Minimally invasive reconstruction of lateral ligaments of the ankle using semitendinosus autograft

Arthroscopic modified Broström may improve function while anatomic reconstructions could enhance stability for chronic lateral ankle instability: A network meta-analysis

PURPOSE

The purpose of this systematic review and network meta-analysis was to compare the efficacy of different surgical treatments, including open and arthroscopic modified Broström procedures (MB), anatomical reconstructions, and suture tape augmentations (STA), for chronic lateral ankle instability (CLAI).

METHODS

We conducted a systematic search for comparative studies that included adult patients with CLAI who underwent open MB, arthroscopic MB, reconstruction with autografts or allografts, and STA. We used a random-effects model to present the NMA results, with mean differences and 95 % confidence intervals (CI) for continuous measures and relative ratios with 95 % CI for dichotomous variables. Surface under the cumulative ranking curve analysis (SUCRA) was used for treatment ranking.

RESULTS

The results, based on surface under the cumulative ranking curve analysis, showed that arthroscopic MB likely improves functional outcomes the most as measured by change in American Orthopaedic Foot and Ankle Society (AOFAS) ankle-hindfoot scores. Anatomical graft reconstructions with allografts or autografts demonstrated greater reduction in anterior talar translation (ATT) and talar tilt angle (TTA). Arthroscopic MB and STA were associated with fewer complications.

CONCLUSIONS

Arthroscopic MB may be associated with better functional outcomes, while anatomical reconstructions appear to provide greater improvements in stability for CLAI. Additionally, arthroscopic techniques seem to have lower complication risks compared to open procedures. These potential differences in outcomes and risks between techniques could help guide surgical decision-making.

Anatomic Variations of the Calcaneofibular Ligament

BACKGROUND

The lateral ankle joint comprises the anterior talofibular ligament (ATFL), calcaneofibular ligament (CFL), and posterior talofibular ligament (PTFL). The purpose of this study was to propose a classification of CFL morphology.

METHODS

The material comprised 120 paired lower limbs from human cadavers (30 male, 30 female), mean age 62.3 years. The morphology was carefully assessed, and morphometric measurements were performed.

RESULTS

A 4-part method for anatomic classification can be suggested based on our study. Type 1 (48.3%), the most common type, was characterized by a bandlike morphology. Type 2 (9.2%) was characterized by a Y-shaped band, and type 3 (21.7%) by a V-shaped band. Type 4 (20.8%) was characterized by the presence of 2 or 3 bands. Type 2 and 4 were divided into further subtypes based on origin footprint.

CONCLUSION

The aim of our study was to describe variations of calcaneofibular ligament. Our proposed 4-part classification may be of value in clinical practice in future recognition of CFL injuries and in its repair or reconstruction.

CLINICAL RELEVANCE

The anatomy of the CFL plays an important role in stability of the ankle. Greater recognition of anatomical variation may help improve reconstructive options for patients with chronic lateral ankle instability.

Modified Gracilis Autograft Preparation for Arthroscopic Anterior Talofibular and Calcaneofibular Ligament Anatomic Reconstruction: Technical Tip

Visual AbstractThis is a visual representation of the abstract.

Minimally Invasive Reconstruction of the Ankle Lateral Ligament Complex in Chronic Ankle Instability: Clinical Outcomes, Return to Sport and Recurrence Rate at Minimum Follow up of 5 Years

Background: Chronic ankle instability is a common condition that develops after lateral ankle sprains. Many surgical techniques have been described in case of failure of conservative treatment. The purpose of this paper is to present the results in terms of clinical outcomes, return to sport and recurrence rate after reconstruction of the lateral ligament complex of the ankle with a minimally invasive approach at a minimum follow up of five years. Methods: This retrospective study involved forty-seven patients treated for chronic ankle instability from January 2013 to November 2017. The clinical outcomes were evaluated with the American Orthopedic Foot and Ankle Society ankle and hindfoot score (AOFAS score), the University of California–Los Angeles Rating Scale (UCLA Rating Scale), the Karlsson–Peterson ankle instability score and the Halasi scale at a mean follow up time of 80 months. Results: The mean age of the patients was 42 years (23–63). The mean VAS pain score decreased from 5.6 (2–9) pre-operatively to 0.7 (0–7) post-operatively. The mean UCLA Rating Scale score improved from 7.7 (4–8) before surgical treatment to 9.2 (6–10) afterwards. The AOFAS score increased from a pre-operative mean value of 66.5 (40–95) to a post-operative mean value of 94 (88–100) and the Halasi scale from a pre-injury mean value of 4.3 (2–8) to 4.5 post-operatively (2–8). The mean Karlsson–Peterson ankle instability score increased from 71 (40–90) pre-operatively to 87.9 (70–90) post-operatively. During this period of follow up, the procedure survival rate was 95.7%, with two cases of recurrence of ankle sprain post-operatively after twelve months in one case and forty months in the other case. Conclusions: The described technique of reconstruction of the anterior talofibular and calcaneofibular ligament with a minimally invasive approach with a semitendinosus autograft is a viable treatment option for chronic ankle instability and enables the majority of patients to regain their activity and sport level with a low recurrence rate at a mid-term follow up.

Chronic Lateral Ankle Instability: Can We Get Even Better with Surgical Treatment?

Lateral ligament attenuation may occur after repetitive ankle sprains, creating instability. Management of chronic ankle instability requires a comprehensive approach to mechanical and functional instability. Surgical treatment, however, is indicated when conservative treatment is not effective. Ankle ligament reconstruction is the most common surgical procedure to resolve mechanical instability. Anatomic open Broström-Gould reconstruction is the gold standard for repairing affected lateral ligaments and returning athletes to sports. Arthroscopy may also be beneficial for identifying associated injuries. In severe and long-standing instability, reconstruction with tendon augmentation could be necessary.

Effects of the Ankle Flexion Angle During Anterior Talofibular Ligament Reconstruction on Ankle Kinematics, Laxity, and In Situ Forces of the Reconstructed Graft

BACKGROUND

This study aimed to evaluate the effects of the ankle flexion angle during anterior talofibular ligament (ATFL) reconstruction on ankle kinematics, laxity, and in situ force of a graft.

METHODS

Twelve cadaveric ankles were evaluated using a 6-degrees of freedom robotic system to apply passive plantar flexion and dorsiflexion motions and multidirectional loads. A repeated measures experiment was designed using the intact ATFL, transected ATFL, and reconstructed ATFL. During ATFL reconstruction (ATFLR), the graft was fixed at a neutral position (ATFLR 0 degrees), 15 degrees of plantar flexion (ATFLR PF15 degrees), and 30 degrees of plantar flexion (ATFLR PF30 degrees) with a constant initial tension of 10 N. The 3-dimensional path and reconstructed graft tension were simultaneously recorded, and the in situ force of the ATFL and reconstructed grafts were calculated using the principle of superposition.

RESULTS

The in situ forces of the reconstructed grafts in ATFLR 0 degrees and ATFLR PF 15 degrees were significantly higher than those of intact ankles. The ankle kinematics and laxity produced by ATFLR PF 30 degrees were not significantly different from those of intact ankles. The in situ force on the ATFL was 19.0 N at 30 degrees of plantar flexion. In situ forces of 41.0, 33.7, and 21.9 N were observed at 30 degrees of plantar flexion in ATFLR 0, 15, and 30 degrees, respectively.

CONCLUSION

ATFL reconstruction with the peroneus longus (PL) tendon was performed with the graft at 30 degrees of plantar flexion resulted in ankle kinematics, laxity, and in situ forces similar to those of intact ankles. ATFL reconstructions performed with the graft fixed at 0 and 15 degrees of the plantar flexion resulted in higher in situ forces on the reconstructed graft.

CLINICAL RELEVANCE

Fixing the ATFL tendon graft at 30 degrees of plantar flexion results in an in situ force closest to that of an intact ankle and avoids the excessive tension on the reconstructed graft.

Primary Repair, Reconstruction, and Suture Tape Augmentation All Provide Excellent Outcomes for Lateral Ligament Instability: A Systematic Review

Purpose

To analyze the literature to compare outcomes and complications following primary lateral ankle ligament repair compared with lateral ankle ligament reconstruction and the suture tape augmentation in patients with lateral ankle instability.

