Revision of malunited ankle fractures

Clin Podiatr Med Surg 21 (2004) 385 – 391

Revision of malunited ankle fractures Toby Branfoot, MB BS, FRCSEd (Tr & Orth), FIMC RCSEd, MSc, DA(UK), Dip Orth Tech St. James’s University Teaching Hospital, Beckett Street, Leeds LS9 7TF, UK

‘‘Ankle’’ fractures may be rotational injuries of the malleoli characterized in the Lauge-Hansen or Danis-Weber classifications, or axial compression-shear pilon fractures of the distal tibia. The treatment of malleolar ankle fractures is often straightforward [1], with some successfully treated conservatively [2,3] and operative reduction and stabilization providing good results [4– 6] even in the elderly [7] if a fully congruent mortise and a level joint line is achieved [8]. The final result depends on the type of fracture sustained and the treatment applied [9]; results are poor when these treatment objectives are not achieved [10]. Medial malleolar involvement tends to indicate poorer results [11], as does a trimalleolar fracture with a large (greater than 25% of the joint surface) posterior malleolar fragment [12]. Poor results following ankle fracture are also associated with nonunion or malunion [13 – 16], often leading to chronic pain [17]. Malunion of the fibula without restoration of anatomical alignment leads to talar tilt and degenerative arthritis [18]. Occasionally problems are the result of partial growth arrest following childhood injuries, leading to a progressive malorientation of the joint line [19]. Malunion may occur in the fibula or medial malleolar fragments, either by inadequate reduction at initial treatment (conservative or operative) or by failure to stabilize the reduction achieved surgically or in a cast. When fibular shortening is present, ankle reconstruction can be achieved by fibular lengthening and can provide an alternative to early arthrodesis for deformity and pain [20]. Good results have been reported even a long time after injury and in the presence of arthrosis [21,22], although the results of correction are poorer if this procedure is delayed [23]. It is far more preferable to restore a malunited ankle to a functional level than to allow the patient to continue to experience pain and to wait until degenerative arthritis requires that an arthrodesis be performed [24]. Arthrodesis as a salvage procedure is notorious, complications after tibiotalar arthrodesis involve nonunion, malunion, infection, and wound breakdown with reported rates

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of up to 50% [25 – 27]. More recently, distraction arthroplasty or ankle replacement may be worth considering [28].

Assessment With ankle fractures, one must decide whether the joint is salvageable. If there are not extensive degenerate changes present, then revision of the fixation to achieve anatomical alignment is recommended. An osteotomy of the fibula may be required if it is malunited. Age and arthrosis are not contraindications [29], even if this procedure allows only for an easier arthrodesis subsequently [30]. Significant improvements in ankle scoring have been reported in patients following this approach [30,31]. Assessment of the malunion should address the following:  

Fibula malunion or nonunion? Medial malleolus malunion or nonunion?  Posterior malleolus malunion or nonunion?  Widening of the mortise or talar tilt?  Loose bodies? Nonunion of the fibula may occur and be painful [23,32]. Malunion of the fibula is typically shortening or external rotation [33]. Two mm of shortening or 5 degrees of external rotation leads to abnormal tibiotalar joint contact pressures [34], with 30 degrees of external rotation reducing tibial-talar surface contact by one third [35]. This increased joint contact pressure may lead to degenerate changes developing [20], although other factors may be involved [36]. Restoration of fibular length, necessary for a good clinical result, can be estimated radiographically by the bimalleolar angle [20]. Posterior malloeli fractures of more than 25% of the articular surface are potentially significant if malunited [12], but a satisfactory reduction and stability is often achieved by reduction and fixation of the fibula alone [37]. Not all Weber C fractures are associated with disruption of the syndesmosis [38], but if there is diastasis, this must be corrected. It is most commonly seen in severe Weber C injuries [39,40]. There may be talar shift associated with fibula malunion, but this may not be apparent on plain radiographs [41] and should be evaluated by CT scan if suspected [42]. Malreduction of the fibula can result in symptomatic malreduction of the syndesmosis [43]. If malalignment of the ankle is suspected, weight-bearing plain films of the foot and tibia, including long-leg alignment films, should be obtained to evaluate the joint angle and the mechanical axis [44 – 47]. Other diagnoses for pain and problems following an ankle fracture should be considered, including synovitis [48], loose bodies, osteochondral injuries [49], ligament tears [50], and synovial impingement [51,52]. Further imaging of the ankle using ultrasound [53,54], MRI [55,56] (standard, or with MR arthrography

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[57]), or arthroscopy [58] should be used if the history or examination suggest these problems. Comorbidities must be considered. There is a high incidence of complications following surgery for ankle fractures in diabetics, and malunions in such patients may be asymptomatic [59].

Operative management Malunion of the fibula can be addressed by revision of the fixation or an osteotomy, which can be horizontal, oblique (re-creating the old fracture) [60], or Z shaped [61]. Restoration of the correct length [62] and rotation is achieved,

Fig. 1. A malunited ankle at presentation, and after revision.

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sometimes with the addition of iliac crest bone graft [60], and stabilized with a compression plate (Fig. 1)[33,63,64]. A diastasis must be reduced by correction of the fibula reduction if malaligned, and by exploration or debridement of soft tissues, initially at the tibiofibular syndesmosis and then medially if they prevent restoration of the mortise [23]. One [42,65] or two [60] diastasis screws (3.5 or 4.5 mm), or a synthetic suture [66], should be used to stabilize the syndesmosis 2 cm above the tibiotalar joint [67]. Anatomical reduction is the vital step here; ankle position during tightening is no longer thought to be important [68]. A weak anterior tibiofibular ligament can be reinforced with plantaris or a split peroneous longus tendon graft [69,70]. The joint may be debrided through an arthrotomy in the same procedure [29,30]. It has been suggested that chondral lesions and the remains of torn ligaments can be the cause of symptoms of syndesmosis instability, rather than ligament laxity [50]. Open arthrotomy or arthroscopic assessment with possible debridement should be considered [71]. Loose bodies can be similarly removed [72]. Displacement of the posterior malleolus fragment may be significant if it comprises 25% or more of the joint surface. Late corrective osteotomy can lead to significant improvements in patients’ pain and function [73]. This may be performed through a posterolateral or transfibula approach [60]. Significant joint malalignment after fracture can be treated by realignment osteotomy with internal fixation [74] or Ilizarov techniques [19,75,76] to restore normal ankle biomechanics and minimize further degenerative changes [77,78]. Callotasis procedures using a circular frame will allow weight bearing during the healing phase and are not associated with the shortening created by closingwedge osteotomies. Subtle postoperative adjustments to the foot’s position can be made, which are not possible after internal fixation using a plate.

Summary Malunion of an ankle fracture can lead to considerable pain and loss of function. Restoration of the normal anatomical alignments can restore function and minimize the onset of degeneration that will lead to severe arthrosis requiring an arthrodesis.

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