Pronounced femur malunion after pathological bone fracture due to a simple bone cyst in the shaft of the femur, treated using Ilizarov fixation: a case report

A simple bone cyst (SBC) is a tumor-like condition of the bone in which a cavity filled with serous fluid forms in the bone marrow, often during childhood and adolescence. Frequent sites of development include long tubular bones, particularly the humerus and femur. In slightly older age groups, a large proportion of cases develop SBCs in the calcaneus; these cases differ from SBCs occurring in the tubular bones [1, 2]. There are several reports on the potential etiologies of SBC, which include anomalous venous drainage [3], prostaglandin, interleukin-1, proteolytic enzymes, nitrogen monoxide involvement [4], and bone reabsorption instigated by parietal cells [5], but none have been confirmed. SBC moves to the diaphysis as the patient grows and may heal without treatment. Thinning of the cortical bone increases the risk of pathological fractures, and pain caused by these fractures often drives the patient to seek medical care. When adjacent to the epiphyseal plate, SBC is believed to be in the active phase, during which the disease is more active and more likely to recur, while in the latent phase, the SBC is separated from the epiphyseal plate [6].

The purpose of treatment is primarily to prevent pathological fractures and to minimize limitations in daily activities. Several treatment options are available; age, sex, level of activity, and location of the SBC play a role in selecting the most appropriate therapeutic approach. Steroid injections [7‐10], autologous bone marrow injections [7], and demineralized bone matrix injections [11, 12] are used as conservative treatments. Effective surgical treatments include: curettage; curettage with bone grafting [10]; curettage with bone substitution [6, 10]; curettage with myoplasty, reduced pressure, and shunt method [3]; intramedullary flexible nails [13‐15]; and a combination of these.

The combined use of Ilizarov fixation and bone extension is a treatment method often used for rebuilding in cases of infection, pseudarthrosis, and bone defects after removing bone tumors. Excision of the lesions is another treatment option for SBCs, but in recent years, less invasive treatments have become preferable; thus, it is extremely rare for excision, Ilizarov fixation, and bone extension to be used in combination for the treatment of SBC. In addition, in our extensive literature review, we found no reports of bone extension implemented simultaneously with excision of the lesions and correction of deformations in combination with Ilizarov fixation.

Here we report the use of Ilizarov fixation with bone extension to correct deformations in a patient with SBC of the femur who showed repeated pathological fractures and a clearly progressing deformity, despite multiple previous treatments.

Patient: a 9-year, 7-month-old Japanese girl (height 127 cm, body weight 33 kg, body mass index 20.5 kg/m²).

There are several reports on the successful treatment of SBC in long bones using: curettage/bone graft (artificial or autologous); infusion therapy, such as steroids and autologous bone marrow liquid; and drilling hollow screws to reduce pressure [3, 7‐12]. In our patient, curettage and steroid infusion into the cyst, and reducing pressure using a cannulated screw were previously attempted. After inserting a cannulated screw, the cyst disappeared over a protracted period of time, even though the cyst was in a latent phase. The histopathology of this lesion was interesting as it differed from the normal process but, unfortunately, we were unable to obtain pathological information from our patient’s previous doctor.

Normally, in childhood, autologous corrections are successful, even for the treatment of a deformity of the femur. Malkawi et al. reported successful autologous correction of a 30° sagittal plane and 20° coronal plane deformity of the femur in a pediatric patient [16]. In our patient, new bone formation was observable in the affected region of the femur due to sequential autologous correction following the multiple fractures (Fig. 3b, c). However, the deformity progressed, probably due to the fragility of the bone and excessive tension applied by the unbalanced surrounding soft tissues. In such cases, where the bone is fragile and the deformity is progressing, there is a possibility of severe functional disability and, therefore, early and active treatment should be considered, including treatment of the SBC and stabilization of the fracture. The efficacy of intramedullary flexible nailing for the treatment of pathological fractures due SBCs has been reported in several studies [13‐15]. In cases of progressive deformity despite adequate treatment, our approach of resection of the lesion, correction of the alignment, and extension of the bone may provide the most effective treatment.

As previously mentioned, excessive tension applied to the bone by the unbalanced surrounding soft tissues was likely to be an important factor contributing to the progression of the bone deformity. In particular in our case, the severity of the deformity hindered lengthening of the soft tissue with bone growth, with the iliotibial tract being particularly tight, which would have applied abnormal excessive tension on the bone, thereby increasing the severity of the deformity. Considering the dynamic effects of unbalanced soft tissues on the deformity, treatment using a correction osteotomy alone would probably have been insufficient to maintain bone alignment and length.

Several techniques have been designed to facilitate rebuilding of bone after resection of a bone tumor, including the use of vascularized autologous bone grafts, an autologous bone graft (Pasteur-treatment, liquid cyst treatment, radiotherapy, radiation irradiation, and others), allogeneic bone graft, bone extension, and other implants. Typically, a stable biological rebuilding method is ideal for young individuals who are still growing. Bone extension is one of these methods and is often used for the treatment of bone deformity and deficiency, such as caused by trauma, osteomyelitis, and pseudarthrosis. Tsuchiya et al. reported the efficacy of rebuilding using bone extension after resection of bone tumors in 19 children during their growth period [17]. Specifically, the authors reported on ten cases of bone transport (five cases of osteosarcoma and five of osteoclastoma), three cases of shortening-distraction (two cases of osteosarcoma and one case of Ewing’s sarcoma), and six cases of bone transport with medullary pin (three cases of osteosarcoma, two cases of mild osteosarcoma, and one case of malignant histiocytosis). The average bone loss in these cases was 8.4 cm. On final follow-up, function was assessed as excellent in 12 patients, good in 5 patients, and fair in 2 patients. Complications occurred in ten patients, but the report stated that all cases were ultimately completely cured. In our review of the literature, we did not identify any case reporting the use of our method, namely excision of the lesion, correction of the alignment, and subsequent lengthening of the bone, for the treatment of a deformity caused by a bone tumor. For our patient, we considered the following two potential methods to correct alignment and lengthen the bone after removing the lesion: shortening of the bone (with SBC resection), and correction of alignment and subsequent lengthening of the bone; or soft tissue release, including the iliotibial tract, maintaining the length and alignment of the bone and filling the bone deficiency with vascularized autologous bone graft or bone transport. Considering the invasiveness of soft tissue release and the ease of bone resection with subsequent lengthening, we deemed this latter approach as being the most conducive to achieving favorable clinical and functional outcomes, including gradual lengthening of soft unbalanced soft tissues.

Therefore, for cases of progressive long bone deformity in a young child, associated with unbalanced soft tissues, we believe that our shortening-distraction method can be an extremely effective treatment that can be used to provide early correction and stabilization of the long bone.