Methods

Following the Preferred Reporting Items for Systematic Review and Meta-Analyses (PRISMA) criteria, a systematic literature review using the PubMed/Ovid Medline database was performed (October 11, 1947, to October 1, 2019). Clinical trials that included all the following criteria were considered eligible; published in the English language; patients undergoing primary lateral ankle repair or reconstruction with/without autograft or allograft (anterior talofibular ligament, anterior talofibular ligament + calcaneofibular ligament) or suture tape augmentation; a follow-up at least 1 year; reported least 1 of the measured outcomes (The American Orthopaedic Foot Ankle Score, Karlsson Score, return to sport [RTS], complications, skin wound complications, reoperation). Surgical techniques were evaluated, and studies were subdivided by the following categories: primary repair (PR), reconstruction with graft (GR), and suture tape augmentation (STA). Complications, radiographic outcomes, functional outcome scores, and RTS were analyzed.

Results

A total of 41 of 1,991 studies met the criteria for final analysis. This included 1,920 patients who underwent surgical intervention for chronic lateral instability with at least a 1-year follow-up. There were 350 patients who had GR, 1,486 who underwent the PR, and 84 who had STA. GR group appeared to have the lowest rate of complications: GR 3.1% (11 of 350), PR 4.2% (63 of 1486), and STA 10.7% (9 of 84). Postoperative American Orthopaedic Foot Ankle Score ranged from 89.0 to 95.1 for GR and 90.0 to 98.8 for PR. Postoperative Karlsson scores ranged from 80.9 to 94.4 for GR and from 89.2 to 94.1 for PR. Anterior drawer postoperative scores ranged from 1.4 to 30.3 mm for GR, 2.7 to 8.6 mm for PR, and 4.1 to 4.2 mm for STA. Postoperative talar tilt ranged from 2.4 to 7.3° for GR, 1.9 to 6.0° for PR, and 3.6 to 4.5° for STA. RTS ranged from 9.5 to 20.4 weeks for the PR group; one study reported a RTS of 10.6 weeks for STA.

Conclusions

Excellent outcomes were noted across all intervention groups. Current literature may suggest there is no difference in functional outcomes between patients treated with PR versus GR. However, there may be a potential improvement in functional outcomes with PR versus STA.

Level of Evidence

Level IV, systematic review of Level I to Level IV studies.

Lack of Definition of Chronic Ankle Instability With Arthrometer-Assisted Ankle Joint Stress Testing: A Systematic Review of In Vivo Studies

Despite extensive research on ankle instability a consensual and clear objective definition for pathological mechanical lateral ankle instability is yet to be determined. This systematic review aimed to summarize current available arthrometric devices, measuring methods and lateral ankle laxity outcomes in patients with chronic ankle instability that underwent objective arthrometric stress measurement. Sixty-eight studies comprising a total of 3,235 ankles with chronic ankle instability were included. Studies reported a wide range of arthrometric devices, testing position and procedures, and measuring methods. For the anterior drawer test, the average mean differences between injured and uninjured ankles ranged from -0.9 to 4.1 mm, and total translation in the injured ankle from 3.2 to 21.0 mm. Most common pathological threshold was ≥4 mm or ≥10 mm unilaterally and ≥3 mm bilaterally. For the talar tilt test, the average mean differences between injured and uninjured ankles ranged from 0.0° to 8.0°, and total tilt from injured ankle from 3.3 to 60.2°. Most common pathological threshold was ≥ 10° unilaterally and ≥ 6° mm bilaterally. It was found high heterogeneity in the scientific literature regarding the arthrometric devices, use of concomitant imaging and measuring methods of arthrometer-assisted anterior drawer and talar tilt tests which led to variable laxity outcomes in individuals with chronic ankle instability. Future studies should focus on standardizing the testing and measuring methods for an objective definition of mechanical ankle instability.

No tunnel widening following arthroscopic anatomical reconstruction of the lateral ankle ligaments

INTRODUCTION

Arthroscopic anatomical reconstruction of the lateral ankle ligaments is an emerging technique for treating chronic ankle instability. One of the known complications of arthroscopic anterior cruciate ligament reconstruction is tunnel widening; this makes revision more complicated. The aim of this study was to look for tunnel widening in the postoperative course of arthroscopic ankle ligament reconstruction. We hypothesized that significant widening of the bone tunnels is present 1 year after anatomical ankle ligament reconstruction.

MATERIALS AND METHODS

Twenty-one patients who underwent arthroscopic anatomical reconstruction of the lateral ankle ligaments with a gracilis graft were included prospectively. A CT-scan with 1-mm thick slices with multiplanar reconstruction was done 1 year after the surgery. The size and shape of the tunnels was analyzed, and the ratio of the preoperative to postoperative diameter was calculated. Based on this ratio, the tunnels were given a grade as described by Struewer. Tunnel widening was defined as a grade III tunnel, thus a ratio ≥ 1.3. The tunnel shape was classified as described by Peyrache as cone type, cavity type, line type.

RESULTS

None of the tunnels had widened 1 year after arthroscopic anatomical reconstruction of the lateral ankle ligaments. At the fibula, 81% of tunnels were grade I and 19% were grade II; 57% were cone type and 43% were line type. At the talus, 86% of tunnels were grade I and 14% were grade II. All were line type. At the calcaneus, 86% of tunnels were grade I and 14% were grade II; 57% were cone type and 43% were line type.

DISCUSSION

The main finding of this study was the absence of tunnel widening 1 year after arthroscopic reconstruction of the lateral ankle ligaments.

LEVEL OF EVIDENCE

IV; retrospective study.

Current Concepts on Subtalar Instability

Subtalar instability remains a topic of debate, and its precise cause is still unknown. The mechanism of injury and clinical symptoms of ankle and subtalar instabilities largely overlap, resulting in many cases of isolated or combined subtalar instability that are often misdiagnosed. Neglecting the subtalar instability may lead to failure of conservative or surgical treatment and result in chronic ankle instability. Understanding the accurate anatomy and biomechanics of the subtalar joint, their interplay, and the contributions of the different subtalar soft tissue structures is fundamental to correctly diagnose and manage subtalar instability. An accurate diagnosis is crucial to correctly identify those patients with instability who may require conservative or surgical treatment. Many different nonsurgical and surgical approaches have been proposed to manage combined or isolated subtalar instability, and the clinician should be aware of available treatment options to make an informed decision. In this current concepts narrative review, we provide a comprehensive overview of the current knowledge on the anatomy, biomechanics, clinical and imaging diagnosis, nonsurgical and surgical treatment options, and outcomes after subtalar instability treatment.

Quantitative Evaluation of Ankle Instability Using a Capacitance-Type Strain Sensor

BACKGROUND

Manual evaluation is an important method for assessing ankle instability, but it is not quantitative. Capacitance-type sensors can be used to measure the distance on the basis of the capacitance value. We applied the sensor to the noninvasive device for measuring ankle instability and showed its utility.

METHODS

First, 5 ankles embalmed by Thiel's method were used in an experiment using a cadaver. The capacitance-type sensor was fixed alongside the anterior talofibular ligament (ATFL) of a specially made brace, and the anterior drawer test was performed. The test had been performed for the intact ankle, with the ATFL transected and with both the ATFL and calcaneofibular ligament (CFL) transected. The anterior drawer distance was calculated by the sensor. Intra- and interinvestigator reliability were also analyzed.Next, as a clinical study, a brace with a sensor was fitted to 22 ankles of 20 patients with a history of ankle sprain. An anterior drawer test at a load of 150 N was conducted using a Telos stress device. The anterior drawer distances measured by the sensor and based on radiographic images were then compared.

RESULTS

The mean anterior drawer distances were 3.7 ± 1.0 mm for the intact cadavers, 6.1 ± 1.6 mm with the ATFL transected (P < .001), and 7.9 ± 1.8 mm with the ATFL and CFL transected (P < .001). The intrainvestigator intraclass correlation coefficients (ICCs) were 0.862 to 0.939, and the interinvestigator ICC was 0.815. In the experiments on patients, the mean anterior drawer distance measured by the sensor was 2.9 ± 0.9 mm, and it was 2.7 ± 0.9 mm for the radiographic images. The correlation coefficient between the sensor and the radiographic images was 0.843.

