We report on the first clinical cases of the Arthrex Ankle Syndesmosis TightRope (winner of 2003 BOA Technological Achievement Award and 2004 Cutlers' Prize), which has recently been licensed for use where classically a syndesmosis screw would be used. Twelve patients with Weber C ankle fractures treated with Arthrex TightRope syndesmosis fixation have a minimum of six months follow-up. The syndesmosis was fixed with the ankle in plantarflexion to aid reduction. Patient demographics, including fracture classification and mode of injury were obtained. Parameters measured at follow-up included ankle range of motion, maintenance of reduction and fibular length, and AOFAS ankle outcome score. The patient cohort showed a typical bimodal distribution of age. Age over 65 years was associated with a poorer outcome. Five patients had ankle fracture-dislocations, which was a factor for a poorer outcome. Nine patients had fibular plate fixation in addition to syndesmosis fixation, whilst three patients with Maisonneuve injuries had syndesmosis fixation only. There were no major complications, loss of reduction, wound problems, implant loosening or osteolysis. Ankle dorsiflexion was not restricted and mean total ankle range of motion was comparable to the uninjured side. No patient required secondary surgery for any reason, including hardware removal. Arthrex TightRope fixation is a simple, safe and effective method of ankle syndesmosis fixation, which allows physiological micromotion. Fixation in plantarflexion provides optimum syndesmosis compression for reduction, and does not compromise ankle range of motion. The Arthrex Ankle Syndesmosis TightRope may become the treatment of choice in Weber C ankle fractures

Ankle sprains in the athlete are one of the most common injuries, and syndesmosis type sprains seem to becoming diagnosed at an increasing rate. There still exists a paucity of information on optimal conservative and operative management. Treatment. Because of the spectrum of injury, there is a spectrum of treatment. if there is mortise widening, operative stabilization is required. if the mortise is normal, even with external rotation stress test positive, conservative treatment has been employed. staged conservative regimen directed at reducing pain and swelling acutely, at regaining range of motion and strength subacutely, and then progressed to functional training and finally return to sport. The timeframe for these was in the range of 2 to 6 weeks without very specific progression criteria. In the athlete, pain with rotational stress, greater severity of sprain, may treat operatively to stabilize the syndesmosis and aggressive rehab with earlier return to sport. Tightrope vs screw fixation vs both. Use of arthroscopy. Chronic sprains with recalcitrant pain and functional instability usually require operative treatment. very poor evidence exists as to the timing or type of procedure. Arthroscopy is required to confirm the diagnosis, treat intraarticular problems, and provide fixation of the distal tibiofibular syndesmosis. The postoperative regimen used is generally the same as the one used when treating an acute syndesmosis disruption. Tight rope vs Screw Fixation. clinical studies tightrope fixation has been acceptable and comparable to screw fixation. laboratory studies demonstrate comparable construct stability in the laboratory/cadaveric setting. indications for tightrope fixation are becoming more clear with more experience. my indications:. syndesmotic sprains with complete or incomplete disruption. fractures with syndesmotic disruption augment with screws, leave in place following screw removal. Summary and Controversies. Syndesmotic or high ankle sprains continue to be a common injury that result in significant time lost from sport. The conclusion that can be drawn from the current evidence is that the current diagnostic process probably fails to clearly assess the severity of the injury, which reduces the likelihood of accurately predicting the time lost from sport. Syndesmosis sprains can be a significant injuries that result in an inability to play sports for significant periods of time(up to 137 days). We need to be able to identify the more severe ones earlier in order to improve their treatment, perhaps lead to operative stabilization. Tightrope fixation avoids screw removal, minimally invasive, permanent stabilization

