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Ilizarov bone transport for the treatment of fibular osteomyelitis: a report of five cases

BMC Musculoskeletal Disorders volume 16, Article number: 242 (2015) Cite this article

Abstract

Background

The objective of this study was to evaluate the effectiveness of the treatment of fibular osteomyelitis by Ilizarov bone transport.

Methods

We retrospectively reviewed 5 patients with fibular osteomyelitis treated by Ilizarov bone transport. Our study included 4 males and 1 female with a mean of age 29.2 years. The average length of the bone defects after radical debridement was 7.6 cm (range 6.5-10 cm).

Results

The mean follow-up was 24.8 months (range 14–34 months). No patient was lost to follow-up. All the patients had bone union and no recurrence of infection was observed. The mean external fixation time was 8.8 months (range 8-10 months), and the mean external fixation index was 1.18 months/cm (range 0.90-1.43 months/cm). There was no sign of knee or ankle instability by clinical examination in all the patients. According to Association for the Study and Application of the Method of Ilizarov (ASAMI) classification, bone results were excellent in 3 patients, good in 2 patients; functional results were excellent in 3 patients, good in 2 patients.

Conclusions

Our study suggested that Ilizarov bone transport may be a good choice for the treatment of fibular osteomyelitis, especially for the patient with distal fibular loss.

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Background

Fibular osteomyelitis is rare in clinical practice, but some intractable problems usually complicate the osteomyelitis including persistent infection, bone necrosis, soft tissue loss and fracture instability [1, 2]. At present, the common treatment for fibular osteomyelitis is partial fibulectomy. Compared with other operative treatment options, partial fibulectomy has some advantages. It can offer effective solution without the uncertainty of bone union following operative fixation or bone grafting. In addition, it does not require the implantation of orthopedic hardware, which can decrease the surgical time, expense and complexity of the treatment [15]. However, several clinical and biomechanical studies have reported that partial resection of the fibula can impair knee stability, disturb ankle kinematics significantly and cause weakness of the deep muscles [69]. Therefore, in order to get a better treatment result, restoration of fibular integrity maybe necessary.

Ilizarov bone transport can treat osteomyelitis of any length with a less invasive and more versatile compared to other methods. It has been successfully used in the treatment of tibia, femur and upper limbs [1013]. Nevertheless, to our best knowledge, there is no report about fibular osteomyelitis treated by Ilizarov bone transport. Therefore, we described our successful experience in the treatment of fibular osteomyelitis by Ilizarov bone transport in the following report.

Methods

Between January 2004 and January 2013, 8 patients with fibular osteomyelitis were treated in our institution. Our eligible criteria were: (1) patients of age of 18 years or more; (2) patients with proximal or distal fibular osteomyelitis treated by Ilizarov bone transport; (3) patients without an associated permanent nerve injury of the ipsilateral lower extremity. At last, 5 patients were included in our study. Our study was retrospective and it didn’t have any harm to our patients. Before performing the surgery, we informed every patient of all possible results that would happen during and after the surgery, and all the patients agreed to receive the surgery and signed the written consent for the surgery. We got the verbal informed consent from the 5 patients through telephone before performing the retrospective study, and our study was approved by the Chinese PLA General Hospital committee for clinical research.

There were 4 males and 1 female with an average of 29.2 years (range 20–39 years). The mechanisms of initial injury involved traffic accident in 3 patients and falling in 2 patients. The site of fibular osteomyelitis involved 4 distal parts and 1 proximal part. The average length of bone defects was 7.6 cm (range 6.5-10 cm), which were measured in the operation. All the fibula infection was caused by iatrogenic operation. Fibular osteomyelitis existed at the time of surgery and the mean number of previous operations was 2.2 (range 1–3 operations). Infecting samples that were obtained from purulent drainage or deep bone at the site of osteomyelitis were cultured and the results were 4 patients with infecting organism of Staph. aureus and 1 patient with Pseudomonas. Further details were listed Table 1.