CONCLUSION

We quantitatively evaluated anterior drawer laxity using a capacitance-type sensor and found it had high reproducibility and strongly correlated with stress radiography measurements in patients with ankle instability. Capacitance-type sensors can be used for the safe, simple, and accurate evaluation of ankle instability.

Lateral Ligament Reconstruction With Hamstring Graft for Ankle Instability: Outcomes for Primary and Revision Cases

BACKGROUND

Optimal treatment for patients with severe ankle instability or failed previous ankle stabilization is not well defined, and newer techniques have limited presence in the literature.

PURPOSE/HYPOTHESIS

The purpose of this study was to evaluate clinical and radiographic outcomes after modified anatomic lateral ligament reconstruction using hamstring auto- or allograft in primary cases versus revision cases. We hypothesized that patients undergoing a revision procedure would demonstrate inferior patient-reported and radiographic outcomes.

STUDY DESIGN

Cohort study; Level of evidence, 3.

METHODS

Patients who underwent modified anatomic lateral ligament reconstruction by a single surgeon between 2010 and 2017 were identified. Indications included failure of previous ankle stabilization or severe ankle laxity. Patients completed preoperative and minimum 1-year postoperative Foot and Ankle Outcome Score (FAOS) surveys. They also underwent pre- and postoperative stress radiographs using the Telos Stress Device.

RESULTS

A total of 41 patients (42 ankles) were identified. The mean age was 32.1 years, and 36 patients (88%) were women. There were 25 primary procedures and 17 revision procedures. Hamstring autograft was utilized in 35 ankles and hamstring allograft in 7 ankles. A total of 34 patients (83%) provided postoperative patient-reported outcome scores at a mean of 26 months (range, 12-65 months). When comparing primary versus revision procedures, revision patients had significantly lower FAOS Pain (77.14 vs 90.66; P = .009), Sports (63.46 vs 82.16; P = .008), and Quality of Life (53.53 vs 76.70; P = .002) scores. In total, 34 patients (83%) had stress radiographs at a mean of 14 months (range, 3-62 months) postoperatively. Revision patients also had lower, though statistically insignificant, postoperative talar tilt measurements on average (5.73° vs 7.10°; P = .252), and pre- to postoperative change in talar tilt was not significantly different between groups (-4.94° vs -7.03°; P = .415).

CONCLUSION

Revision procedures had significantly lower postoperative patient-reported outcome scores and lower talar tilt compared with patients undergoing a primary procedure, although the pre- to postoperative change in the talar tilt was not significantly different between groups.

Biomechanics Following Anatomic Lateral Ligament Repair of Chronic Ankle Instability: A Systematic Review

One of the most common orthopedic injuries in the general population, particularly among athletes, is ankle sprain. We investigated the literature to evaluate the known pre- and postoperative biomechanical changes of the ankle after anatomic lateral ligament repair in patients suffering from chronic ankle instability. In this systematic review, studies published till January 2020 were identified by using synonyms for "kinetic outcomes," "kinematic outcomes," "Broström procedure," and "lateral ligament repair." Included studies reported on pre- and postoperative kinematic and/or kinetic data. Twelve articles, including 496 patients treated with anatomic lateral ligament repair, were selected for critical appraisal. Following surgery, both preoperative talar tilt and anterior talar translation were reduced similarly to the values found in the uninjured contralateral side. However, 16 of 152 (10.5%) patients showed a decrease in ankle range of motion after the surgery. Despite the use of these various techniques, there were no identifiable differences in biomechanical postoperative outcomes. Anatomic lateral ligament repair for chronic ankle instability can restore ankle biomechanics similar to that of healthy uninjured individuals. There is currently no biomechanical evidence to support or refute a biomechanical advantage of any of the currently used surgical ligament repair techniques mentioned among included studies.

Early Versus Delayed Mobilization Post-Operative Protocols for Primary Lateral Ankle Ligament Reconstruction: A Systematic Review and Meta-Analysis

Introduction

Lateral ankle instability represents a common orthopaedic diagnosis. Nonoperative treatment through focused physical therapy provides satisfactory results in most patients. However, some patients experience persistent chronic lateral ankle instability despite appropriate nonoperative treatment. These patients may require stabilization, which can include primary lateral ligament reconstruction with a graft to restore ankle stability. Optimal post-operative rehabilitation of lateral ankle ligament reconstruction remains unknown, as surgeons vary in how long they immobilize their patients post-operatively. The aim of this review was to provide insight into early mobilization (EM) versus delayed mobilization (DM) post-operative protocols in patients undergoing primary lateral ankle ligament reconstructions to determine if an optimal evidence-based post-operative rehabilitation protocol exists in the literature.

Methods

Following PRIMSA criteria, a systematic review/meta-analysis using the PubMed/Ovid Medline database was performed (10/11/1947 – 1/28/2020). Manuscripts that were duplicates, non-lateral ligament repair, biomechanical, and non-English language were excluded. Protocols were reviewed and divided into two categories: early mobilization (within three weeks of surgery) and delayed mobilization (after three weeks of surgery). Functional outcome scores (American Orthopedic Foot and Ankle Society Score (AOFAS), Karlsson scores), radiographic measurements (anterior drawer, talar tilt), and complications were evaluated using weighted mean differences (pre- and post-operative scores) and mixed-effect models.

Results

After our search, twelve out of 1,574 studies met the criteria for the final analysis, representing 399 patients undergoing lateral ankle reconstruction. Using weighted mean differences the DM group showed superior AOFAS functional scores compared to the EM group (28.0 (5.5) vs. 26.3 (0.0), respectively; p < 0.001), although sample size was small. Conversely, no significant differences were found for Karlsson functional score (p = 0.246). With regards to radiographic outcome, no significant differences were observed; anterior drawer was p = 0.244 and talar tilt was p = 0.937. A meta-analysis using mixed-effects models confirmed these results, although heterogeneity was high.

Conclusions

While there are some conflicting results, the findings indicated the timing of post-operative mobilization made no difference in functional outcomes or post-operative stability for patients undergoing lateral ankle ligament reconstruction. Because heterogeneity was high, future studies are needed to evaluate these protocols in less diverse patient groups and/or more consistent techniques for lateral ankle ligament reconstruction.

A calcaneal tunnel for CFL reconstruction should be directed to the posterior inferior medial edge of the calcaneal tuberosity

PURPOSE

Anatomical reconstruction of the calcaneofibular ligament (CFL) is a common technique to treat chronic lateral ankle instability. A bone tunnel is used to fix the graft in the calcaneus. The purpose of this study is to provide some recommendations about tunnel entrance and tunnel direction based on anatomical landmarks.

METHODS

The study consisted of two parts. The first part assessed the lateral tunnel entrance for location and safety. The second part addressed the tunnel direction and safety upon exiting the calcaneum on the medial side. In the first part, 29 specimens were used to locate the anatomical insertion of the CFL based on the intersection of two lines related to the fibular axis and specific landmarks on the lateral malleolus. In the second part, 22 specimens were dissected to determine the position of the neurovascular structures at risk during tunnel drilling. Therefore, a method based on four imaginary squares using external anatomical landmarks was developed.

RESULTS

For the tunnel entrance on the lateral side, the mean distance to the centre of the CFL footprint was 2.8 ± 3.0 mm (0-10.4 mm). The mean distance between both observers was 4.2 ± 3.2 mm (0-10.3 mm). The mean distance to the sural nerve was 1.4 ± 2 mm (0-5.8 mm). The mean distance to the peroneal tendons was 7.3 ± 3.1 mm (1.2-12.4 mm). For the tunnel exit on the medial side, the two anterior squares always contained the neurovascular bundle. A safe zone without important neurovascular structures was found and corresponded to the two posterior squares.

CONCLUSION

Lateral landmarks enabled to locate the CFL footprint. Precautions should be taken to protect the nearby sural nerve. A safe zone on the medial side could be determined to guide safe tunnel direction. A calcaneal tunnel should be directed to the posterior inferior medial edge of the calcaneal tuberosity.