Is to present our clinical experience in how we evaluate ankle fractures as unstable and the use of syndesmosis screw in their treatment. Since 2004–2008, 85 ankle fractures treated surgically. Of them 31 were evaluated as unstable according to:. preoperative x-rays findings. intraoperative tests, and syndesmosis screw was used. We used AO-Weber classification: 14 cases type B(7 cases of B2 and 7B3), 16 cases type C(4 cases of C1 and 12 C2). Twenty-one of them were females and 10 were males. Their age rage was from 17–61 years old (Mean 42,5).The follow-up was from 6 months to 4 years(Mean 2,5 years). Syndesmosis screw was removed afters six weeks. Postoperative results were evaluated according the scoring system of Olerud and Malander. Postoperative there were 2 ankle O.A.(6,45%) due to false surgical technique. They treated by arthrodesis. The proper evaluation of the first x-ray findings of the fracture is of great importance for the proper treatmet. The syndesmosis screw is obligatory in unstable ankle fractures, in which, in combination with proper osteosynthesis preserves the ankle’s stability and viability. Ligament and bone lesions are responsible for ankle stability

Screw fixation of the injured syndesmosis restores stability, but may reduce ankle motion. We wished to determine whether functional and radiographic results are improved by removal of syndesmosis screws. In addition, we studied whether large fragment screws have an advantage compared to small fragment screws. We hypothesised that retained intact syndesmosis screws are detrimental to ankle function. One hundred and seven adults with ankle fractures requiring syndesmosis screw fixation between 2001 and 2005 were retrospectively studied. Indications for syndesmosis fixation were a positive intraoperative external rotation stress test or inadequate lateral column buttress. Weight bearing was encouraged six weeks postoperatively. Syndesmosis screws were only removed for tenderness, prominence or ankle dorsiflexion < 0.05. The LEM score for patients with intact screws was 70 ± 26 compared with 85 ± 20 for broken, loosened or removed screws (p=0.05). The OM score for patients with intact screws was 48 ± 36 compared with 63 ± 27 for broken, loosened or removed screws (p=0.12). There was no difference in outcome comparing broken, loosened, and removed screws. The tibiofibular clear space for intact screws was 3.3 ± 1.3 compared with 4.1 ± 1.7 for removed, broken or loosened screws (p=0.02). There was no difference in outcome comparing large and small fragment screws. Patients with broken, loosened or removed syndesmosis screws have better functional outcome compared to intact screws. The syndesmosis allows fibular rotation, shortening and translation during gait; the presence of an intact syndesmosis screw may restrict this motion. There was no disadvantage to leaving broken or loosened screws in-situ

Introduction. Syndesmosis injuries are significant injuries and require anatomical reduction. However, stabilisation of these injuries with syndesmosis screws carries specific complications and many surgeons advocate a second operation to remove the screw. Primary Tightrope suture fixation has been shown to be an effective treatment for syndesmotic injuries and avoids the need for a second operation. Materials and Methods. A retrospective audit identified patients who were treated for syndesmosis injuries over a two year period. Theatre and clinic costs were obtained to compare the cost of syndesmosis fixation using diastasis screws with the estimated cost of primary syndesmosis fixation using a Tightrope suture. Results. 79 patients received diastasis screw fixation of syndesmosis injuries between January 2007 and January 2009. The mean number of follow up clinic appointments was 3.7 following initial surgery, and 2.2 following diastasis screw removal. Allowing for device, theatre time and clinic appointment costs, and an estimated average of 4 follow up appointments following Tightrope syndesmosis fixation, primary fixation with this device could a saving of 34 theatre slots, 68 outpatient clinic appointments, and £12,138 per year at our hospital. Discussion. Biomechanical studies have demonstrated a reduction in normal tibiotalar external rotation with the presence of a diastasis screw, and there are several published reports of complications when these screws are retained. The Tightrope suture provides reduction of the syndesmosis whilst allowing normal physiological movement at the distal tibiofibular joint and negates the need for a second operation to remove the implant. In addition there may be improvements in foot and ankle scores and a faster return to work when these devices are used compared with traditional screw fixation. Conclusion. In addition to the patient benefits, our audit suggests that there may be significant financial benefits associated with primary syndesmosis fixation with Tightrope sutures

