The purpose of the present study was to describe the anatomical structure of the tibiofibular syndesmosis. Dissection of the tibiofibular syndesmosis was performed on 30 cadaveric specimens of the ankle in adults. The stability of the tibiofibular mortise is ensured by three ligaments. The interosseous tibiofibular ligament forms a spatial network of fibers of a pyramidal shape filled with fibrofatty tissue. The anterior tibiofibular ligament consists of three parts: the upper one is the shortest, the medial one is the strongest and the lower part is the longest and the thinnest. The posterior tibiofibular ligament is a strong, compact ligament the lower margin of which literally forms the articular labrum for the lateral ridge of the trochlea of the talus. The so-called inferior transverse tibiofibular ligament, as this part of the ligament is sometimes characterized, cannot be considered as a separate ligament. Direct contact between the distal tibia and the fibula was found in 23 cases. Contact facets which were covered with articular cartilage were very small and located in the anterior half of the tibiofibular contact line. In the posterior part of the tibiofibular contact line a vertical V-shaped synovial plica attached by its lateral aspect to the fibula dipped between the two bones. In seven cases where there was no direct contact between the two bones this plica extended anteriorly to the anterior tibiofibular ligament. The findings show that in three quarters of cases the connection of the distal tibia and fibula is not a mere syndesmosis but also a synovial joint. The presented facts change traditional opinions on the structure of the tibiofibular syndesmosis and they should be reflected in the treatment of dislocation-fractures of the ankle as well as in case of so-called anterolateral ankle impingement.
It is impossible to assess the shape and size of the posterior malleolar fragment, involvement of the fibular notch, or the medial malleolus, on the basis of plain radiographs. The system that we propose for classification of fractures of the posterior malleolus is based on CT examination and takes into account the size, shape and location of the fragment, stability of the tibio-talar joint and the integrity of the fibular notch. It may be a useful indication for surgery and defining the most useful approach to these injuries.
Pauwels' classification has been in use as a therapeutic guideline since 1935. Although its application is currently limited, it is still referred to and frequently misinterpreted by authors. The causes of this misinterpretation relate first of all to the degrees of the inclination of the fracture line in Degrees II and III of the classification. The correct values of Pauwels' classification are the following: Degree I, up to 30 degrees; Degree II, between 30 and 50 degrees; and Degree III, 50 degrees and more.
Despite an increasing awareness of injuries to PM in ankle fracture-dislocations, there are still many open questions. The mere presence of a posterior fragment leads to significantly poorer outcomes. Adequate diagnosis, classification and treatment require preoperative CT examination, preferably with 3D reconstructions. The indication for surgical treatment is made individually on the basis of comprehensive assessment of the three-dimensional outline of the PM fracture and all associated injuries to the ankle including syndesmotic instability. Anatomic fixation of the avulsed posterior tibiofibular ligament will contribute to syndesmotic stability and restore the integrity of the incisura tibiae thus facilitating anatomic reduction of the distal fibula. A necessary prerequisite is mastering of posterolateral and posteromedial approaches and the technique of direct reduction and internal fixation. Further clinical studies with higher numbers of patients treated by similar methods and evaluation of pre- and postoperative CT scans will be necessary to determine reliable prognostic factors associated with certain types of PM fractures and associated injuries to the ankle.
The authors operated on 22 patients with scapular body fractures, with a mean age of 35 years. The minimal follow-up was 12 months. All patients were treated from the Judet posterior approach. The study included 14 cases of an isolated body fracture, three of scapular body fracture combined with fracture of the scapular neck and five of glenoid fossa fracture. In all 14 cases where a 3D computed tomography (CT) reconstruction was performed prior to operation, intraoperative findings corresponded to this reconstruction. In eight cases without preoperative 3D CT reconstruction, the correct type of fracture was identified in only two cases. We also identified three basic types of fractures of the lateral border of the scapula. The anatomical relationship between the glenoid fossa and scapular body, congruency and stability of the shoulder joint was achieved in all cases. The average constant score was 94.
The Bosworth lesion is a severe injury of the ankle, and its successful treatment requires a correct diagnosis based on careful initial clinical and radiographic evaluation and early surgical treatment.
The authors present a group of five men who sustained a displaced fracture of the medial end of the clavicle. In all cases, the diagnosis was confirmed by computed tomographic scan. Three young men with extra-articular fractures were treated operatively with a very good result. Two older men were treated nonoperatively, one with a good result (intra-articular fracture) and one with a fair result (extra-articular fracture). The method of treatment of fractures of the medial end of the clavicle depends primarily on the type and displacement of the fracture. Treatment decisions should be always based on a computed tomographic scan, because plain radiographs do not adequately image the medial clavicle. Surgical treatment of these fractures should be considered, particularly in young or physically active individuals.
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