Clinical Outcomes and Return to Sport After Minimally Invasive Reconstruction of the Lateral Ligament Complex with Semitendinosus Tendon Autograft in Chronic Lateral Ankle Instability

BACKGROUND

Ankle sprains are common, affecting especially the lateral ligament complex of the ankle, often leading to chronic symptoms and instability. Many procedures have been described for chronic ankle instability. This study analyzes clinical outcomes and return to sport in patients who underwent minimally invasive reconstruction of the lateral ligament complex of the ankle with a semitendinosus tendon autograft.

METHODS

Twenty-three patients (mean age, 33.9 years) with grade 3 lesions of both the anterior talofibular and calcaneofibular ligaments underwent minimally invasive reconstruction of the anterior talofibular and calcaneofibular ligaments with an ipsilateral semitendinosus tendon autograft. They were retrospectively reviewed, and return to sport was evaluated with the Halasi ankle activity scale.

RESULTS

Mean follow-up was 30 months (range, 26-53 months). The mean American Orthopaedic Foot and Ankle Society score increased from 68.6 to 95.3. The average visual analog scale score decreased from 3.6 to 1.3. The Halasi score changed from 5.0 to 5.1. Except for the Halasi score, the differences were significant (P < .001). Nineteen patients judged the received treatment as excellent, 2 as good. No revision procedures were performed. No major complications were reported.

CONCLUSIONS

This study confirms good clinical and sport outcomes after minimally invasive reconstruction of the lateral ligament complex of the ankle with a semitendinosus autograft.

The effectiveness of lateral ankle ligament reconstruction when treating chronic ankle instability: A systematic review and meta-analysis

Chronic ankle instability predominantly occurs due to multiple exercise-related diseases. Conservative treatment methods regarding this condition have not effectively improved in recent years, which is why more focus has been put on exploring different novel reconstruction procedures of the lateral ankle ligament for the treatment of chronic ankle instability.

OBJECTIVES

This study aims to obtain the overall effectiveness of various lateral ankle ligament reconstruction methods for chronic ankle ligament instability.

METHODS

We gathered data from PubMed and EMBASE databases using the keywords: ankle, malleolar, and reconstruction. Newcastle - Ottawa quality assessment was carried out for the obtained studies; effect volume combination and image drawing were performed by Stata14, and Excel was used for data statistics.

RESULTS

A total of 12 articles were included in the quantitative analysis by performing full-text reading and data inclusion. Among them, 476 patients (485 ankle joints) were treated. The results showed that the overall valid efficiency of "excellent" was 59% and "good" lateral ligament reconstruction was 26%, I²=87.3%, P = 0.000; the subgroup analysis anatomic reconstruction group I²=0.0%, P = 0.993; the autograft group I²=0.0%, P = 1.000; allograft group I²=0.0%, P = 0.993.

CONCLUSION

Reconstruction of the lateral ankle ligament is a relatively stable treatment for chronic ankle instability.

The comprehensive review of the neurovascular supply of the ankle joint: clinical implications

The rupture of ligament in the lateral part of ankle joint is a common injury and can lead to chronic ankle instability and lead to ankle osteoarthritis. Ankle arthroscopy is considered as a standard option to treat various ankle problems due to the need for only minimal incisions and fewer complications when compared to open surgery. However, there are complications associated with arthroscopic surgery e.g. damage to the anatomical structures around the portal placement areas. The present review provides anatomical knowledge of the superficial and deep neurovascular structures in the ankle region. These structures are important when ankle surgery is performed in order to avoid any intraoperative injury and prevent any complication following surgery.

Evaluation modalities for the anatomical repair of chronic ankle instability

PURPOSE

Several evaluation modalities are reported in the literature dealing with the operative treatment of chronic ankle instability (CAI) both to establish the CAI diagnosis leading to the surgical indication and to assess the effectiveness of ankle stabilisation procedure. The purpose of this study is to present an overview of the pre- and postoperative evaluation modalities reported in the literature dealing with CAI operative treatment. The comprehensive analysis of the different modalities chosen by researchers is expected to suggest critical points in current evaluation ability of CAI surgical treatment.

METHODS

Systematic review of the literature on surgical treatment of CAI through anatomic procedures. Pubmed, Embase and Cochrane electronic databases were analysed, from 2004 to 2018.

RESULTS

One-hundred-and-four studies met inclusion in this systematic review. 88 out of 104 studies analysed preoperative mechanical laxity of the ankle to depict the ligamentous insufficiency related to the subjective feeling of functional instability. Stress radiographs and manual stress examination of the ankle were the two most common modalities to evaluate joint laxity, reported in 67 and 53 studies, respectively. Clinical Outcome Measurement Scales (COMs) is the most common evaluation modality (102 out of 104 studies) to assess CAI surgical outcome. The American Orthopaedic Foot and Ankle Society Ankle-Hindfoot scale (AOFAS) and the Karlsson score are the most frequent COMs, reported in the 66% and 33%, respectively of the included literature. The radiographic analysis of ankle laxity after stabilisation procedures is the second most frequent postoperative evaluation modality, reported in 55 out 104 studies.

CONCLUSIONS

There is a lack of standardization among researchers related to both the criteria to establish the CAI diagnosis leading to the surgical indication and the modality chosen to evaluate the effectiveness of surgical treatment. Future standardization of evaluation modalities in the CAI population is desirable to increase consistency of reported data.

LEVEL OF EVIDENCE

Level IV, review of level I, II, III and IV studies.

Lateral ankle ligament anatomic reconstruction for chronic ankle instability: Allograft or autograft? A systematic review

BACKGROUND

To investigate if there is any evidence in favour of autograft or allograft use for anatomic reconstruction of lateral ankle ligaments in patients with symptomatic chronic ankle instability.

METHODS

A literature search was performed in PubMed MEDLINE, Cochrane Library, EMBASE and Google Scholar databases, over the years 1994-2017, to identify the studies presenting clinical results of anatomic lateral ankle ligaments reconstruction using various combinations of the keywords "lateral ankle ligaments reconstruction", "anatomic reconstruction", "chronic ankle instability", "allograft", "autograft". The surgical procedure was considered anatomic if consistent with the description of lateral ankle ligaments made by Burks and Morgan in 1994.

RESULTS

Among the 89 papers matching the search terms, only 12 could be included in which 357 anatomic lateral ankle ligaments reconstructions were performed. One was a comparative case series (level of evidence III - LOE III) while other papers were retrospective case series (LOE IV), the mean Modified Coleman Methodology Score (MCMS) was fair: 56.7 (SD±5.2). Due to the low level of evidence of the available literature only a qualitative analysis was performed. The limited evidence from the studies analysed suggests that there is no difference in graft survivorship, graft-dependent variables, patient's satisfaction, clinical outcome measures and radiographic results between allograft and autograft.

CONCLUSIONS

Given the low number of studies, their poor methodology score and their low level of evidence it is not possible to determine if allograft is better or safer than autograft.

LEVEL OF EVIDENCE

Level IV, review paper of level III and level IV studies.

The calcaneofibular ligament has distinct anatomic morphological variants: an anatomical cadaveric study

PURPOSE

The purpose of this study was to investigate if the calcaneofibular ligament (CFL) presents morphologic variants and measure the morphometrics of the ligament and its footprints METHODS: An anatomical study of 47 fresh-frozen below-the-knee ankle specimens was performed. Lateral ankle structures were dissected to expose the CFL. Overdissection was avoided to not modify the native morphology. The morphology (number and orientation of CFL bundles) and measurements of CFL insertions were recorded with ankle secured in neutral position.

RESULTS

Four distinct morphological-oriented shapes of the CFL were observed. These included single bundle, Y-shape double bundle, V-shape double bundle, and associated with the lateral talocalcaneal ligament. The most frequent CFL morphology observed was the single bundle and the Y-shape double bundle, present in 21 (44.7%) and 13 (27.7%) ankles. The V-shape double bundle and the CFL double bundle associated with the lateral talocalcaneal ligaments were less common, appearing only in eight (17.0%) and five (10.6%) ankles. The CFL length was higher in single bundle and Y-shaped double bundle CFL variants, about 30 mm each. Footprint morphometrics were heterogenous amongst the different CFL variants.

