

方法

在猪半月板上纵向垂直切割，使用单个修复装置固定。对以下各组进行非循环和循环（500 次循环）生物力学测试：第 1 组，2-0 号 Mersilene 垂直缝线（Ethicon，Somerville，NJ）；第 2 组，2-0 号 Orthocord 垂直缝线（DePuy Mitek，Westwood，MA）；第 3 组，0 号 Ultrabraid 垂直缝线（Smith & Nephew Endoscopy，Andover，MA）；第 4 组，2-0 号 FiberWire 垂直缝线（Arthrex，Naples，FL）；第 5 组，使用 Ultra FasT-Fix 装置（Smith & Nephew Endoscopy）进行垂直定向褥式缝线，缝线为 0 号 Ultrabraid；第 6 组，使用 RapidLoc A2 装置（DePuy Mitek）进行垂直定向褥式缝线，缝线为 2-0 Orthocord；第 7 组，使用 MaxFire 装置和 MaxBraid PE 缝线（Biomet Sports Medicine，Warsaw，IN）进行垂直定向缝线；第 8 组，使用 CrossFix 装置（Cayenne Medical，Scottsdale，AZ）插入 0 号 UHMWPE 缝线进行斜向缝线。终点为失效负荷、失效模式、刚度和循环位移。

结果

计算了 Ultra FasT-Fix（121 N）、FiberWire（110 N）、MaxFire（130 N）、Mersilene（84 N）、Orthocord（124 N）、RapidLoc A2（86 N）、CrossFix（77 N）和 Ultrabraid（109 N）的单拉负荷均值。经过 500 次循环负荷后，Orthocord（222 N）修复比其他修复更强：Ultra FasT-Fix（110 N）、FiberWire（117 N）、MaxFire（132 N）、Mersilene（89 N）、RapidLoc A2（108 N）、CrossFix（95 N）和 Ultrabraid（126 N）（P<0.05）。Ultrabraid 缝线在 500 个循环中表现出明显更大的伸长率（P<0.05）。与大多数装置的单次破坏性拉伸（缝线断裂）相关的主要失效模式在循环加载后变为穿过半月板的拉伸。很少观察到这些技术的滑结或装置失效作为失效模式。

结论

自调节、含 UHMWPE 缝线的半月板修复装置（Ultra FasT-Fix、RapidLoc A2 和 MaxFire）在单次失效负荷测试中与单独的含 UHMWPE 缝线修复相当。含 UHMWPE 缝线的修复比编织聚酯缝线的修复更强，但纯 UHMWPE 缝线（Ultrabraid）在循环过程中伸长更多。Orthocord 缝线在循环负荷后明显比其他半月板修复技术更强（P<0.05）。

临床意义

使用含 UHMWPE 缝线的半月板修复技术比早期一代的半月板修复技术提供更强的强度。

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新型含超高分子量聚乙烯缝线的半月板修复技术的生物力学测试。

Biomechanical testing of new meniscal repair techniques containing ultra high-molecular weight polyethylene suture.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

CLINICAL RELEVANCE

目的

方法

结果

结论

临床意义

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