Disruption of the coraco-clavicular ligaments may be associated with either dislocation of the AC joint or fracture of the distal clavicle. If sufficient displacement occurs, functional disability results. Traditional techniques have required a bra-strap incision and often require late removal of the metalwork. The Tightrope syndesmosis repair system was adapted to be used arthroscopically to reduce and hold the clavicle enabling healing of the ligaments and any associated fracture using a minimally invasive technique but ensuring accurate reduction and secure stabilisation. Between December 2004 and November 2006, 21 patients with acute injuries to the corac-clavicular ligaments in our institution were treated using this system. As the system was in evolution the majority were treated arthroscopically and a few using an “open” technique. All had either the acromio-clavicular joint reduced or a distal clavicle fracture reduced and stabilised using the Tightrope Syndesmosis Repair system. The system had been modified from that commercially available for use in the ankle with the consent of the manufacturer (Arthrex, Naples, Fla). All patients were evaluated at a minimum of 6 months (range 6–32 months) post operatively using the DASH, ASES and Constant scores The mean ASES score was 95, the mean Constant score was 94, and the mean DASH score was 2.5. There were no complications and two patient required removal of the clavicle endobutton. The authors conclude that this new technique is a safe, simple, cosmetically acceptable and reproducible method of reducing and stabilising the distal clavicle allowing for healing of either the coraco-clavicular ligaments or the distal clavicle

Purpose of Study Disruption of the coraco-clavicular ligaments may be associated with either dislocation of the Acromioclavicular joint or fracture of the distal clavicle. If sufficient displacement occurs functional disability results. Traditional techniques have required a bra-strap incision and often require late removal of the metalwork. The Tightrope syndesmosis repair system was adapted to be used arthroscopically to reduce and hold the clavicle enabling healing of the ligaments and any associated fracture using a minimally invasive technique but ensuring accurate reduction and secure stabilisation. Between December 2004 and September 2005 20 patients with injuries to the coraco-clavicular ligaments were treated using this system. As the system was in evolution a the majority were treated arthroscopically and a few using an “open” technique. All had either the acromio-clavicular joint reduced or a distal clavicle fracture reduced and stabilised using the Tightrope Syndesmosis Repair system. The system had been modified from that commercially available for use in the ankle with the consent of the manufacturer (Arthrex, Naples, Fla). Results All patients were evaluated at a minimum of 6 months post operatively using the DASH, ASES and Constant scores The mean ASES score was 94, the mean Constant score was 90, the mean DASH score was 5 One patient had failure of the metalwork due to malposition, this was revised successfully using the Tightrope and one had a transient adhesive capsulitis. There were no other complications and no patient required removal of the metalwork. Conclusions The authors conclude that this new technique is a safe, simple, cosmetically acceptable and reproducible method of reducing and stabilising the distal clavicle allowing for healing of either the coraco-clavicular ligaments or the distal clavicle

Introduction

Early clinical examination combined with MRI following a high ankle sprain allows accurate diagnosis of syndesmosis instability. However, patients often present late, and for chronic injuries clinical assessment is less reliable. Furthermore, in many centres MRI may be not be readily available. The aims of the current study were to define MRI characteristics associated with syndesmosis instability, and to determine whether MRI patterns differed according to time from injury.

Abstract

Nearly one quarter of ankle fractures have a recognized syndesmosis injury. An intact syndesmosis ligament complex stabilizes the distal tibio-fibular joint while allowing small, physiologic amounts of relative motion. When injured, malreduction of the syndesmosis has been found to be the most important independent factor that contributes to inferior functional outcomes. Despite this, significant variability in surgical treatment remains. This may be due to a poor understanding of normal dynamic syndesmosis motion and the resultant impact of static and dynamic fixation on post-injury syndesmosis kinematics. As the syndesmosis is a dynamic structure, conventional CT static images do not provide a complete picture of syndesmosis position, giving potentially misleading results. Dynamic CT technology has the ability to image joints in real time, as they are moved through a range-of-motion (ROM). The aim of this study was to determine if syndesmosis position changes significantly throughout ankle range of motion, thus warranting further investigation with dynamic CT.