Table 1 Characteristics of 5 patients with fibular osteomyelitis
Full size table

Surgical technique

The patients were positioned supine on a radiolucent table. The operative incisions were performed in accordance with previous surgical incisions when possible. Then the infected scarred soft tissue and necrotic bone were debrided radically. Cortical bone bleeding, described as the so-called paprika sign, was accepted as an indication of vital tissue [14]. Representative tissue cultures were obtained from infected tissue for the sake of finding out the infectious bacterium to choose sensitive antibiotics. The assembled Ilizarov external fixator was fixed to the fibular or tibia as the way that Ilizarov rings were placed on the distal and proximal fragments parallelled to their respective joints and the fixed pins were inserted into the same plane and perpendicular to the mechanical axis of the fibular or tibia under the image intensifier control; A 1–2 cm incision was made in order to expose the pre-selected osteotomy site, and then a subperiosteally transverse osteotomy was performed. The periosteum was sutured and the incisions were closed with drainage tubes. If the infected site had large soft tissue defects, open dressing changing or vacuum sealing drainage (VSD) were made to close the wound. If the bone defect located in the distal part of fibular, bone transport was performed from the proximal to the distal in the fibular; if the bone defect located in the proximal part of fibular, bone transport was performed from the distal to the proximal in the fibular.

Post-operative protocol

All patients received a course of sensitive antibiotics for 2 to 4 weeks in intravenous way and were encouraged to partial weight-bearing with crutches, isometric muscle and joint range-of-motion exercises on the second day after operation. The latency period before bone transport was 7–10 days and the rate of distraction was 0.25 mm per 6 h. When bone transport completed, the fibular docked ends were compressed by 0.25 mm per day in order to provide full contact until the patient felt pain at the docking site.

Radiographs were reviewed every 2 weeks during the distraction period and monthly during the consolidation period. Ilizarov external fixator was removed when radiographs showed solid docking-site union and the regenerate area had a minimum of three complete cortices. The flexion and extension of knee joint, and the plantarflexion and dorsiflexion of ankle joint were evaluated at the end of follow-up. Bone results and functional results were evaluated according to Association for the Study and Application of the Method of Ilizarov (ASAMI) classification [1517].

Results

The mean follow-up was 24.8 months (range 14–34 months). No patient was lost to follow-up. All the patients had bone union and no recurrence of infection was observed. The mean external fixation time was 8.8 months (range 8-10 months), and the mean external fixation index was 1.18 months/cm (range 0.90-1.43 months/cm). The mean degrees of knee flexion was 124° (range 120°-130°), and the mean degrees of knee extension was 1° (range 0°-5°). The mean degrees of ankle plantarflexion was 40° (range 35°-45°), and the mean degrees of ankle dorsiflexion was 15° (range 10°-20°). There was no sign of knee or ankle instability by clinical examination in all the patients. All the patients felt that the muscle strength of injured limb was up to the level of contralateral limb muscle. According to Association for the Study and Application of the Method of Ilizarov (ASAMI) classification, bone results were excellent in 3 patients, good in 2 patients; functional results were excellent in 3 patients, good in 2 patients. Further details were listed in Table 2 (Fig. 1).

Table 2 Results of treatment in the 5 patients
Full size table
Fig. 1
figure 1

A 20-year-old man with osteomyelitis of the left fibular was treated by Ilizarov bone transport. a Radiograph of a 20-year-old man (case 1) who had osteomyelitis of the left fibular. b Debridement of the site of infected nonunion with 10cm bone defect in fibular and corticotomy of fibular (red arrow) after application of the fixator. c Four months after operation with bone transport, bone ends contacted at the docking site. d Nine months after operation, it showed good consolidation of the regenerate, and bone union at the docking site was obtained by bone grafting. e The external fixator was removed after nine months of the surgery, and it showed complete bone union

Full size image

Complications

All the patients had a feeling of pain during the distraction period and required oral analgesics. 4 patients had a pin-track infection (case 1–4), and these patients had only local inflammation, which was treated by pin care and empirical broad spectrum antibiotics for oral administration. 3 patients required bone grafting at the docking site to obtain union (case 1 and case 3–4). There were no neurovascular complications or a compartment syndrome.

Discussion

This is a retrospective study of Ilizarov bone transport for the treatment of fibular osteomyelitis. The present study showed that the treatment of fibular osteomyelitis by Ilizarov bone transport acquired satisfied results. The kinematics of knee and ankle joint were not disturbed by this treatment, and the motion ranges of knee and ankle joints were nearly normal levels. There was no sign of knee or ankle instability by clinical examination in all the patients. All the patients achieved bone union in the fibular.

It was reported that fibular bore one sixth of the force transmitted from femur [18]. It has an important localization between the knee and ankle joints and contains muscles related with the two joints. The dynamic features of fibular motion and its importance in the clinical have been presented by several studies [6, 1921]. Leg morbidity after fibular resection has been put forward by some studies [6, 22]. Some clinical and biomechanical studies suggested that the fibular has an important effect on knee stability, ankle kinematics and the strength of deep related muscles [6, 7, 19, 22]. Therefore, our main goals of the treatment of fibular osteomyelitis are to debride infectious tissues radically, regain proper length, and achieve bone union, and obtain better functions of knee and ankle joints. We adopted Ilizarov bone transport to treat fibular osteomyelitis, because it can afford surgeon the ability to treated osteomyelitis and its associated factors simultaneously. In our study, although we got a good treatment result, there were some complications happened. The rate of pin-track infection was 80 % (4/5) and the rate of bone grafting was 60 % (3/5). We recognize that meticulous care, patient’s compliance, and surgeon’s experience are the key factors to decrease the rate of complication.

