腓骨钢板固定对伴有部分三角韧带切断的 Weber B 型骨折模型中踝关节稳定性的影响。
Effects of Fibular Plate Fixation on Ankle Stability in a Weber B Fracture Model With Partial Deltoid Ligament Sectioning.
机构信息
Department of Physical Medicine and Rehabilitation, Østfold Hospital Trust, Grålum, Norway.
Institute of Health and Society, Faculty of Medicine, University of Oslo, Oslo, Norway.
出版信息
Foot Ankle Int. 2024 Jun;45(6):641-647. doi: 10.1177/10711007241235903. Epub 2024 Mar 19.
BACKGROUND
Weber B fractures with concomitant deltoid ligament injury have traditionally been operated with open reduction and internal fixation of the fibular fracture. More recently, clinical studies have suggested that some fractures have concomitant partial deltoid ligament injury with the deep posterior tibiotalar ligament intact (SER4a), allowing for nonoperative treatment in this subgroup. This study explores whether plate fixation of the fibula improves ankle stability in an SER4a injury model. And if so, does it restore native ankle stability?
METHODS
Fifteen cadaver ankle specimens were tested in 3 states using an industrial robot: intact joint, SER4a models without plate fixation of the fibula, and SER4a models with plate fixation of the fibula. The robot measured ankle stability in lateral translation, valgus, and internal and external rotation in 3 talocrural joint positions: 10 degrees dorsiflexion, neutral, and 20 degrees plantar flexion. Furthermore, fluoroscopic mortise view radiographs were taken to measure isolated talar shift and talar tilt.
RESULTS
The talar shift and tilt tests showed no differences between the SER4a injury model with and without fibular plate fixation at neutral ankle position with a mean difference of -0.16 mm (95% CI -0.33 to 0.01 mm, = .071) for talar shift and -0.15 degrees (95% CI -0.01 to 0.30 degrees, = .068) for talar tilt. However, plate fixation increased external rotation stability, with mean improvements ranging from -7.43 to -9.52 degrees ( < .001 for all comparisons), but did not restore intact ankle stability. For internal rotation, plate fixation resulted in minor differences.
CONCLUSION
The results of this suggest that plate fixation of the fibular fracture primarily improves external rotation stability but does not substantially improve lateral translation, valgus, or internal rotation stability in SER4a injury models. In this robotic cadaver model, fibular plate fixation did not fully restore intact ankle stability after simulated SER4a injury.
CLINICAL RELEVANCE
This study offers insights into the effects of fibular plate fixation on Weber B/SER4a injury models and may assist informed decisions when selecting treatments for these types of fractures.
背景
传统上,对于伴有三角韧带损伤的 Weber B 型骨折,采用切开复位和腓骨内固定进行治疗。最近,临床研究表明,一些骨折伴有三角韧带深部后胫距韧带的部分损伤(SER4a),允许在这亚组中进行非手术治疗。本研究探讨在 SER4a 损伤模型中,腓骨板固定是否能改善踝关节稳定性。如果可以,它是否能恢复踝关节的固有稳定性?
方法
使用工业机器人对 15 个尸体踝关节标本进行了 3 种状态的测试:完整关节、未固定腓骨的 SER4a 模型和固定腓骨的 SER4a 模型。机器人在 3 个距下关节位置(10 度背屈、中立和 20 度跖屈)测量了踝关节的侧向平移、外翻、内翻和外旋的稳定性。此外,还拍摄了荧光透视踝穴位 X 线片来测量距骨的单独移位和倾斜。
结果
在中立踝关节位置,SER4a 损伤模型有和没有腓骨板固定时,距骨移位和倾斜测试没有差异,距骨移位的平均差值为-0.16mm(95%置信区间-0.33 至 0.01mm, = .071),距骨倾斜的平均差值为-0.15 度(95%置信区间-0.01 至 0.30 度, = .068)。然而,板固定增加了外旋稳定性,平均改善范围为-7.43 至-9.52 度(所有比较均 < .001),但并未恢复踝关节的固有稳定性。对于内旋,板固定导致了较小的差异。
结论
这些结果表明,腓骨骨折的板固定主要改善了外旋稳定性,但在 SER4a 损伤模型中,并未显著改善侧向平移、外翻或内旋稳定性。在这个机器人尸体模型中,腓骨板固定并不能完全恢复 SER4a 损伤后的完整踝关节稳定性。
临床意义
本研究深入探讨了腓骨板固定对 Weber B/SER4a 损伤模型的影响,可能有助于在选择这些类型骨折的治疗方法时做出明智决策。
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