Comparison the treatment of anterior inferior tibiofibular ligament anatomical repair and syndesmosis screw fixation for syndesmotic injuries in ankle fracture

The ankle syndesmotic is a micro-movement joint with three-dimensional motion formed by the ligament complex between the distal tibia and fibula. Approximately 1% to 18% of all ankle sprains and 13% to 23% of ankle fractures involve syndesmotic injuries [1, 2]. Syndesmotic is crucial for integrity of the ankle joint and thus for weight bearing [3]. Therefore, ignoring syndesmotic injuries will cause a series of problems including posttraumatic arthritis, chronic ankle pain, disability and instability. It is important to obtain anatomical reduction and restore the biomechanical characteristics of three dimensional micromovement for syndesmotic injuries [4].

Syndesmosis screw fixation is the most popular treatment option for ankle fracture combined with syndesmotic injury [5]. However, this method is a static fixation and becomes controversial currently because it has a high complication concern [6]. In addition, this method could lead to biomechanics alteration and micro-motion restriction of syndesmosis [7, 8], which may increase posttraumatic arthritis rate [7]. Furthermore, several drawbacks of syndesmotic screw fixation have been reported, such as malreduction, screw breakage and the need for screw removal [9, 10]. Therefore, flexible fixation has been advocated in more recent literatures, such as anterior inferior tibiofibular ligament (AITFL) anatomical repair technique, Kirschner wire fixation, suture button fixation and bioabsorbable screw fixation [11‐13]. Although a few studies have described good clinical results of AITFL anatomical repair for syndesmotic injuries, there is insufficient evidence in radiographic outcomes still controversy on the treatment of combined injury of syndesmotic injury [14‐16].

Therefore, this study aims to compare the radiological and clinical outcomes between AITFL anatomical repair with syndesmotic screw fixation in syndesmotic injuries. We hypothesized that AITFL anatomical repair can be an alternative treatment option for syndesmotic injuries following anatomical reduction and fixation of ankle fracture, obviating the need for syndesmotic screw fixation and thereby preventing potential complications.

We reviewed the medical charts and radiographic images in all patients of ankle fracture combined with syndesmotic injury who treated with AITFL anatomical repair technique and syndesmotic screw fixation in department of orthopedic surgery between April 2017 and April 2020. The inclusion criteria for this study were as follows: (1) The subject is skeletally mature patient with a type B or C ankle fracture according to the Danis-Weber classification. (2) The subject demonstrates AITFL rupture diagnosed either radiographically or intra-operatively (intra-operative diagnosis was based on stress testing the syndesmotic under direct or radiographic guidance). (3) The subject has no history of previous severe ankle injury and does not have an ipsilateral lower extremity injury that would impede results. (4) The subject had operative repair by either syndesmotic screw fixation (SS) or AITFL anatomical repair technique (AAR). The exclusion criteria for this study were as follows: (1) The subject has an open ankle fracture. (2) The subject has a pathologic fracture. (3) The subject has an AITFL avulsion fracture. (4) The subject has neuropathic arthropathy and chronic syndesmotic injuries.

The 2-year follow-up was conducted by orthopedic surgeons and physiotherapists involved in the study. During the follow-up, 7 patients failed in follow-up. A total of 62 patients (62 ankles) were ultimately included in this retrospective study, 30 patients underwent the AITFL anatomical repair technique (AAR group) and 32 patients underwent syndesmotic screw fixation (SS group). No statistically significant differences were found in age, gender, time to surgery, mechanism of injury, fracture type, the time of syndesmotic reduction, postoperative incision drainage and hospitalization time between the 2 groups (All of P > 0.05). The demographic characteristics and relevant surgical data of all participants are presented in Table 1. The indication for AITFL anatomical repair technique or syndesmotic screw fixation was dependent on the experience and judgment of the orthopedic surgeon without standardization. All patients who underwent fixation with either AITFL anatomical repair technique or syndesmotic screw fixation by the same experienced surgeon. All the operations were performed by the same surgeon throughout the study. The study protocol was approved by our Hospital Health Sciences Research Ethics Board and signed informed consent with all patients.

A total of 62 patients were enrolled in the investigation. The mean age in all patients was 43.7 ± 13.0 years, in AAR group and SS group was 44.3 ± 13.4 years and 43.1 ± 12.8 years. The proportion of female patients was 48.4% in all patients, 46.7% in AAR group and 50.0% in SS group.

This study compared the radiological and clinical outcomes between AITFL anatomical repair with syndesmotic screw fixation in syndesmotic injuries. Equivalent radiographic outcomes were observed between two groups, it suggests that AAR technique can maintain syndesmotic reduction as well as syndesmotic screw fixation. The clinical outcomes show improved ankle functional and lighter pain in AAR group at 1, 3 months, with higher AOFAS score, higher OMA scores and lower VAS score in AAR group.