CONCLUSION

The CFL presents four distinct morphological-oriented shapes. The double bundle, V-shaped and Y-shaped CFL variants are uncommon and poorly reported in the literature. Their relation to the lateral talocalcaneal ligament and the inferior fascicle of the anterior talofibular ligament requires further research. The CFL morphology provides detailed knowledge of CFL anatomy that can improve diagnostic procedures. Furthermore, this information can fine-tune graft selection and sizing and allow a more precise anatomic placement during surgical reconstruction.

An oblique fibular tunnel is recommended when reconstructing the ATFL and CFL

PURPOSE

A bone tunnel is often used during the reconstruction of the anterior talofibular ligament (ATFL) and calcaneofibular ligament (CFL). The purpose of this study is to compare proposed directions for drilling this fibular tunnel and to assess potential tunnel length, using a 5-mm-diameter tunnel and surrounding bone.

METHODS

Anonymous DICOM data from spiral CT-scan images of the ankle were obtained from 12 Caucasian patients: 6 females and 6 males. Virtual tunnels were generated in a 3D bone model with angles of 30°, 45°, 60° and 90° in relation to the fibular long axis. Several measurements were performed: distance from entrance to perforation of opposing cortex, shortening of the tunnel, distance from tunnel centre to bone surface.

RESULTS

A tunnel in a perpendicular direction resulted in an average possible tunnel length of 16.8 (± 2.7) mm in the female group and 20.3 (± 3.4) mm in the male group. A tunnel directed at 30° offered the longest length: 30.9 (± 2.5) mm in the female group and 34.4 (± 2.9) mm in the male group. The use of a 5-mm-diameter tunnel in a perpendicular direction caused important shortening of the tunnel at the entrance in some cases. The perpendicular tunnel was very near to the digital fossa while the most obliquely directed tunnels avoided this region.

CONCLUSION

An oblique tunnel allows for a longer tunnel and avoids the region of the digital fossa, thereby retaining more surrounding bone. In addition, absolute values of tunnel length are given, which can be useful when considering the use of certain implants. We recommend drilling an oblique fibular tunnel when reconstructing the ATFL and CFL.

Clinical Guidelines for the Surgical Management of Chronic Lateral Ankle Instability: A Consensus Reached by Systematic Review of the Available Data

Background:

The surgical management of chronic lateral ankle instability (CLAI) has evolved since the 1930s, but for the past 50 years, the modified Broström technique of ligament repair has been the gold standard. However, with the development of arthroscopic techniques, significant variation remains regarding when and how CLAI is treated operatively, which graft is the optimal choice, and which other controversial factors should be considered.

Purpose:

To develop clinical guidelines on the surgical treatment of CLAI and provide standardized guidelines for indications, surgical techniques, rehabilitation strategies, and assessment measures for patients with CLAI.

Study Design:

A consensus statement of the Chinese Society of Sports Medicine.

Methods:

A total of 14 physicians were queried for their input on guidelines for the surgical management of CLAI. After 9 clinical topics were proposed, a comprehensive systematic search of the literature published since 1980 was performed for each topic through use of China Biology Medicine (CBM), China National Knowledge Infrastructure (CNKI), PubMed, Web of Science, EMBASE, and the Cochrane Library. The recommendations and statements were drafted, discussed, and finalized by all authors. The recommendations were graded as grade 1 (strong) or 2 (weak) based on the GRADE (Grading of Recommendations Assessment, Development, and Evaluation) concept. Based on the input from 28 external specialists independent from the authors, the clinical guidelines were modified and finalized.

Results:

A total of 9 topics were covered with regard to the following clinical areas: surgical indications, surgical techniques, whether to address intra-articular lesions, rehabilitation strategies, and assessments. Among the 9 topics, 6 recommendations were rated as strong and 3 recommendations were rated as weak. Each topic included a statement about how the recommendation was graded.

Conclusion:

This guideline provides recommendations for the surgical management of CLAI based on the evidence. We believe that this guideline will provide a useful tool for physicians in the decision-making process for the surgical treatment of patients with CLAI.

[Anatomic lateral ankle ligament reconstruction with the semitendinosus graft]

OBJECTIVE

Stabilization of severe anterolateral rotatory instability of the ankle joint.

INDICATIONS

Major ankle instability, rerupture after ligament reconstruction, generalized ligament laxity.

CONTRAINDICATIONS

Minor instabilities, degenerative joint disease, underlying complex deformities like cavovarus.

SURGICAL TECHNIQUE

Insufficient lateral ankle ligaments are replaced by an autologous semitendinosus graft. Three small incisions are used to position the graft anatomically under direct view with two fibular bone tunnels and bony fixation with interference screws.

POSTOPERATIVE MANAGEMENT

Early functional treatment with weight-bearing as tolerated in a walker.

RESULTS

In all, 22 patients have been treated with the described technique with good stabilization in all cases. Two complications were observed: Too short graft in one patient and postoperative suture granuloma in another case.

Percutaneous Ankle Reconstruction of Lateral Ligaments

Chronic ankle instability following ankle sprains causes pain and functional problems such as recurrent giving way. Within the 3 ligaments of the lateral ligament complex, 80% of patients tear the anterior talofibular ligament (ATFL), whereas the other 20% of patients tear the ATFL and calcaneofibular ligament (CFL). Rarely, the posterior talofibular ligament is involved. An incidence of 10% to 30% of patients will fail conservative treatment and result in chronic ankle instability that may require surgical treatment. To date, numerous open surgical procedures for anatomic repair or reconstruction of ATFL and/or CFL provide good clinical results.

Postoperative Imaging of the Ankle

OBJECTIVE

The purpose of this article is to review imaging after commonly encountered surgical interventions of the ligaments, tendons, and soft tissues around the ankle. Intraoperative images, when available, are provided to improve conceptual understanding of these complex procedures.

CONCLUSION

Surgical interventions in the ankle are becoming more prevalent with increasing athletic demands and emerging focus on techniques for prevention of joint injury. Knowledge of the surgical techniques, imaging appearances, and complications in the postoperative ankle is necessary for the accurate diagnosis of postoperative complications and for optimal patient care.

Non-anatomical or direct anatomical repair of chronic lateral instability of the ankle: A systematic review of the literature after at least 10 years of follow-up

INTRODUCTION

A lateral ankle sprain is one of the most frequent reasons for consultation at the emergency trauma unit. Numerous surgical procedures have been described with long-term outcomes that differ.

HYPOTHESIS

The long-term results of anatomical repair of the anterior talofibular ligament (ATFL) and the calcaneofibular (CFL) ligament are better, with less secondary radiological osteoarthritis than non-anatomical repair.

MATERIALS AND METHODS

A review of the literature after a minimum follow-up of 10 years was performed to analyze the clinical and radiological results of direct anatomical repair (Broström, Duquennoy) and non-anatomical repair (Watson Jones, Evans, Castaing). Thirteen articles were selected.

RESULTS

Eight hundred and one ankles were evaluated after a mean follow-up of 15.3 years. The functional outcome was better after anatomical repair but with recurrent instability. Loss of range of motion and secondary osteoarthritis was more frequent after non-anatomical repair.

CONCLUSION

Anatomical repair of the lateral collateral ligament of the ankle resulted in a better functional outcome and less secondary osteoarthritis than non-anatomical repair.

STUDY DESIGN

Review of the literature; level of proof IV.

Hamstring Autograft for Foot and Ankle Applications

BACKGROUND

Hamstring tendon autografts may be used for foot and ankle surgeries, although reports on their effectiveness and morbidity in the foot and ankle literature are limited. We studied a cohort of patients who underwent hamstring harvest for foot and ankle applications, hypothesizing that morbidity to the knee would be limited.

METHODS

We studied a cohort of patients who underwent hamstring autograft for foot or ankle applications by a fellowship-trained sports and foot and ankle surgeon since 2011. Thirty-seven patients underwent isokinetic strength testing using a dynamometer an average of 38 months postoperatively. The average patient age was 45 ± 16 (range, 18-78) years, and 54% were women. Peak flexion and extension torque as well as flexion and extension torque at 30, 70, and 90 degrees of flexion were collected at 2 different testing speeds, 180 and 300 degrees/s. t tests were used for all comparisons.

