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Early Weight Bearing of Calcaneal Fractures Treated by Intraoperative 3D-Fluoroscopy and Locked-Screw Plate Fixation
Abstract
Operative therapy of intraarticular fractures of the calcaneus is an established surgical standard. The aim is an accurate reduction of the fracture with reconstruction of Boehler’s angle, length, axis and subtalar joint surface. Intraoperative 3D-fluoroscopy with the Siremobil Iso-C 3D® mobile C-arm system is a valuable assistant for accurate reconstruction of these anatomical structures. Remaining incongruities can be recognized and corrected intraoperatively. The achieved reduction can be fixed by the advantages of an internal fixator (locked-screw plate interface). In the period of October 2002 until April 2007 we operated 136 patients with intraarticular fractures of the calcaneus by means of anatomical reduction, and internal plate fixator under intraoperative control of 3D-fluoroscopy. All patients were supplied with an orthesis after the operation which allowed weight bearing of 10 kg for 12 weeks for the patients operated between October 2002 and October 2004 (Group A). Transient local osteoporosis was observed in all X-Rays at follow-up after an average of 8,6 months. Therefore we changed our postoperative treatment plan for the patients operated between November 2004 and April 2007 (Group B). Weight bearing started with 20 KG after 6 weeks, was increased to 40 KG after 8 weeks and full weight bearing was allowed after 10 weeks for these patients. In no case a secondary dislocation of the fracture was seen. No bone graft was used. At follow up the average American Foot and Ankle Society Score (AOFAS) were 81 for Group_A, compared to 84 for Group B, treated with earlier weight bearing. Autologous bone graft was not necessary even if weight bearing was started after a period of six weeks postoperatively. The combination of 3D-fluoroscopy with locked internal fixation showed promising results. If the rate of patients developing subtalar arthrosis will decrease by this management will have to be shown in long term follow up.
INTRODUCTION
In most cases intraarticular calcaneal fractures are caused by a high-energy axial force, like a fall from greater height [1]. The investigations of Essex-Lopresti 1951 [2] showed that depending upon accident mechanism, two main types of fracture occur: The “joint depression” and the “tongue type” fracture. More complex fractures can be interpreted with the help of computed tomography (CT-scan), often with the aid of 3D reconstruction [3]. Description of these complex injuries is aided by the classification described by Sanders [4]. According to Zwipp et al. [5] in 58% the calcaneus is divided into 5 main fragments: sustentacular fragment, tuberositas fragment, posterior subtalar fragment, anterior process fragment and the anterior subtalar fragment. Comparison of surgical with conservative therapy for calcaneal fractures some studies showed superior results for the surgical treatment of intraarticular fractures. Especially in those fractures treated operatively, the overall clinical result was better when an anatomic reduction of the subtalar joint was achieved. Good results are achieved if the stable anatomical reduction of the posterior facet is possible [6-14]. However, it is not always possible to get a satisfactory stability for the screws in multi-fragment fractures [15-18]. Though some studies showed a clear increase in stability of the osteosynthesis gained by an angular stable (locked) screw plate connection [19, 20], others did not verify these results [21]. So far, only little is published about the experiences and advantages when using an internal fixator for the stabilisation of intraarticular fractures [22, 23]. Subtalar incongruity over 1 mm can lead to early post traumatic arthrosis of the subtalar joint [24, 25]. Conventional 2-D fluoroscopy does not enable assessment of small incongruities intraoperatively. The use of intraoperative 3D-fluoroscopy enables visualisation of bone structures three-dimensionally and thereby recognition and correction of remaining incongruities [3, 26-31].
Different questions were investigated:
- The value of intraoperative 3D-fluoroscopy to recognise insufficient reduction.
- The value of a locked internal fixation to avoid secondary displacement.
- The value of early weight bearing to avoid local osteoporosis and pain.
MATERIALS AND METHODS
Patients
Study design was retrospective in a prospective cohort.