This is an a priori planned subgroup analysis of a larger multicentre randomized clinical trial, in which patients with AO-OTA 44-C injuries were randomized to either Tightrope or screw fixation. Bilateral ankle CT scans were performed at 1 year post-injury, while patients moved from maximal dorsiflexion (DF) to maximal plantar flexion (PF). In the uninjured ankles, three measurements were taken at one cm proximal to the ankle joint line in maximal DF and maximal PF: Anterior (ASD), middle (MSD), and posterior (PSD) syndesmosis distance, in order to determine normal syndesmosis position. Paired samples t-tests compared measurements taken at maximal DF and maximal PF.

Twelve patients (eight male, six female) were included, with a mean age of 44 years (±13years). The mean maximal DF achieved was 1-degree (± 7-degrees), whereas the mean maximal PF was 47-degrees (± 8-degrees). The ASD in DF was 3.0mm (± 1.1mm) versus 1.9mm (± 0.8mm) in PF (p<0.01). The MSD in DF was 3.3mm (±1.1mm) versus 2.3mm (±0.9mm) in PF (p<0.01). The PSD in DF was 5.3mm (±1.5mm) versus 4.6mm (±1.9mm) in PF (p<0.01). These values are consistent with the range of normal parameters previously reported in the literature, however this is the first study to report the ankle position at which these measurements are acquired and that there is a significant change in syndesmosis measurements based on ankle position.

Normal syndesmosis position changes in uninjured ankles significantly throughout range of motion. This motion may contribute to the variation in normal anatomy previously reported and controversies surrounding quantifying anatomic reduction after injury, as the ankle position is not routinely standardized, but rather static measurements are taken at patient-selected ankle positions. Dynamic CT is a promising modality to quantify normal ankle kinematics, in order to better understand normal syndesmosis motion. This information will help optimize assessment of reduction methods and potentially improve patient outcomes. Future directions include side-to-side comparison using dynamic CT analysis in healthy volunteers.

Syndesmotic ankle injuries are present in one fourth of all ankle trauma and may lead to chronic syndesmotic instability as well as posttraumatic ankle osteoarthritis. The main challenge remains distinguishing them from other types of ankle trauma. Currently, the patient's injured and non-injured ankles are compared using plain radiographs to determine pathology. However, these try to quantify 3D displacement using 2D measurements techniques and it is unknown to what extent the 3D configuration of the normal ankle syndesmosis is symmetrical.

We aimed to assess the 3D symmetry of the normal ankle syndesmosis between the right and left side in a non- and weightbearing CT.

In this retrospective comparative cohort study, patients with a bilateral non-weightbearing CT (NWBCT; N=28; Mean age=44, SD=17.4) and weight-bearing CT (WBCT; N=33; Mean age=48 years; SD=16.3) were analyzed. Consecutive patients were included between January 2016 and December 2018 when having a bilateral non-weightbearing or weightbearing CT of the foot and ankle. Exclusion criteria were the presence of hindfoot pathology and age less than 18 years or greather than 75 years. CT images were segmented to obtain 3D models. Computer Aided Design (CAD) operations were used to fit the left ankle on top of the right ankle. The outermost point of the apex of the lateral malleolus (AML), anterior tubercle (ATF) and posterior tubercle (PTF) were computed. The difference in the coordinates attached to these anatomical landmarks of the left distal fibula in the ankle syndesmosis with respect to right were used to quantify symmetry. A Cartesian coordinate system was defined based on the tibia to obtain the direction of differences in all six degrees of freedom. Statistical analysis was performed using the Mann-Whitney U test to allow comparison between measurements from a NWBCT and WBCT. Reference values were determined for each 3D measurement in a NWBCT and WBCT based on their 2SD. The highest difference in translation could be detected in the anterior-posterior direction (Mean AP_NWBCT= −0.01mm; 2SD=3.43/Mean AP_WBCT=−0.1mm; 2SD=2.3) and amongst rotations in the external direction (Mean AP_NWBCT=−0.3°; 2SD=6.7/Mean AP_WBCT=-0,2°; 2SD=5.2). None of these differences were statistically significant in the normal ankle syndesmosis when obtained from a NWBCT compared to a WBCT (P>0.05).

