Department for Orthopaedics and Rehabilitation, The Pennsylvania State University, Hershey, Pennsylvania, USA.
Division of Biostatistics and Bioinformatics, Department of Public Health Sciences, The Pennsylvania State University, Hershey, Pennsylvania, USA.
Am J Sports Med. 2022 Oct;50(12):3299-3307. doi: 10.1177/03635465221118580. Epub 2022 Aug 22.
The preferred method of fixation and surgical treatment for ligamentous Lisfranc injuries is controversial. Transarticular screws, bridge plating, fusion, and flexible fixation have been described, yet none have demonstrated superiority. Furthermore, screw fixation and plating often require secondary surgery to remove implants, leading surgeons to seek alternative fixation methods.
To compare transarticular screws and a fiber tape construct under a spectrum of biomechanical loads by evaluating the diastasis at 3 joints in the Lisfranc complex.
Controlled laboratory study.
Eight matched pairs of fresh, previously frozen lower extremity cadaveric specimens were fixed with either 2 cannulated transarticular crossed screws or a fiber tape construct with a supplemental intercuneiform limb. The diastasis between bones was measured at 3 midfoot joints in the Lisfranc complex: the Lisfranc articulation, the second tarsometatarsal joint, and the intercuneiform joint. Measurements were obtained for the preinjured, injured, and fixation conditions under static loading at 50% donor body weight. Specimens then underwent cyclic loading performed at 1 Hz and 100 cycles, based on 100-N stepwise increases in ground-reaction force from 100 to 2000 N, to simulate postoperative loading from the partial weightbearing stage to high-energy activities. Failure of fixation was defined as diastasis ≥2 mm at the Lisfranc articulation (second metatarsal-medial cuneiform joint).
There were no significant differences in diastasis detected at the Lisfranc articulation or the intercuneiform joint throughout all loading cycles between groups. All specimens endured loading up to 50% body weight + 1400 N. Up to and including this stage, there were 2 failures in the cannulated transarticular crossed-screw group and none in the fiber tape group.
The fiber tape construct with a supplemental intercuneiform limb, which does not require later removal, may provide comparable biomechanical stability to cannulated transarticular crossed screws, even at higher loads.
Ligamentous Lisfranc injuries are common among athletes. Therefore, biomechanical evaluations are necessary to determine stable constructs that can limit the time to return to play. This study compares the biomechanical stability of 2 methods of fixation for ligamentous injury through a wide spectrum of loading, including those experienced by athletes.
对于韧带性 Lisfranc 损伤的固定和手术治疗方法存在争议。已经描述了经关节螺钉、桥接钢板固定、融合和灵活固定,但没有一种方法具有优势。此外,螺钉固定和钢板固定通常需要进行二次手术以去除植入物,这促使外科医生寻求替代固定方法。
通过评估 Lisfranc 复合体 3 个关节的分离程度,比较经关节螺钉和纤维带在一系列生物力学载荷下的效果。
对照实验室研究。
将 8 对匹配的新鲜、先前冷冻的下肢尸体标本分别用 2 枚经关节交叉螺钉或纤维带(带附加楔间支腿)固定。在 Lisfranc 复合体的 3 个中足关节(Lisfranc 关节、第二跗跖关节和楔间关节)测量骨骼间的分离程度。在 50%供体体重的静态载荷下,测量损伤前、损伤时和固定条件下的测量值。然后,根据从 100 到 2000 N 的逐步增加的地面反作用力,以 1 Hz 和 100 个循环进行循环加载,模拟从部分负重阶段到高能活动的术后加载。固定失效定义为 Lisfranc 关节(第二跖骨-内侧楔骨关节)的分离度≥2mm。
在所有加载循环中,各组之间在 Lisfranc 关节或楔间关节处的分离度均无显著差异。所有标本均能承受高达 50%体重+1400 N 的载荷。在达到并包括这个阶段,经关节交叉螺钉组有 2 个失败,而纤维带组没有失败。
带附加楔间支腿的纤维带,无需后期取出,即使在更高的载荷下,也可能提供与经关节交叉螺钉相当的生物力学稳定性。
韧带性 Lisfranc 损伤在运动员中很常见。因此,有必要进行生物力学评估,以确定能够限制运动员重返赛场时间的稳定结构。本研究通过广泛的载荷(包括运动员经历的载荷)比较了两种固定方法治疗韧带损伤的生物力学稳定性。
