修复整个肩锁韧带复合体可最大程度地恢复后向平移和旋转稳定性。
Repair of the entire superior acromioclavicular ligament complex best restores posterior translation and rotational stability.
机构信息
Department of Orthopaedic Surgery, University of Connecticut, 263 Farmington Avenue, 06030-5456, Farmington, CT, USA.
Department of Orthopaedic Surgery, Juntendo University, Tokyo, Japan.
出版信息
Knee Surg Sports Traumatol Arthrosc. 2019 Dec;27(12):3764-3770. doi: 10.1007/s00167-018-5205-y. Epub 2018 Oct 10.
PURPOSE
The acromioclavicular ligament complex (ACLC) is the primary stabilizer against horizontal translation with the superior ACLC providing the main contribution. The purpose of this study was to evaluate the specific regional contributions in the superior half of ACLC, where the surgeon can easily access and repair or reconstruct, for posterior translational and rotational stability.
METHODS
The superior half of ACLC was divided into three regions; Region A (0°-60°): an anterior 1/3 region of the superior half of ACLC, Region B (60°-120°): a superior 1/3 region of the superior half of ACLC, and Region C (120°-180°): a posterior 1/3 region of the superior half of ACLC. Fifteen fresh-frozen cadaveric shoulders were used. Biomechanical testing was performed to evaluate the resistance force against passive posterior translation (10 mm) and the resistance torque against passive posterior rotation (20°) during the following the four conditions. (1) Stability was tested on all specimens in their intact condition (n = 15). (2) The ACLC was dissected and stability was tested (n = 15). (3) Specimens were randomly divided into three groups by regions of suturing. Stability was tested after suturing Region A, Region B, or Region C (n = 5 per group). (4) Stability was tested after suturing additional regions: Region A + B (0°-120°), Region B + C (60°-180°), or Region A + C (0°-60°, 120°-180°, n = 5 per group).
RESULTS
The translational force increased after suturing Region A when compared with dissected ACLC (P = 0.025). The force after suturing Region A + B was significantly higher compared to the dissected ACLC (P < 0.001). The rotational torque increased after suturing Region A or Region B compared with dissected ACLC (P = 0.020, P = 0.045, respectively). The torque after suturing the Region A + C was significantly higher compared to the dissected ACLC (P < 0.001).
CONCLUSION
The combined Region A + B contributed more to posterior translational stability than Region B + C or Region A + C. In contrast, combined Region A + C contributed more to posterior rotational stability than Region A + B or Region B + C. Based on these findings, surgical techniques restoring the entire superior ACLC are recommended to address both posterior translational and rotational stability of the AC joint.
目的
肩锁关节韧带复合体(ACLC)是抵抗水平平移的主要稳定器,其中上 ACLC 提供主要贡献。本研究的目的是评估在上 ACLC 的上半部分,即外科医生可以轻松进入和修复或重建的区域,评估其对后向平移和旋转稳定性的特定区域贡献。
方法
将 ACLC 的上半部分分为三个区域; 区域 A(0°-60°):上 ACLC 的前 1/3 区域,区域 B(60°-120°):上 ACLC 的上 1/3 区域,区域 C(120°-180°):上 ACLC 的后 1/3 区域。使用 15 个新鲜冷冻的尸体肩膀。进行生物力学测试以评估在以下四种情况下对被动后向平移(10 毫米)和对被动后向旋转(20°)的阻力:(1)所有标本均在完整状态下进行稳定性测试(n = 15);(2)解剖 ACLC 并进行稳定性测试(n = 15);(3)通过缝合区域将标本随机分为三组。缝合区域 A、区域 B 或区域 C 后进行稳定性测试(每组 n = 5);(4)缝合额外区域后进行稳定性测试:区域 A + B(0°-120°)、区域 B + C(60°-180°)或区域 A + C(0°-60°,120°-180°,每组 n = 5)。
结果
与解剖 ACLC 相比,缝合区域 A 后平移力增加(P = 0.025)。缝合区域 A + B 后的力明显高于解剖 ACLC(P < 0.001)。与解剖 ACLC 相比,缝合区域 A 或区域 B 后旋转扭矩增加(P = 0.020,P = 0.045)。缝合区域 A + C 后的扭矩明显高于解剖 ACLC(P < 0.001)。
结论
联合区域 A + B 对后向平移稳定性的贡献大于区域 B + C 或区域 A + C。相比之下,联合区域 A + C 对后向旋转稳定性的贡献大于区域 A + B 或区域 B + C。基于这些发现,建议采用恢复整个上 ACLC 的手术技术,以解决 AC 关节的后向平移和旋转稳定性问题。
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