Department of Orthopaedic Surgery and Sports Medical Center and Sports Medical Research Institute, Seoul Paik Hospital, College of Medicine, Inje University, Seoul, Republic of Korea.
Department of Orthopaedic Surgery, Hanyang University Hospital, Hanyang University School of Medicine, Seoul, Republic of Korea.
Arthroscopy. 2018 Apr;34(4):1060-1068. doi: 10.1016/j.arthro.2017.09.041. Epub 2018 Feb 1.
To compare tibiofemoral contact mechanics after fixation for medial meniscus posterior root radial tears (MMPRTs).
Seven fresh knees from mature pigs were used. Each knee was tested under 5 conditions: normal knee, MMPRT, pullout fixation with simple sutures, fixation with modified Mason-Allen sutures, and all-inside fixation using Fastfix 360. The peak contact pressure and contact surface area were evaluated using a capacitive sensor positioned between the meniscus and tibial plateau, under a 1,000-N compression force, at different flexion angles (0°, 30°, 60°, and 90°).
The peak contact pressure was significantly higher in MMPRTs than in normal knees (P = .018). Although the peak contact pressure decreased significantly after fixation at all flexion angles (P = .031), it never recovered to the values noted in the normal meniscus. No difference was observed among fixation groups (P = .054). The contact surface area was significantly lower in MMPRTs than in the normal meniscus (P = .018) and increased significantly after fixation at all flexion angles (P = .018) but did not recover to within normal limits. For all flexion angles except 60°, the contact surface area was significantly higher for fixation with Mason-Allen sutures than for fixation with simple sutures or all-inside fixation (P = .027). At 90° of flexion, the contact surface area was significantly better for fixation with simple sutures than for all-inside fixation (P = .031).
The peak contact pressure and contact surface area improved significantly after fixation, regardless of the fixation method, but did not recover to the levels noted in the normal meniscus after any type of fixation. Among the fixation methods evaluated in this time 0 study, fixation using modified Mason-Allen sutures provided a superior contact surface area compared with that noted after fixation using simple sutures or all-inside fixation, except at 60° of flexion. However, this study had insufficient power to accurately detect the differences between the outcomes of various fixation methods.
Our results in a porcine model suggest that fixation can restore tibiofemoral contact mechanics in MMPRT and that fixation with a locking mechanism leads to superior biomechanical properties.
比较内侧半月板后根放射状撕裂(MMPRT)固定后的胫股关节接触力学。
使用来自成熟猪的 7 个新鲜膝关节。每个膝关节在 5 种情况下进行测试:正常膝关节、MMPRT、单纯缝线抽出固定、改良 Mason-Allen 缝线固定和使用 Fastfix 360 的全内固定。在不同的屈曲角度(0°、30°、60°和 90°)下,在 1000N 压缩力下,使用放置在半月板和胫骨平台之间的电容式传感器评估峰值接触压力和接触面积。
MMPRT 中的峰值接触压力明显高于正常膝关节(P =.018)。尽管在所有屈曲角度下固定后峰值接触压力显著降低(P =.031),但从未恢复到正常半月板的水平。各组固定之间无差异(P =.054)。MMPRT 中的接触面积明显小于正常半月板(P =.018),并且在所有屈曲角度下固定后显著增加(P =.018),但未恢复到正常范围内。除 60°外,在所有屈曲角度下,Mason-Allen 缝线固定的接触面积均明显高于单纯缝线固定或全内固定(P =.027)。在 90°屈曲时,单纯缝线固定的接触面积明显优于全内固定(P =.031)。
无论固定方法如何,固定后峰值接触压力和接触面积均显著改善,但在任何类型的固定后均未恢复到正常半月板的水平。在本时间 0 研究中评估的固定方法中,与单纯缝线固定或全内固定相比,改良 Mason-Allen 缝线固定提供了更好的接触面积,除 60°屈曲外。然而,本研究的效力不足以准确检测各种固定方法结果之间的差异。
我们在猪模型中的结果表明,固定可以恢复 MMPRT 中的胫股关节接触力学,并且具有锁定机制的固定可导致更好的生物力学特性。