Miami Orthopaedics and Sports Medicine Institute, Baptist Health South Florida, Coral Gables, FL, USA.
Tennessee Orthopaedic Clinics, Knoxville, TN, USA.
J Shoulder Elbow Surg. 2019 May;28(5):982-988. doi: 10.1016/j.jse.2018.11.041. Epub 2019 Feb 1.
Unstable distal clavicular fractures treated surgically are associated with high failure rates and hardware-related complications. Newer techniques have shown promising early clinical results with fewer hardware complications; however, their biomechanical performance has not been assessed. This study biomechanically compared a distal-third locking plate with 3 newer techniques that incorporate coracoid fixation into the construct.
The study randomized 36 adult fresh frozen cadaveric shoulders to 4 groups: (1) distal-third locking plate (P); (2) distal-third locking plate with a coracoid button augmentation (P + CB); (3) coracoclavicular button (CB); and (4) coracoclavicular button with coracoclavicular ligament reconstruction using semitendinosus allograft (CB + CC). After fixation, each specimen was stressed in the coronal plane. Cyclic displacement, load at 10-mm displacement, and ultimate load to failure were measured.
All 3 experimental groups biomechanically outperformed the locking plate. Mean load to failure was significantly higher in the CB (343 ± 76 N) and CB + CC (349 ± 94 N) groups compared with the P group (193 ± 52 N). There was also significantly less cyclic displacement in the CB (4.3 ± 1.9 mm) and CB + CC (4.4 ± 1.9 mm) groups compared with the P group (8.2 ± 2.9 mm). With respect to load at 10 mm of displacement, which essentially measures a clinical failure, the P + CB (235 ± 112 N), CB (253 ± 111 N), and CB+CC (238 ± 76 N) experimental groups significantly outperformed the P group (96 ± 29 N).
CB and CB + CC techniques demonstrated more than 75% greater strength than the traditional locking plate alone. Coupled with greater overall construct strength and lower-profile hardware, these newer techniques may result in improved clinical outcome and fewer hardware-related complications.
手术治疗不稳定的锁骨远端骨折与高失败率和与硬件相关的并发症相关。较新技术的早期临床结果显示出有希望的结果,硬件并发症较少;然而,它们的生物力学性能尚未得到评估。这项研究从生物力学上比较了远端三分之一锁定板与 3 种将喙突固定纳入构建物的较新技术。
该研究将 36 具成人新鲜冷冻尸体肩部随机分为 4 组:(1)远端三分之一锁定板(P);(2)带喙突纽扣增强的远端三分之一锁定板(P+CB);(3)喙突锁骨纽扣(CB);(4)使用半腱肌同种异体移植物重建喙锁韧带的喙突锁骨纽扣(CB+CC)。固定后,每个标本在冠状面受力。测量循环位移、10mm 位移时的载荷和最终失效载荷。
所有 3 个实验组在生物力学上均优于锁定板。CB(343±76N)和 CB+CC(349±94N)组的失效载荷明显高于 P 组(193±52N)。CB(4.3±1.9mm)和 CB+CC(4.4±1.9mm)组的循环位移也明显小于 P 组(8.2±2.9mm)。在 10mm 位移时的载荷方面,基本上是临床失效的测量值,P+CB(235±112N)、CB(253±111N)和 CB+CC(238±76N)实验组明显优于 P 组(96±29N)。
CB 和 CB+CC 技术的强度比单独使用传统的锁定板高出 75%以上。这些较新技术与更大的整体构建强度和更薄的硬件相结合,可能会带来更好的临床结果和更少的硬件相关并发症。