Inclusion Criteria
Included in this study were all patients that fulfilled our department’s general criteria for surgical therapy of calcaneal fractures: Deformation of the calcaneus, the flattening of the foot (Boehler’s angle), the intraarticular fracture type and the shortening or broadening of the hindfoot.
Exclusion Criteria
Contraindications were general or local contraindications to surgery in general, a biological age of more than 60 years, peripheral vascular disease and patients who might have been unwilling or unable to follow the postoperative regime. For some or all of these reasons 34 patients had to be excluded.
In the period from October 2002 until April 2007 we treated 136 patients with intraarticular calcaneal fractures with an internal fixator and intraoperative 3D-fluoroscopy. We operated 112 males and 24 females with an average age of 46.1 years (19-62 years). In 64 cases the right foot was involved.
The most frequent cause of accident was a fall (n = 104) from an average height of up to 3m. Traffic accidents were seen in 16 cases and other accidents in 16 cases. According to the classification by Essex-Lopresti, predominantly joint depression type fractures occurred (n = 124), with 12 cases of tongue type fractures. After routine preoperative CT scan, a classification according to Sanders was carried out [4]: 38 fractures were type II, 76 fractures type III and 22 were classified type IV. In 22 cases with calcaneal fractures, additional injuries were also diagnosed, 8 patients had suffered fractures of the spinal column.
Surgical treatment of the fractures took place once soft tissue conditions allowed. This was possible after an average of 7,2 days (5 to 11). In all cases a 3D-fluoroscopy was performed after reduction and temporary fixation of the fracture. Postoperatively radiographs were taken; we did not regularly perform CT scan postoperatively. All patients were supplied with an orthesis after the operation. Weight bearing of 10 kg for the period of 12 weeks was allowed for the patients operated from October 2002 until October 2004. Partial weight bearing was trained by a physiotherapist using a scale. Due to local osteoporosis observed in all X-Rays at follow-up, we changed our postoperative treatment plan for the patients operated between November 2004 and April 2007. Weight bearing started with 20 KG after 6 weeks, and was increased to 40 KG after 8 weeks for these patients. Full weight bearing was allowed after 10 weeks. With the orthesis no crutches were needed. All patients had pre- and postoperative X-Rays, so the change of the Boehler’s angle and the length of the hindfoot could be measured exactly.
Clinical follow-up examination was performed on average 8.6 months postoperative (6-12 months). All follow-up examinations were performed by a specialised orthopaedic trauma Surgeon.
Approach and Reduction
Patients were positioned laterally on an operating table with a radiolucent carbon part. An extended lateral approach was performed. The approach was developed as a full-thickness flap. The lateral cortical fragment (bulge fragment) was then hinged away. Subsequently, a good view into the subtalar joint was obtained. The soft tissue flap was held back by titanium K-wires, which had been inserted into the talus and bent. Titanium K-wires were left in situ during Iso C-3D scanning. Use of the joy-stick technique with a Schanz-screw placed through the tuber calcanei achieves reduction and in particular the length and axis is regained.
The individually reduced bone fragments were fixed temporarily with titanium K-wires, which were inserted through the sole (Fig. 1).
Siremobil ISO C 3D (Siemens Medical Solutions, Germany), a standard C-arm fluoroscopy coupled with a motor control for orbital motion and a computer-system for 3D reconstruction enables intraoperative 3D-fluoroscopy control (Fig. 2). The motorised C-arm provides fluoroscopic images during a single motor-driven orbital sweep of 190°. A defined number of images (50 or 100) are acquired at fixed angular increments. The system simultaneously produces a high-resolution, isotropic data volume from the individual images. Data can be processed by the surgeon intra-operatively, providing a multi-planar 2D reconstruction similar to the type provided with CT. Three different angles are then displayed on a computer screen: (semi)coronar, sagittal and axial. On the reconstructions, the surgeon can visualise any remaining incongruence within the joint.