In our experience, some important aspects should be paid attention in the treatment of fibular osteomyelitis by Ilizarov bone transport. (1) The external fixator should be assembled preoperatively under the image intensifier control in order to decrease the difficulty of reduction. (2) A radical debridement was necessary in the site of fibular osteomyelitis. (3) Particular attention should be paid to protect the integrity of the distal tibiofibular syndesmosis. (4) We should perform bone grafting when the docking site has a delayed union or nonunion.

To the best of our knowledge, this is the first study about fibular osteomyelitis treated by Ilizarov bone transport. The main strength of our study is that all the operations were performed by the same orthopedic surgeon, which can avoid the differences caused by different surgeons’ preference and experience. A number of data on the characteristics of patients, treatment results and complications were reported in our study. However, our study has its limitations. Muscle strength has been assessed subjectively, and there is no objective comparison of the muscle strength. It is retrospective in nature and the number of patients is relatively small, and there is no control group to compare our results with. More prospective randomized controlled trials are needed to overcome the limitations of our study.

Conclusions

Our study suggested that Ilizarov bone transport may be a good choice for the treatment of fibular osteomyelitis, especially for the patient with distal fibular loss. Restoration of the integrity of distal fibula would be fruitful for ankle stability.

Abbreviations

ASAMI:

Association for the Study and Application of the Method of Ilizarov

References

  1. Al-Maiyah M, Hemmady MV, Shoaib A, Morgan-Jones RL. Recurrence of chronic osteomyelitis in a regenerated fibula after 65 years. Orthopedics-New Jersey. 2007;30(5):403.

    Google Scholar 

  2. Brinker MR, O'Connor DP. Partial fibulectomy for symptomatic fibular nonunion. Foot Ankle Int. 2010;31(6):542–6.

    Article  PubMed  Google Scholar 

  3. Bostman O, Kyro A. Delayed union of fibular fractures accompanying fractures of the tibial shaft. J Trauma. 1991;31(1):99–102.

    Article  CAS  PubMed  Google Scholar 

  4. Salvi AE, Metelli GP. Painful non-union of the fibula in football player following fracture of the leg. Arch Orthop Trauma Surg. 2005;125(5):355–7.

    Article  PubMed  Google Scholar 

  5. Shen WJ, Shen YS. Fibular nonunion after fixation of the tibia in lower leg fractures. Clin Orthop Relat Res. 1993;287:231–2.

    PubMed  Google Scholar 

  6. Bozkurt M, Yavuzer G, Tönük E, Kentel B. Dynamic function of the fibula. Gait analysis evaluation of three different parts of the shank after fibulectomy: proximal, middle and distal. Arch Orthop Trauma Surg. 2005;125(10):713–20.

    Article  PubMed  Google Scholar 

  7. Lee E, Goh J, Helm R, Pho R. Donor site morbidity following resection of the fibula. J Bone Joint Surg. 1990;72(1):129–31.

    CAS  Google Scholar 

  8. Lang CJ, Frederick RW, Hutton WC. A biomechanical study of the ankle syndesmosis after fibular graft harvest. J Spinal Disord. 1998;11(6):508–13.

    Article  CAS  PubMed  Google Scholar 

  9. Uchiyama E, Suzuki D, Kura H, Yamashita T, Murakami G. Distal fibular length needed for ankle stability. Foot Ankle Int. 2006;27(3):185–9.

    PubMed  Google Scholar 

  10. Zhang Q, Yin P, Hao M, Li J, Lv H, Li T, et al. Bone transport for the treatment of infected forearmnonunion. Injury. 2014;45(12):1880-4.

  11. Saridis A, Panagiotopoulos E, Tyllianakis M, Matzaroglou C, Vandoros N, Lambiris E. The use of the Ilizarov method as a salvage procedure in infected nonunion of the distal femur with bone loss. J Bone Joint Surg - Series B. 2006;88(2):232–7.

    Article  CAS  Google Scholar 

  12. Krishnan A, Pamecha C, Patwa JJ. Modified Ilizarov technique for infected nonunion of the femur: the principle of distraction-compression osteogenesis. J Orthop Surg (Hong Kong). 2006;14(3):265–72.