RESULTS

At follow-up, 32 patients (86%) reported no pain at the harvest site; the remaining 5 patients reported mild to moderate symptoms. No patients were dissatisfied, and all would recommend the surgery to someone else. Flexion strength at higher degrees of flexion was significantly lower compared with extension strength as well as compared with flexion strength at lower degrees of flexion, when testing was performed at lower speed ( P < 0.05).

CONCLUSIONS

When used for foot and ankle surgery, hamstring autografts resulted in high patient satisfaction with minimal donor site morbidity. While knee flexion strength was decreased at higher degrees of flexion, this finding did not appear to be clinically significant.

LEVEL OF EVIDENCE

Level IV, case series.

A new minimally invasive method for anatomic reconstruction of the lateral ankle ligaments with a Tightrope system

BACKGROUND

Several minimally invasive anatomic reconstruction techniques of the lateral ligaments have been introduced for the treatment of chronic lateral ankle instability. However, these strategies may not always follow accurate ligament anatomic attachments, especially in the construction of the fibular bone tunnels.

OBJECTIVES

This study reported a new percutaneous technique for reconstruction of the ligaments of lateral ankle anatomically with a Tightrope system.

METHODS

From April 2016 to August 2016, 25 ankles of 24 patients with chronic ankle instability underwent our new percutaneous anatomic reconstruction of the lateral ligaments with a Tightrope system. The operation was performed through several small incisions. The fibular tunnel was made obliquely from the anteromedial side of lateral malleolus tip towards retro-malleolar cortex. The graft was fixed in the tunnel with the help of a Tightrope system. The calcaneal tunnel and talar tunnel were made as our previous method. The mean final follow-up was 12.2 months (range 10-14). Visual Analogue Scale for pain, American Orthopaedic Foot and Ankle Society score, and patients' subjective satisfaction were used to measure clinical outcomes. Preoperative and postoperative stress tests were performed and radiographic parameters were measured.

RESULTS

The Visual Analogue Scale decreased from 3.0 ± 1.4 to 1.3 ± 0.8 at the last follow-up (p < 0.01). The American Orthopaedic Foot and Ankle Society score was improved from 70.2 ± 5.4 preoperatively to 92.4 ± 5.3 at the final follow-up (p < 0.01). Radiologically, the mean anterior talar displacement was 13.1 ± 2.7 mm preoperatively versus 5.6 ± 1.3 mm at last follow-up (p < 0.01),and the mean varus talar tilt angle was 15.0° ± 2.4° preoperatively versus 5.6° ± 1.9° at the last follow-up (p < 0.01). Patients were satisfied ('excellent' or 'good') in 23 ankles (92%). Two patients reported residual instability but less apprehension than the preoperative condition.

CONCLUSIONS

Percutaneous anatomic reconstruction of the lateral ligaments of the ankle with a Tightrope system is an anatomic and effective procedure for the treatment of chronic lateral ankle instability.

Modified Broström Procedure Using Distal Fibular Periosteal Flap Augmentation vs Anatomic Reconstruction Using a Free Tendon Allograft in Patients Who Are Not Candidates for Standard Repair

BACKGROUND

The modified Broström procedure (MBP) is widely accepted as the primary operative treatment for chronic lateral ankle instability (CLAI). However, the MBP does not produce good clinical results in all patients, and anatomic reconstruction using a free tendon graft may be considered in those patients. The purpose of this study was to evaluate the efficacy of the MBP using distal fibular periosteal flap augmentation for CLAI in patients who were not candidates for standard repair.

METHODS

Thirty-eight patients (39 ankles) who underwent surgery for CLAI were retrospectively analyzed. The patients were divided into 2 groups: an anatomic lateral ligament reconstruction group (reconstruction group) consisting of 17 ankles and an MBP group using distal fibular periosteal flap augmentation (augmentation group) consisting of 22 ankles. Preoperative and postoperative clinical evaluations were performed using the visual analog scale (VAS), American Orthopaedic Foot & Ankle Society (AOFAS), and Karlsson-Peterson (Karlsson) scores.

RESULTS

The mean VAS, AOFAS, and Karlsson scores significantly improved from 4.0 to 1.8, 54.7 to 92.9, and 46.4 to 92.7, respectively, in the reconstruction group ( P < .001, P < .001, P < .001), and from 4.1 to 1.5, 60.1 to 94.9, and 52.6 to 94.1, respectively, in the augmentation group ( P < .001, P < .001, P < .001). There were no significant differences in the mean postoperative AOFAS and Karlsson scores between the groups ( P = .214, P = .299).

CONCLUSION

The MBP using distal fibular periosteal flap augmentation was also an effective option for CLAI in cases of generalized ligament laxity, severe attenuation of the soft tissue, previous failed surgery, high demand activity, and obesity.

LEVEL OF EVIDENCE

Level III, comparative series.

Simultaneous Reconstruction of the Medial and Lateral Collateral Ligaments for Chronic Combined Ligament Injuries of the Ankle

BACKGROUND

Objective data on chronic injuries of the medial collateral ligament (MCL) of the ankle are scarce. Chronic MCL injuries are frequently associated with lateral collateral ligament (LCL) injuries. For patients with chronic combined MCL and LCL injuries, the authors have performed simultaneous surgery of the 2 ligaments.

HYPOTHESIS

Simultaneous surgery of the 2 ligaments may be effectively used to treat chronic combined MCL and LCL injuries.

STUDY DESIGN

Case series; Level of evidence, 4.

METHODS

Surgical outcomes were evaluated in 29 consecutive patients presenting with chronic MCL and LCL injuries (30 ankles; 15 men and 14 women; mean age, 31 years; 13 competitive and 10 recreational athletes). Preoperative and postoperative clinical outcomes were measured with the Karlsson score and the Japanese Society for Surgery of the Foot (JSSF) ankle-hindfoot scale score. The patients underwent preoperative and postoperative functional measurements and a radiological examination. In addition, preoperative magnetic resonance imaging (MRI) results, arthroscopic findings, and histology of the MCL were evaluated.

RESULTS

Preoperatively, the deep fibers of the MCL did not appear striated in 29 ankles, and high-intensity signal changes were observed in 23 ankles on T2-weighted or gradient echo MRI. MCL ruptures were confirmed with arthroscopic surgery. Medial impingement lesions and focal chondral lesions were confirmed in 10 and 21 ankles, respectively. Histology of the reconstructed MCL showed dense collagen fibers with vessels. The mean postoperative follow-up period was 30 months (range, 24-52 months). There was a significant change between preoperative and postoperative Karlsson scores (69.0 vs 96.1 points, respectively; P < .0001) and JSSF scores (69.8 vs 94.5 points, respectively; P < .0001). On varus and valgus stress radiography, the postoperative talar tilt angle was significantly lower than the preoperative angle. Postoperative anterior displacement on stress radiography was significantly lower than preoperative anterior displacement. Postoperatively, all 23 athletes returned to their preinjury level of sports participation.

CONCLUSION

MCL insufficiency resulted from medial ankle instability and medial impingement lesions. Outcomes in the patients indicated that MCL reconstruction or resection of medial impingement lesions, performed in addition to LCL reconstruction, is effective for treating chronic combined MCL and LCL injuries of the ankle.

Bony landmarks available for minimally invasive lateral ankle stabilization surgery: a cadaveric anatomical study

PURPOSE

The purpose of this study was to determine the clinical utility of three bony tubercles: fibular obscure tubercle, talar obscure tubercle and tuberculum ligamenti calcaneofibularis, to serve as anatomical landmarks for defining the precise location of the origins and insertions of the anterior talofibular ligament (ATFL) and calcaneofibular ligament (CFL).

METHODS

Twelve lower extremity cadaveric specimens were procured. The detectability of the tubercles was tested using palpation and fluoroscopy with subsequent confirmation after dissection. If the tubercles were present, then distances from the identified tubercles to the footprint centres and the intersection of the ATFL and CFL were measured to allow precise localization of the ATFL and CFL origin and intersection sites. Further, if the tubercles were not detectable, then an attempt to provide an alternative means of localizing ATFL and CFL origin and insertion sites was made by measuring distances between alternative landmarks and other important structures. All the measurements were performed by two researchers, and the results were averaged.

