采用髌骨内侧面隧道而非横向隧道进行内侧髌股韧带重建。

Aperture fixation instead of transverse tunnels at the patella for medial patellofemoral ligament reconstruction.

机构信息

Department of Orthopaedic Surgery, Mustafa Kemal University, Antakya, Hatay Province, Turkey.

出版信息

Knee Surg Sports Traumatol Arthrosc. 2012 Feb;20(2):322-6. doi: 10.1007/s00167-011-1582-1. Epub 2011 Jun 16.

DOI:10.1007/s00167-011-1582-1

PMID:21678092

Abstract

PURPOSE

Medial patellofemoral ligament (MPFL) reconstruction is an effective option for the treatment of recurrent patellar instability. Most techniques utilize the passage of a tendon graft through tunnels at the patella with the risk of patellar fracture. The purpose of this study was to investigate the strength of the recent MPFL reconstruction techniques (transverse tunnel, interference screw, anchor, and docking technique).

METHODS

Thirty-six saw bones were divided into four groups (transverse tunnel, interference screw, anchor fixation, and docking technique) with nine patellae in each. Patella-tendon constructs were pre-loaded to 10 N and cyclically loaded for 20 cycles from 2 to 30 N under load control at a rate of 5 N/sec. The construct was then tested to failure at a constant displacement rate of 6 mm/sec. Ultimate load (N), stiffness (N/mm), and failure mode were recorded for each specimen.

RESULTS

The docking group had lower ultimate load [106 (SD 41) N] and stiffness [14 (SD 2) N/mm] values than the other groups tested (P = 0.007). The anchor group had lower stiffness [21 (SD 6) N/mm] values than the tunnel group [28 (SD 3) N/mm (P = 0.01)] and the interference screw group [31 (SD 6) N/mm, (P = 0.004)]. There was no significant difference in the ultimate load between anchor [299 (SD 116) N], tunnel [304 (SD 140) N], and interference screw groups [241 (SD 103) N] (n.s.).

CONCLUSION

Aperture fixation techniques, especially interference screw fixation, were as strong as the technique utilizing tunnels in the patella for MPFL reconstruction.

摘要

目的

内侧髌股韧带（MPFL）重建是治疗复发性髌骨不稳定的有效方法。大多数技术都采用肌腱移植物穿过髌骨隧道的方法，但存在髌骨骨折的风险。本研究旨在探讨最近的 MPFL 重建技术（横向隧道、干扰螺钉、锚定和对接技术）的强度。

方法

36 个冷冻人骸骨被分为四组（横向隧道组、干扰螺钉组、锚定组和对接技术组），每组 9 个髌骨。在负载控制下，将髌腱标本预加载至 10N，然后以 5N/sec 的速度从 2N 循环加载至 30N，共 20 个循环。然后以 6mm/sec 的恒定位移速率对标本进行测试，直至失效。记录每个标本的极限载荷（N）、刚度（N/mm）和失效模式。

结果

对接组的极限载荷[106（SD 41）N]和刚度[14（SD 2）N/mm]值低于其他组（P=0.007）。锚定组的刚度[21（SD 6）N/mm]值低于隧道组[28（SD 3）N/mm（P=0.01）]和干扰螺钉组[31（SD 6）N/mm，（P=0.004）]。锚定组[299（SD 116）N]、隧道组[304（SD 140）N]和干扰螺钉组[241（SD 103）N]的极限载荷差异无统计学意义（n.s.）。

结论

孔径固定技术，特别是干扰螺钉固定技术，与利用髌骨隧道进行 MPFL 重建的技术一样强大。

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采用髌骨内侧面隧道而非横向隧道进行内侧髌股韧带重建。

Aperture fixation instead of transverse tunnels at the patella for medial patellofemoral ligament reconstruction.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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