Any remaining subtalar incongruity over 1 mm can be seen and immediately improved. Subsequently an internal titanium-fixator is modelled to the calcaneus and fixed with appropriate locked screws (Fig. 3).
Particular care is taken to fix the central fragment (posterior subtalar fragment) in a good and stable position.
We do not regularly perform another 3D-fluoroscopy after internal fixation. Only if the surgeon is unsure about intraarticular position of screws another 3D-fluoroscopy is performed.
Implant
The implant used was a multi-directional locked-screw internal plate fixator VariAx© Calcaneus Mesh Plate, STRYKER®, Schönkirchen/Germany (Fig. 4), in some of the early cases we used the Tifix©-Calcaneus-Plate, LITOS, Hamburg/Germany, which is identical in construction. The plate is made of pure titanium with locking holes for titanium screws which can be fixed in different angles. Multidirectional interlocking is possible because the plate itself does not have a thread but a lip. By inserting a screw with an extra thread in the head, the screw cuts its own thread into the plate at an angle determined by the surgeon. Because of an increasing thread diameter, it locks in this position. The reshaping process is possible because plate and screw are made of titanium of different hardness-grade (plate in the softer grade 1 titanium, the screw in grade 4).
RESULTS
The median theatre time was 68 minutes (50-112 minutes) including 3D-fluoroscopy. In 57 cases (42%) a remaining incongruity of more than 1 mm was detected with the intraoperative 3D-fluoroscopy. In all these cases reduction and 3D-scan was repeated. Boehler´s angle and calcaneal length was measured on postoperative lateral native X-Ray films. The Boehler’s angle could be raised on average by 19 degrees (10° to 24°). The shortening of the hindfoot was improved by an average of 12 picture millimetres.
In 9 cases another 3D-fluoroscopy was performed after locked plate osteosynthesis. In one case two screws required repositioning (Fig. 5).
An autologous bone graft was not required in any case of this study. A secondary loss of correction was not seen in both Groups of the study. The achieved reduction could be fixed by the implant until full weight bearing was reached (Table 1) in all cases.
Before | After Operation | Improvement | |
---|---|---|---|
Boehler’s angle (°) | 0(-10 to 5) | 19 (16-32) | 19 |
Hindfoot length (mm) | 24(18-33) | 36(30-42) | 12 |
During postoperative treatment we detected 7 (5,1%) superficial wound edge necroses, which all healed completely with conservative management. One haematoma had to be revised and subsequently healed without any further problems.
One case developed a deep infection 20 days postoperatively. In this case the implant had to be promptly removed. Non weight bearing was necessary for a further 3 weeks. In this particular case the Boehler’s angle and hindfoot length were salvaged but the patient developed early subtalar arthritis with ankylosis.
Until follow-up after an average of 8,6 months, in no case an arthrodesis was required. If the number of patients developing subtalar arthrosis with the need of arthrodesis will increase at long-term follow-up will have to be shown. At the follow up examination all patients had returned to work, or had been judged fit to work by their GP. Seven patients had to change their position within their company, all seven were builders and involved in heavy lifting and climbing ladders as part of their previous position. 66 patients were completely pain free at follow-up. Two patients complained about constant pain. One of these patients had developed an early subtalar arthrosis after wound infection and early implant removal (Tables 2 and 3). More patients treated with early weight bearing (Group B) were pain free (53%) compared to the patients treated with weight bearing after 12 weeks (Group A, 43%). Overall 49% of the patients were pain free, 42% complained pain after heavy work or sporting activities, 8% stated severe pain after moderate work/sporting activities and 2% were suffering from constant pain. At follow up X-Rays local osteoporosis appeared to be less severe in the patients of Group B. At follow up the average American Foot and Ankle Society Score (AOFAS, [32]) was 81 (49-88) for Group_A, compared to 84 (48-89) for Group B, treated with early weight bearing.