This study provides references values concerning the 3D symmetry of the normal ankle syndesmosis in weightbearing and non-weightbearing CT-scans. These novel data contribute relevantly to previous 2D radiographic quantifications. In clinical practice they will aid in distinguishing if a patient with a syndesmotic ankle lesion differs from normal variance in syndesmotic ankle symmetry.

Flexible fixation techniques combined with anatomic (open) syndesmosis reduction have demonstrated improved functional outcomes and rates of malreduction. Suture-button devices allow physiologic motion of the syndesmosis without need for implant removal, which may lower the risk of recurrent syndesmotic diastasis. There is limited longer-term assessment of the maintenance of reduction between static and flexible syndesmotic fixation using bilateral ankle CT evaluation.

This is an a priori planned subgroup analysis of a multi-centre, randomized clinical trial comparing static syndesmosis fixation (two 3.5 mm screws) with flexible fixation (single knotless Tightrope) for patients with AO- OTA 44-C injuries. Patients who completed bilateral ankle CT scans at 3- and 12-month follow-up were included. The primary outcome measure was syndesmotic malreduction based on bilateral ankle CT scans, using the uninjured, contralateral ankle as a control. Anterior (ASD), middle (MSD), and posterior (PSD) syndesmosis distance were calculated to measure syndesmosis reduction. Secondary outcomes included re-operation, adverse events and functional outcomes including the EQ5D, Olerud-Molander Ankle Score (OM), Foot and Ankle Disability Index (FADI), and Work Productivity Activity Impairment Questionnaire (WPAI). Paired samples t-tests were used to compare injured to control ankles (R, v 3.5.1).

42 patients (24 Group S, 18 Group T) were included. ASD for Group T was 5.22mm (95%CI 4.69–5.77) at 3 months compared to 4.26mm (95%CI 3.82–4.71; p=0.007) in controls and 5.38mm (95%CI 4.72–6.04) at 12 months compared to 4.44mm (95%CI 3.73–5.16; p=0.048) in controls. ASD for Group S was 4.63mm (95%CI 4.17– 5.10) at 3 months compared to 4.67mm (95%CI 4.24–5.10; p=0.61) in controls, but significantly increased to 5.73mm (95%CI 4.81–6.66) at 12 months compared to 4.65mm (95%CI 4.15–5.15; p=0.04) in controls. MSD results were similar; Group T had a larger MSD than control ankles at 3 months (p=0.03) and 12 months (p=0.01), while the MSD in Group S was not different at 3 months (p=0.80) but increased at 12 months (p=<0.01). 88% (21/24) of Group S had broken or removed screws by 12 months. Unplanned re-operation was 15% in Group S and 4% in Group T (p=0.02), with an overall re-operation rate of 30% in Group S. There was no significant difference between treatment groups for EQ-5D, OM, FADI or WPAI at 3- or 12-month follow-up.

Tightrope fixation resulted in greater diastasis of the ASD and MSD compared to contralateral, uninjured ankles at 3- and 12-months post-fixation. Group S initially had syndesmotic reduction similar to control ankles, but between 3- and 12-months post-fixation, there was significantly increased syndesmosis diastasis compared to controls. The majority of Group S (88%) had either broken screws or scheduled screw removal, which may explain the increased tibio-fibular diastasis seen at 12-months.

Background

Ankle fractures are often associated with ligamentous injuries of the distal tibiofibular syndesmosis, the deltoid ligament and are predictive of ankle instability, early joint degeneration and long-term ankle dysfunction. Detection of ligamentous injuries and the need for treatment remain subject of ongoing debate. In the classic article of Boden it was made clear that injuries of the syndesmotic ligaments were of no importance in the absence of a deltoid ligament rupture. Even in the presence of a deltoid ligament rupture, the interosseous membrane withstood lateralization of the fibula in fractures up to 4.5mm above the ankle joint. Generally, syndesmotic ligamentous injuries are treated operatively by temporary fixation performed with positioning screws. But do syndesmotic injuries need to be treated operatively at all?