RESULTS

The fibular obscure tubercle existed and was detectable in all specimens. It was located 1.3 mm proximal to the articular tip of the fibula, 2.7 mm to the intersection of the ATFL and CFL, 3.7 mm distal to the ATFL and 4.9 mm proximal to the CFL origins. The talar obscure tubercle existed 58 % of specimens and was detectable in 57 %. The talar obscure tubercle was located 1.4 mm to the ATFL. The ATFL insertion point was located 60 % of the distance from the inferolateral corner to the anterolateral corner of the of talar body along the anterior border of the talar lateral articular facet. The tuberculum ligamenti calcaneofibularis existed in 33 % of specimens and was detectable in 8 %. The CFL inserted 17 mm on a perpendicular projected line distal from the subtalar joint.

CONCLUSIONS

The fibular obscure tubercle was clinically relevant and reliable bony landmark of the ATFL and CFL origin location. However, the talar obscure tubercle was less reliable and the tuberculum ligamenti calcaneofibularis was rarely available and as such alternative landmarks for the ATFL and CFL insertion location should be utilized. The present study describes the utility of clinically relevant bony landmarks that may assist in identifying the origins and insertions of the ATFL and CFL to facilitate minimally invasive ankle stabilization surgery.

Anatomy of anterior talofibular ligament and calcaneofibular ligament for minimally invasive surgery: a systematic review

PURPOSE

To gain a better understanding of the precise anatomy of the lateral ligaments of the ankle through a systematic review of published cadaveric studies in order to improve anatomical minimally invasive surgery (MIS) for treatment of chronic ankle instability (CAI).

METHODS

A systematic review of the literature was performed using the PubMed, EMBASE, Cochrane databases and Web of Science on June 2015 with the two search concepts: "lateral ligament of the ankle" and "anatomy". Anatomical studies that reported gross anatomy of the anterior talar fibular ligament (ATFL) and calcaneal fibular ligament (CFL) in English were included to assess the morphology and origins and insertions of the ligaments. All records found in the literature search were screened by title and abstract. Potentially relevant articles were selected for full-text review. Each of the identified articles was reviewed and included in qualitative synthesis. The following data were abstracted from the included articles: authors, date of publication, sample size, mean age, the length and the width of the each ligament, number of bundle of the ATFL and the location and the footprint of the origins and insertions for the ATFL and CFL.

RESULTS

Sixteen studies were identified indicating the length of the ATFL and CFL was 12-24.8 and 18.5-35.8 mm, respectively, while the width was 5-11.1 and 4.6-7.6 mm, respectively. Fibular origins of the ATFL and CFL were located on the anterior border of distal fibula at a distance of 10-13.8 and 5.3-8.5 mm proximal to the tip of the fibula, respectively. The talar insertion of the ATFL was located 14.2-18.1 mm to the subtalar joint or 11.3-14.8 mm to the anterolateral corner of the talar body. The calcaneal insertion of the CFL was located 12.1-13 mm to the subtalar joint or 13.2-27.1 mm to the peroneal tubercle on the lateral wall of calcaneus.

CONCLUSION

Systematic review of the literature of the research for the ATFL and CFL has identified the morphology of the ligaments and their location of origins and insertions. This is the best available data about the ATFL and CFL which will facilitate more precise anatomical MIS for treatment of CAI.

LEVEL OF EVIDENCE

Systematic review, Level IV.

Osteochondral autograft transplantation with biplanar distal tibial osteotomy for patients with concomitant large osteochondral lesion of the talus and varus ankle malalignment

Background

Osteochondral lesions of the talus (OLTs) are amongst the most common foot and ankle disorders. Varus ankle malalignment causes stress concentration on medial side of the joint, resulting in OLTs and osteoarthritis. For large symptomatic OLTs (>10 mm), Osteochondral autograft transplantation is usually recommended. This article highlights biplanar distal tibial osteotomy as an approach and management for patients with concomitant large OLTs and varus ankle malalignment.

Methods

From January 2012 to July 2014, 13 patients (6 male and 7 female) underwent surgery in our faculty and their average age was 55.4 (ranging from 34 to 69) years old. Oblique medial malleolar osteotomy was performed to expose the talar lesion, followed by an osteochondral autograft transplantation and distal tibial opening-wedge osteotomy. Weight-bearing X-rays were conducted and used for the measurement of radiographic parameters such as the tibial articular surface (TAS) and tibial lateral surface (TLS) angles. Ankle function of the subjects was evaluated according to the American Orthopaedic Foot and Ankle Society-Ankle and Hindfoot score (AOFAS-AH) questionnaires and Visual Analog Scale (VAS).

Results

11 patients completed the follow-up over a mean period of 21.2 months. The average area of talar lesion was 135.9 mm² while the average depth was 11.4 mm. The mean time for osseous union was 8.5 weeks. Donor site morbidity was not recorded in any of the cases. The mean AOFAS-AH and VAS improved from 53 to 90 points (p < 0.05) and 6.7 to 1.9 points (p < 0.05) respectively. The mean TAS angle improved from 83.1 to 90.3° (p < 0.05).

Conclusions

Biplanar distal tibial osteotomy with the combination of osteochondral autograft transplantation could be used to address patients with concomitant large OLTs and varus ankle malalignment as this technique provides excellent visualization of the talar defect, favorable biomechanical environment for the ankle joint with high rate of good and excellent results.

Endoscopic Ankle Lateral Ligament Graft Anatomic Reconstruction

Chronic instability is a common complication of lateral ankle sprains. If nonoperative treatment fails, a surgical repair or reconstruction may be indicated. Today, endoscopic techniques to treat ankle instability are becoming more popular. This article describes an endoscopic technique, using a step-by-step approach, to reconstruct the ATFL and CFL with a gracilis graft. The endoscopic technique is reproducible and safe with regard to the surrounding anatomic structures. Short and midterm results confirm the benefits of this technique.

Endoscopic reconstruction of CFL and the ATFL with a gracilis graft: a cadaveric study

PURPOSE

The purpose of this study was to evaluate a step-by-step approach to endoscopic reconstruction of the anterior talofibular ligament (ATFL) and the calcaneofibular ligament (CFL).

METHODS

Fourteen lower extremity cadaveric specimens were used. Four standard portals were defined and used. A step-by-step approach using several anatomical landmarks was used to reconstruct the ATFL and CFL. The feasibility of visualising the anatomical landmarks and both ligaments and their footprints was assessed. Both ligaments were reconstructed using a gracilis graft fixed in bone tunnels. The lateral side of the ankle was completely exposed and dissected. The specimen was assessed for clinical stability of the reconstruction and damage to the surrounding anatomical structures. The distance between the centre of the tunnel and the anatomical insertions of the ligaments was measured. The distance between the portals and the nerves was measured.

RESULTS

The step-by-step approach allowed a good visualisation of the entire course of the ATFL and CFL. An endoscopic reconstruction of both ligaments was performed, and good stability was obtained. The measurements revealed a good positioning of the reconstructed ligament insertions with a maximal error of 2 mm in most specimens. Anatomical dissection revealed no damage to the surrounding anatomical structures that were at risk. The average distance to the superficial peroneal nerve was 11.9 ± 5.3 mm (standard deviation), and the average distance to the sural nerve was 17.4 ± 3.2 mm (standard deviation). A safe zone was defined with regard to the surrounding nerves.

CONCLUSION

The described technique, which involves an anatomical endoscopic reconstruction of the ATFL and CFL, using a gracilis graft, is a viable option to treat lateral ankle instability. This technique is reproducible and safe with regard to the surrounding anatomical structures.

Minimally invasive surgical treatment for chronic ankle instability: a systematic review

PURPOSE

The purpose of this study was to determine the evidence-based support for the treatment for chronic ankle instability (CAI) using minimally invasive surgery (MIS) techniques.