Pain at Follow-Up | No Pain | Occasional/Mild Pain, After Heavy Work/Sporting Activities | Severe Pain, After Moderate Work/Sporting Activities | Constant Pain |
---|---|---|---|---|
Patients | 25 (43%) | 27 (47%) | 5 (9%) | 1 (1%) |
Pain at Follow-Up | No pain | Occasional/Mild Pain, after Heavy Work/Sporting Activities | Severe Pain, after Moderate Work/Sporting Activities | Constant Pain |
---|---|---|---|---|
Patients | 41 (53%) | 30 (38%) | 6 (8%) | 1(1%) |
DISCUSSION
Although surgical treatment of displaced calcaneal fractures is an established surgical standard [5, 8, 33-35] it is not clear, if accurate anatomic reduction is of major importance [36]. Actual literature showed that fracture volume treated by an institution is an independent determinant for the postoperative infection rate and for the development of subtalar arthritis [37]. Infection rate in our study (5,1%) is in accordance to the findings of the meta-analysis of Poeze et al. [37]. If a significant reduction of subtalar arthritis with the following need for arthrodesis could be obtained in our group treated with intraoperative 3D-fluoroscopy, angular stable implant and earlier weight bearing has to be shown in longer-term follow-up with inclusion of a control group. The restoration of the tension of the plantar fascia by reconstruction of Boehlers angle and hindfoot length is important for the biomechanics of the foot [5, 8, 9, 12]. CT diagnostic provided improved understanding of calcaneal fractures and led to a clinically relevant classification of these injuries [4, 24, 38,39]. Thus a better surgical planning became possible. Anatomical and biomechanical studies refer to the important role of the posterior joint facet, which has to be stabilised to reconstruct the subtalar joint [6, 40, 41]. Only the accurate reduction with re-establishment of statics and function of the foot allows normal biomechanics [5, 35, 39, 40]. It is well-known, that already small subtalar incongruity of only 1 mm can lead to early arthritis of the corresponding joints [6, 42, 43]. Small incongruity cannot be properly assessed using conventional C-arm fluoroscopy [44]. In 57 cases we found a remaining displacement of more than 1 mm. With intraoperative 3D-fluoroscopy remaining incongruity can be recognized and corrected immediately [3, 27-29, 44]. Special plates have been invented to suit the needs for the treatment of calcaneal fractures (e.g. AO calcaneal plate, Galveston plate, low contact plate). The selected implant should be able to neutralize the forces resulting from the Achilles tendon and maintain reduction of the fragments until bony consolidation [30, 34, 39]. Due to our positive experience with the treatment of other fracture types with locked implants, we developed a thin titanium multi-directional angular stable internal fixator (Fig. 4) [23]. Because of the variety of holes each fracture can be treated individually. Especially the main fragment (posterior fragment) can be fixed safely. In our expertise-based impression this thin multidirectional angular stable plate design seems to facilitate wound healing, allows short operating times and can retain reduction without the need for bone grafts. To avoid severe postoperative osteoporosis, which often comes with pain during and after rehabilitation, we recommend weight bearing as early as possible.
CONCLUSION
Surgical treatment of calcaneal fractures using 3D-fluoroscopy intra-operatively provides the opportunity to recognize and correct remaining subtalar incongruity. Using 3D imaging improves the quality and safety of surgical treatment of calcaneal fractures and reduces the risk of revision surgery. With a multi-directional internal fixator it could be shown that in multi-fragment fractures the intraoperative reconstruction can be maintained until bony consolidation and secondary loss of correction can be avoided. Autologous bone graft seems no longer necessary even if weight bearing was started after a period of six weeks postoperatively. The combination of 3D-fluoroscopy with locked internal fixation could show promising results. Our short term outcome showed good functional results with a high percentage of patients returning to their previous occupation. If the number of patients developing subtalar arthrosis will decrease by this management will have to be shown in long term follow up. The study is limited by missing control groups comparing intraoperative 2D- and 3D-fluoroscopy and angular stable versus conventional plate fixation.