Introduction

Injury to the syndesmosis is not always clearly demonstrated on radiographs and different tests have been described to assess for injury. In the presence of a significant injury to the syndesmosis, surgical fixation is often indicated and various fixation methods have been described. If the result of surgery is any mal-reduction of the fibula, this may result in ongoing ankle pain. Assessing how well the fibula has been reduced intra-operatively is currently limited to image intensifier views. We have previously developed a simple assessment, which has been shown to give accurate intra-operative demonstration of an injury to the syndesmosis. Our objective was to ascertain if the same test could demonstrate any malreduction of the fibular after repair of a syndesmosis injury.

Introduction: Diagnosis of syndesmotic injuries is primarily based upon the assessment of ankle radiographs. Earlier studies examining normal radiographs are limited by small sample size and methodological issues.

Materials and Methods: One thousand four hundred and fifteen consecutive patients with ankle radiographs were reviewed. 1023 patients were excluded as a result of a history of ankle/hindfoot pain, trauma, or surgery; or radiographic evidence of ankle/hindfoot pathology. 392 patients (218 females, 174 males) with normal ankle radiographs were included. 83 of 392 patients had bilateral normal radiographs. All radiographs were reviewed independently by a fellowship-trained foot and ankle surgeon and a fellowship-trained musculoskeletal radiologist. Tibiofibular overlap and tibiofibular clear space were measured on anteroposterior (AP) and mortise radiographs. These four measurements were analyzed.

Results: Mean AP overlap was 8.3 mm (±2.5). Mean mortise overlap was 3.5 mm (±2.1), 7.7% patients had < 1 mm overlap and 4.9% of patients had < 0 mm overlap. Mean AP clear space was 4.6 mm (±1.1), 7.1% patients had > 6 mm clear space. Mean mortise clear space was 4.3 mm (±1.0), 4.3% patients had > 6 mm clear space. All measurements were significantly different between females and males (p < 0.001). Mortise clear space is the most accurate measure when obtaining contralateral radiographs. Intraobserver and interobserver reliabilities of all measurements were high (intra-class correlation coefficient range 0.820–0.983).

Discussion and Conclusion: Our data unequivocally demonstrates that basing treatment of syndesmotic injuries on previously reported radiographic criteria can lead to unnecessary operative intervention or failure to treat. Lack of overlap on the mortise view can represent a normal variant, which has not been definitively reported in prior investigations. Our data forms the basis for new radiographic criteria to evaluate syndesmotic disruption.

Introduction:

Recent published studies have examined the normal dimensions of the syndesmosis on CT. However, previous anatomical studies have shown variations of the articulating facets within the tibialae fibularis and may contribute to the false appearance of increased spacing within the syndesmosis. In this study, we measured and compared anterior and posterior distances of the distal tibiofibular(DTF) syndesmosis on MRI and CT imaging.

Introduction: Ankle syndesmotic injury is currently assessed by radiographic criteria defined by Pettrone. These indices are based on the assumption that the ankle is in the correct rotation when the radiographs are taken. This study shows that computerized tomographic (CT) scans of an ankle in its mortice orientation demonstrate a greater range of values for the tibio-fibular overlap (TFO), and the tibial clear space (TCS) than that proposed by Pettrone. This study also demonstrates how rotation of the ankle in the transverse axis changes the values for the TFO and TCS.

Materials and Method: 20 uninjured ankle CT scans were studied to evaluate the syndesmosis. The images were orientated so that measurements were taken 1cm above the tibial plafond with the ankle in a mortice orientation. Each image was rotated 5° from 15° external rotation to 20° internal rotation. Bony landmarks were confirmed prior to taking measurements. These were taken by 2 orthopaedic surgeons on 2 separate occasions.

Results: The range for the TFO is 0–11.6mm; the range for the TCS is 2–6.1mm. The range for the values is greater than that proposed by previous studies. The TFO and TCS change with rotation of the leg.

Conclusion: On the AP radiograph syndesmotic disruption is indicated by a TCS > 5mm, a TFO < 10mm and on the mortise view a TFO < 1mm. A normal ankle should therefore have a TCS less than 5mm and TFO greater than 10mm on the AP and greater than 1mm on the mortise view.

