解剖双束 ACL 重建在控制动态旋转松弛方面优于任何类型的单束 ACL 重建。

Anatomic double bundle ACL reconstruction outperforms any types of single bundle ACL reconstructions in controlling dynamic rotational laxity.

机构信息

Department of Orthopaedic Surgery, School of Medicine, Fukuoka University, Fukuoka, Japan.

Departmernt of Orthopaedic Surgery, University of Pittsburgh, Pittsburgh, PA, USA.

出版信息

Knee Surg Sports Traumatol Arthrosc. 2018 May;26(5):1414-1419. doi: 10.1007/s00167-017-4781-6. Epub 2017 Nov 14.

DOI:10.1007/s00167-017-4781-6

PMID:29138915

Abstract

PURPOSE

To compare the different types of ACL reconstructions in terms of knee dynamic laxity evaluated by acceleration.

METHODS

Sixteen fresh frozen cadaveric knees were used. Pivot shift test was manually performed while monitoring the tibial acceleration by use of a triaxial accelerometer. The test was repeated before and after the ACL resection and reconstruction. Three types of ACL reconstruction were tested: (1) Anatomic Single-Bundle reconstruction (n = 8), the graft was placed at the center of the ACL footprint for the both femoral and tibial sides (tunnel diameter: 8mm); (2) Conventional Single-Bundle reconstruction (n = 8), the graft was placed from the tibial PL footprint to femoral high AM position (tunnel diameter: 8mm) and (3) Anatomic Double-Bundle reconstruction (n = 8). The acceleration in each of three x-y-z directions and the overall magnitude of acceleration was calculated to evaluate dynamic rotational laxity and compared between different ACL reconstructions.

RESULTS

The overall magnitude of acceleration was significantly different between ACL intact and deficient knees (p < 0.0001). The acceleration was reduced by the DB ACL reconstruction to the intact level (n.s.), but the two SB ACL reconstruction failed to achieve the intact level of the acceleration (p = 0.0002non-anatomic SB, p < 0.0001 anatomic SB).

CONCLUSION

The anatomic DB reconstruction better restores dynamic rotational laxity when compared to the SB ACL reconstructions no matter if the tunnel placement was anatomic. The anatomic DB reconstruction better restores dynamic rotational laxity when compared to both anatomic and non-anatomic SB ACL reconstruction. For this reason anatomic DB ACL reconstruction is recommended for cases where rotational laxity is an issue.

摘要

目的

通过加速度评估，比较不同类型 ACL 重建术在膝关节动力松弛方面的差异。

方法

使用 16 个新鲜冷冻的尸体膝关节。在使用三轴加速度计监测胫骨加速度的情况下，手动进行枢轴转移试验。ACL 切除和重建前后重复该测试。测试了三种 ACL 重建类型：（1）解剖单束重建（n=8），移植物放置在 ACL 足印的中心，用于股骨和胫骨两侧（隧道直径：8mm）；（2）常规单束重建（n=8），移植物从胫骨 PL 足印放置到股骨高 AM 位置（隧道直径：8mm）和（3）解剖双束重建（n=8）。计算每个 x-y-z 方向的加速度和整体加速度幅度，以评估动态旋转松弛度，并比较不同 ACL 重建术之间的差异。

结果

ACL 完整和缺失膝关节之间的整体加速度幅度有显著差异（p<0.0001）。DB ACL 重建将加速度降低到完整水平（n.s.），但两种 SB ACL 重建都未能达到加速度的完整水平（p=0.0002 非解剖 SB，p<0.0001 解剖 SB）。

结论

与 SB ACL 重建相比，无论隧道位置是否解剖，解剖 DB 重建都能更好地恢复动态旋转松弛度。与解剖和非解剖 SB ACL 重建相比，解剖 DB 重建能更好地恢复动态旋转松弛度。因此，对于旋转松弛度是问题的病例，建议进行解剖 DB ACL 重建。

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解剖双束 ACL 重建在控制动态旋转松弛方面优于任何类型的单束 ACL 重建。

Anatomic double bundle ACL reconstruction outperforms any types of single bundle ACL reconstructions in controlling dynamic rotational laxity.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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