    CAS  Google Scholar 

  13. Bumbasirevic M, Tomic S, Lesic A, Milosevic I, Atkinson HD. War-related infected tibial nonunion with bone and soft-tissue loss treated with bone transport using the Ilizarov method. Arch Orthop Trauma Surg. 2010;130(6):739–49.

    Article  PubMed  Google Scholar 

  14. Eralp L, Kocaoglu M, Rashid H. Reconstruction of segmental bone defects due to chronic osteomyelitis with use of an external fixator and an intramedullary nail. Surgical technique. J Bone Joint Surg Am. 2007;89 Suppl 2 Pt.2:183–95.

    PubMed  Google Scholar 

  15. Patil S, Montgomery R. Management of complex tibial and femoral nonunion using the Ilizarov technique, and its cost implications. J Bone Joint Surg. 2006;88B(7):928–32.

    Article  Google Scholar 

  16. Emara KM, Allam MF. Ilizarov external fixation and then nailing in management of infected nonunions of the tibial shaft. J Trauma-Injury Infection Crit Care. 2008;65(3):685–91.

    Article  Google Scholar 

  17. Chaddha M, Gulati D, Singh AP, Singh AP, Maini L. Management of massive posttraumatic bone defects in the lower limb with the Ilizarov technique. Acta Orthop Belg. 2010;76(6):811–20.

    PubMed  Google Scholar 

  18. Lambert KL. The weight-bearing function of the fibula. A strain gauge study. J Bone Joint Surg Am. 1971;53(3):507–13.

    CAS  PubMed  Google Scholar 

  19. Karrholm J, Hansson LI, Selvik G. Mobility of the lateral malleolus. A roentgen stereophotogrammetric analysis. Acta Orthop Scand. 1985;56(6):479–83.

    Article  CAS  PubMed  Google Scholar 

  20. Bozkurt M, Yilmaz E, Atlihan D, Tekdemir I, Havitcioglu H, Gunal I. The proximal tibiofibular joint: an anatomic study. Clin Orthop Relat Res. 2003;406:136–40.

    Article  PubMed  Google Scholar 

  21. Thordarson DB, Motamed S, Hedman T, Ebramzadeh E, Bakshian S. The effect of fibular malreduction on contact pressures in an ankle fracture malunion model. J Bone Joint Surg Am. 1997;79(12):1809–15.

    CAS  PubMed  Google Scholar 

  22. Pacelli LL, Gillard J, McLoughlin SW, Buehler MJ. A biomechanical analysis of donor-site ankle instability following free fibular graft harvest. J Bone Joint Surg. 2003;85(4):597–603.

    PubMed  Google Scholar 

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Acknowledgements

Our authors would like to thank all patients included in the research, and all nurses and doctors in our department. This study was supported by the National Natural Science Foundation of China (81000796; 30973068; 81401809).

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    Authors and Affiliations

    1. Department of Orthopaedics, Chinese PLA General Hospital, No. 28 Fuxin Road, Beijing, 100853, P.R. China

      Peng Yin, Lihai Zhang, Lining Zhang, Tongtong Li, Zhirui Li, Jiantao Li, Jianfeng Zhou, Qun Zhang & Peifu Tang

    2. Medical College, Nankai University, No. 94 Weijin Road, Tianjin, 300071, P.R. China

      Peng Yin & Tongtong Li

    3. Department of Orthopaedics, Beijing Shijitan Hospital, Beijing, P.R. China

      Qi Yao

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    The authors declare that they have no competing interests.

    Authors’ contributions

    PY performed the design and conception of the research, collected and analyzed the data, and drafted the manuscript. LHZ joined the design and conception of the research and revised the manuscript critical for important content. LNZ joined the design of the research, and collected the data and underwent data analysis. TTL joined the design and conception of the research. ZRL underwent data analysis. JTL underwent data analysis. JFZ joined the conception of the research.QY performed the design and conception of the research and analyzed the data. QZ performed operations and joined the design and conception of the research. PFT performed the design and conception of the research, analyzed the data, and gave some precious comments in revising the manuscript. All authors read and approved the final manuscript.

    Peng Yin Lihai Zhang and Lining Zhang contributed equally to this work.

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    Yin, P., Zhang, L., Zhang, L. et al. Ilizarov bone transport for the treatment of fibular osteomyelitis: a report of five cases. BMC Musculoskelet Disord 16, 242 (2015). https://doi.org/10.1186/s12891-015-0708-x

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