There is a greater normal range of syndesmotic width found on CT scans than suggested by previous studies. Values change with rotation of the leg in its transverse plane. Syndesmotic injury cannot be reliably diagnosed using the current radiological criteria.

Stabilisation of the ankle syndesmosis remains a topic of debate regarding the best method of fixation; the most recent development is the ankle tightrope - a tensionable fibrewire suture. Despite over thirty thousand successful surgeries(1) reported, evidence supporting its use remains extremely limited. The aim of our study was to identify complications arising after insertion of this device for syndesmotic instability.

All patients undergoing tightrope stabilisation of the ankle syndesmosis in Aberdeen Royal Infirmary between January 2006 and February 2009 inclusive were incorporated in our study. Patient identifier data was collated at the time of operation by a research nurse with case records collected and analysed by the authors at the end of the study period. Nineteen cases were identified with one subsequently excluded due to death. Of the remaining patients thirteen were male and five female. Age ranged from sixteen to fifty-eight years. Five patients required tightrope fixation alone, the remainder necessitating bony fixation according to AO recommendations. Time in cast immobilisation ranged from five to eight weeks, time to full weight bearing six to ten weeks and time to discharge eight weeks to fifteen months.

In this series, 22% of tightropes were removed secondary to wound breakdown or knot prominence. Other complications included syndesmotic widening(11%), knot prominence without removal(5.5%) and synostosis(5.5%).

Incontrast to previously published literature (2,3,4,5,6) this, the second largest series to date, demonstrates a high complication rate(44%) - perhaps the tightrope is not as advantageous as initially thought.

Background: Injuries to ankle joint consist 12% of visits to emergency departments. In spite of the common occurrence of ankle sprain, syndesmosis injuries are rare, but very debilitating and frequently misdiagnosed.

Methods: Among 100 patients with ankle sprain we evaluated the incidence of syndesmosis sprain by MRI of the ankle. Adults who had acute ankle sprain with no fracture and examined on the same day that injury had took place were being included in the survey.

Results: Out of 100 patients with ankle injury, four had syndesmosis sprain. Three patients had partial tear of syndesmotic complex and one had complete tear. All injuries occurred in sports except one which had happened in an accident, and two of the patients were athletes. Anterior inferior tibiofibular ligament was the most common ruptured ligament.

Conclusions: We reported a four-percent incidence of this injury. Our high rate of this injury emphasized on the fact that all suspicious cases should go under more accurate investigation not to miss this diagnosis.

Introduction: Several methods for the management of syndesmosis disruption during ankle fracture fixation have been documented The Tightrope anchor is a relatively new technique consisting of two buttons and a strand of Fiber-wire which is looped twice though the buttons to create a pulley effect between the fibula and tibia, thereby stabilising the ankle syndesmosis. We have reviewed the outcomes in 38 patients treated with this technique.

Materials and Methods: Data including nature of operation, complications and the need for subsequent surgery were recorded for all patients receiving a Tightrope from May 2006 to September 2008.

Results: The mean patient age was 35 years, and 23 were male. 30/38 patients required no further surgery and had a good functional outcome. Two patients had prominent fibula plates removed but achieved good functional outcomes. For one patient a Tightrope was performed following diastasis screw failure: an improved but suboptimal outcome was achieved. A patient with fibromyalgia had a good range of movement but complained of discomfort. One patient with Poland sequence, who fell post operatively, needed tightrope removal and syndesmosis debridement resulting in a good but painful range of movement. Another patient developed a pulmonary embolus following surgery and prolonged swelling and discomfort limited her functional capacity. Two patients required tightrope removal and significant wound debridement following osteomyelitis of the fibula and tibia.

Discussion and Conclusion: The Tightrope is an effective method of ankle syndesmosis repair, with a reduced need for subsequent diastasis related surgery (35/38) when compared to our diastasis screw method (100%). However, our significant rate of osteomyelitis is disturbing, warranting further investigation.