We consider that AITFL repair provides syndesmosis stability at early stage, while the syndesmosis screw fixation is a rigid fixation which affects the mobility of the syndesmosis. Clanton et.al demonstrated the AITFL provides clincally significant stability to the syndesmosis, specifically providing resistance to posterior fibular translation and external rotation of the lateral malleolus when an external rotational force is applied [24]. However, long-term outcomes had no difference between the 2 groups. We attribute that the ruptured AITFL had recovered and the restoration of mobility of syndesmosis after removal of the screws. Due to AITFL anatomical repair can improved ankle functional in early, we believe the AITFL anatomical repair is prior to the syndesmotic screw fixation.

The ankle syndesmosis is mainly stable by syndesmotic ligament complex, in which AITFL and posterior-inferior tibiofibular ligament (PITFL) play the most important roles [25]. The AITFL provides the most stability against lateral displacement of the distal fibula and is the first ligament subjected to stress upon the application of external rotational force to the fibula [26, 27]. In most syndesmotic injuries, syndesmosis becomes unstable due to the ankle fracture and the rupture or dysfunction of AITFL [28, 29]. Once the ankle fracture is fixed well, the residual syndesmotic instability mainly results from the rupture of AITFL [28, 30]. In other words, AITFL anatomical repair can restore the stability of syndesmotic after fixation of ankle fracture. Recently, AITFL anatomical repair was increasingly being reported and has been shown in a biomechanical study to provide strength equal to or better than that of a normal ATFL [24, 31]. Therefore, we speculated that syndesmotic instability in ankle fracture with AITFL rupture could be treated by AITFL anatomical repair, while rigid fixation with regular syndesmotic screws would be unnecessary.

In this study, radiographic outcomes showed AAR technique can maintain syndesmotic reduction as well as syndesmotic screw fixation. Evaluation of a syndesmotic reduction has traditionally been performed using static and/or stress anteroposterior radiographs [32] and malreduction rates of 25%—52% have been reported in the literature with this technique [33]. However, these techniques are poorly defined and have been shown to be unreliable [32, 34, 35]. Currently, the most reliable radiologic method for establishing the true alignment of ankle mortise is postoperative CT [36, 37]. Bilateral CT investigations are suggested in the literature because of the possibility of individual or anatomic variations [38]. For this reason, bilateral CT scans at 6 months following operative intervention were used for assessment of reduction in the present study [39]. In addition, Andersen et al. [20] observed relationships between increased syndesmotic distance after surgery and poorer functional outcome, indicating that 2 mm difference can be used as a cut-off for revision surgery. We defined malreduction as a difference in syndesmotic width between normal and injured ankle of ≥ 2 mm [20, 40]. Our radiographic results agreed with two previous studies [30, 41] which showed that AITFL repair had an important part in maintenance of syndesmotic reduction and the repair of AITFL was a reliable fixation. Furthermore, Kee J et al. [5] shown that AITFL anatomical repair fixation has better radiographic outcomes and obviated the need for syndesmotic screw fixation in more than 80% of patients with syndesmotic instability.

AITFL anatomical repair technique is beneficial to the recovery of ankle function and relieve pain. AOFAS and VAS were chosen because of its widespread use. OMA has been validated against the Ankle Function Score and had a very high test–retest reliability [42, 43]. Yu Zhan et al. [16] shown that AITFL anatomical repair fixation has better ankle mobility with higher OMA scores and lower VAS scores for patients with syndesmotic injuries than syndesmosis screw fixation. Some studies [5, 14, 15, 39] reported that AITFL anatomical repair fixation had better clinical outcomes than syndesmosis screw fixation. This study also show that patients treated with AITFL anatomical repair had higher AOFAS, higher OMA scores, and lower VAS score than syndesmosis screw fixation. Beumer et al. [44] reported that the syndesmotic micro-motion of distal, anteroposterior movement and external rotation of the syndesmotic is essential for ankle function. Then we speculated that anatomical structure of AITFL was the key to achieve syndesmotic stability and AITFL repair can be used to restore the AITFL structure. This method could achieve dynamic syndesmotic stability immediately after operation with no restriction to syndesmosis micro-motion which could provide a dynamic support to have better recovery of ankle function and relieve pain [45].

There are several limitations to this retrospective study that are inherent in the study design, including the lack of randomization of treatment and the fact that the study was conducted in Chinese patients only, with a relatively small sample size. The inability to obtain weight-bearing CT imaging might be another limiting factor as syndesmotic may reduce under physiologic loads [39].

In a word, AITFL anatomical repair technique can maintain syndesmotic reduction well and improve clinical outcomes in treatments of syndesmotic injuries. Thus, AITFL anatomical repair technique can make patients of syndesmotic injuries to restore their ankle functional quickly and better during daily activity. Therefore, AITFL anatomical repair technique is expected to become a better fixation method for syndesmotic injuries. Absolutely, there is no optimal treatment for syndesmotic injuries and further large-scale clinical studies may be required to explore better fixation methods.