METHODS

A systematic comprehensive review of the literature was performed on 4 September 2015 using PubMed, EMBASE, Cochrane databases and Web of Science along with the two search concepts: lateral ligament of the ankle (patients) and minimally invasive surgical procedure (intervention). Articles of clinical study on MIS for CAI were included in this review and classified into four MIS categories (arthroscopic repair, non-arthroscopic minimally invasive repair, arthroscopic reconstruction and non-arthroscopic minimally invasive reconstruction) based on the adopted surgical procedure. Included articles were reviewed and assigned a classification according to the research method quality of evidence (Level I-V evidence). Analysis of these studies was then conducted to provide a grade of recommendation for each MIS category.

RESULTS

The systematic literature review generated 430 articles, and 33 articles met our inclusion criteria. The highest recommendation was Grade C (poor-quality evidence) to support the use of the arthroscopic repair, arthroscopic reconstruction and non-arthroscopic minimally invasive reconstruction. Insufficient evidence was currently available to make any recommendation (Grade I) for non-arthroscopic minimally invasive repair category.

CONCLUSIONS

Despite recent increases in publications on MIS for the treatment for CAI, there was currently poor quality of evidence that was insufficient to allow a high grade of recommendation to support the use of the MIS. This paper should stimulate those surgeons performing higher quality studies in the form of prospective and preferably randomized comparative studies that will be necessary to allow better recommendations for the treatment for CAI with MIS. The present study showed thorough evidence-based recommendation for the clinical use of the MIS based on the comprehensive review of the literature.

LEVEL OF EVIDENCE

Systematic review, Level IV.

How to drill the talar tunnel in ATFL reconstruction?

PURPOSE

Reconstruction of the anterior talofibular ligament may be indicated in cases of residual instability after conservative treatment. Often, a bone tunnel is used for fixation in the talar bone. The purpose of this study is to evaluate possible routes for drilling the talar tunnel.

METHODS

Virtual tunnels were generated in a 3D bone model, oriented towards the following external landmarks: the talar neck, the most anterior point of the medial malleolus (MM), the most distal point of the MM, the most medial point of the MM, and the most posterior point of the MM. The parameters analysed for tunnels with lengths of 20, 25, and 30 mm were the maximum distance inside the bone and the distance from the tunnel to the bone surface. A minimal safe distance (MSD) was calculated for a tunnel with a diameter of 5 mm.

RESULTS

The shortest measured distance before arriving outside the talar bone was 16.7 mm. The longest distances were obtained in the tunnels oriented towards the talar neck (mean value of 36.6, SD 2.8) and towards the most posterior point of the MM (mean value of 35.8, SD 0.3). Only one tunnel, measuring 20 mm in depth and oriented towards the most posterior point of the MM, revealed no individual values below the MSD.

CONCLUSION

External landmarks are useful for drilling a talar tunnel during reconstruction of the anterior talofibular ligament. Only one tunnel, oriented towards the most posterior point of the MM, measuring 5 mm in diameter and with a maximum depth of 20 mm, was safe in all individuals. Surgeons should be aware of these limits when treating patients with ankle instability.

Anatomical Reconstruction of Lateral Ankle Ligaments Using Free Tendon Allografts and Biotenodesis Screws

BACKGROUND

Lateral ankle instability is one of the most common musculoskeletal disorders and can result in ankle damage. This study reports on the results of the anatomical reconstruction of ligaments using semitendinosus tendon allograft and bioabsorbable tenodesis screws for chronic lateral ankle instability, as well as the functional and radiological results of this procedure.

METHODS

From February 2007 to January 2013, 70 patients (72 ankles) underwent this procedure. Six patients were lost to follow-up, and ultimately 64 patients (66 ankles) were evaluated. Visual Analog Scale (VAS) pain scores, American Orthopaedic Foot & Ankle Society (AOFAS) scores, Karlsson-Peterson ankle scores, and patient satisfaction were evaluated at a mean of 22.1 months (range, 12-68 months) postoperatively. The talar tilt angle and anterior translation were assessed radiographically in pre- and postoperative ankle stress views. The mean patient age at surgery was 30.1 years (range, 16-59 years).

RESULTS

The mean VAS pain score decreased from 5.5 to 1.3 (P < .05), and the mean AOFAS improved from 71.0 to 90.9 (P < .05). The mean Karlsson-Peterson score improved from 55.1 to 90.3, whereas talar tilt decreased from 14.8 degrees to 3.9 degrees. There was no significant difference in clinical outcomes between the pretensioned and nonpretensioned groups.

CONCLUSION

This procedure yielded successful results, including satisfactory ankle stability and clinical outcomes, in ankles with poor lateral ligament tissues.

LEVEL OF EVIDENCE

Level IV, case series.

Minimally invasive reconstruction of the lateral ankle ligaments using semitendinosus autograft or tendon allograft

BACKGROUND

The purpose of the study was to retrospectively compare the therapeutic effect between semitendinosus autograft and tendon allograft for lateral ankle ligaments reconstruction.

METHODS

From September 2006 to June 2011, 68 patients (41 males, 27 females) with chronic ankle instability underwent anatomical reconstruction of the lateral ligaments using semitendinosus autograft (autograft group, 32 patients) or tendon allograft (allograft group, 36 patients) via a minimally invasive approach. All patients were followed up for at least 12 months. The American Orthopaedic Foot and Ankle Society Ankle-Hindfoot Scale score (AOFAS score) and stress tests were used to evaluate the clinical outcomes. Operation time, time to heal and complications were also recorded.

RESULTS

Compared with allograft group, the average operation time was significantly increased (85.5 ± 11.5 minutes vs 58.1 ± 10.2 minutes, P < .0001), but the mean time to heal was significantly shorter (11.2 ± 4.1 months vs 13.5 ± 5.2 months, P = .0458) in the autograft group. Although the mean AOFAS score was significantly increased at the final follow-up in the autograft group (95.1 ± 7.5 vs 62.3 ± 8.2, P = .0001) and allograft group (94.8 ± 5.5 vs 60.2 ± 8.4, P < .0001), no significant difference in AOFAS was found between these 2 groups. Similarly, there was no significant difference in talar tilt or shift between autograft and allograft groups. In addition, no patients complained of weakness or disability at the donor site in the autograft group, while incisional swelling was observed in 4 patients in the allograft group, which was resolved via dressing change, oral use of indomethacin or dexamethasone.

CONCLUSION

Reconstruction of the lateral ankle ligaments using a semitendinosus tendon autograft and a minimally invasive approach was safe and effective for ankle instability with a relatively short time for healing and minimal donor site problems.

LEVEL OF EVIDENCE

Level III, comparative case series.

Anterior talofibular ligament ruptures, part 2: biomechanical comparison of anterior talofibular ligament reconstruction using semitendinosus allografts with the intact ligament

BACKGROUND

Anatomic reconstructions of the lateral ankle ligaments with grafts have been proposed for patients with generalized ligamentous laxity, long-standing instability with attenuated native tissues, varus hindfoot misalignment, or failed prior lateral ligament surgery and for very large patients or elite athletes because of increased demands.

HYPOTHESIS

Anatomic reconstruction of the anterior talofibular ligament (ATFL) using a semitendinosus allograft fixed with biocomposite interference fit screws would have similar biomechanical properties to the intact ATFL at time zero in a cadaveric model.

STUDY DESIGN

Controlled laboratory study.

METHODS

Allograft reconstruction of the ATFL was performed in 6 fresh-frozen cadaveric ankles. The specimens were loaded to failure to determine the strength and stiffness of the reconstruction and compared with data from 6 cadaveric specimens with intact ATFLs.

RESULTS

The mean ultimate load to failure of the allograft reconstruction (170.7 ± 54.8 N) was not significantly different from that of the intact ATFL (154.0 ± 63.7 N). The mean stiffness of the allograft reconstruction (23.1 ± 9.3 N/mm) was also not significantly different from that of the intact ATFL (14.5 ± 4.4 N/mm).

CONCLUSION

Anatomic reconstruction of the ATFL with allografts demonstrated similar strength and stiffness to the native ligament at time zero in a fresh-frozen cadaveric model.

CLINICAL RELEVANCE

This technique of anatomic reconstruction of the ATFL with allografts has biomechanical validation for use in clinical situations where a Broström repair of the lateral ankle ligaments is unlikely to be successful or has previously failed.