Osteosarcoma is the most common solid malignancy of the bone, with an incidence of 2–3 per 106,000 individuals, but 8–11 per 106,000 individuals aged 15–19 years (1). Metaphyseal osteosarcoma of the femur with a pathological fracture is common among children (2); it occurs most frequently around the knee, whereas ~75% of the cases are located near the epiphyseal plate (3), with an incidence of complicating pathological fractures of ~5% (4). However, metaphyseal osteosarcoma in children has been widely considered as a contraindication for limb salvage surgery (2). First, pathological fracture results in loss of the surgical border of the tumor; thus, radical or wide resection cannot be performed (5,6). Second, reconstruction with prosthetic replacement is not suitable for children who have yet to reach skeletal maturity. Third, due to the complexity of biological reconstruction and limb shortening in the future, certain surgeons consider rotationplasty to be a suitable option for children following tumor resection around the knee (7). In this study, we present two cases of pediatric patients who received limb salvage treatment with preservation of the epiphysis, including wide resection of the tumor and biological reconstruction by allogeneic bone and fibular autograft. We recommend this method for children with distal femoral osteosarcoma complicated by pathological fracture.

Osteosarcoma is the most common primary malignant bone tumor in children and young adults (4,8). Approximately 5–20% of the patients suffering from osteosarcoma develop pathological fractures during the course of preoperative treatment (4,9). The prognostic significance of a pathological fracture in patients with an osteosarcoma is widely debated. It is accepted that malignant bone tumors with pathological fractures often lead to compartment structure damage and tumor cell spread, which makes surgeons consider amputation as the most suitable treatment in order to avoid the dissemination of tumor cells. However, Abudu et al consider amputation to be a radical resection method for a local tumor, but cannot prolong survival time (4). With the gradual development of neoadjuvant chemotherapy, several researchers have reported that it may be feasible to salvage the limb with pathological fractures during osteosarcoma therapy (5,10–12). In this study, two pediatric patients received neoadjuvant chemotherapy, which made the tumor boundaries clearer and helped achieve a wide resection. Limb salvage surgery with epiphyseal preservation was successful for the two patients, and comparable with other osteosarcoma patients without pathological fractures.

There are several advantages of epiphyseal preservation in the removal of malignant bone tumors in children. However, it remains unclear how to achieve safe resection in osteosarcoma with pathological fractures. Aponte-Tinao et al (13) reported that a margin of ≥1 cm of normal bone from the tumor on MRI imaging was a safe resection margin for osteosarcoma. Epiphyseal preservation may not be suitable for some patients. When tumor cells are found in the physeal margin, trans-epiphyseal resection or knee arthroplasty is considered to be the appropriate surgical treatment, rather than physeal preservation. Prosthesis replacement in children presents with a number of difficulties, including non-standard prosthesis size, prosthesis replaced several times and other surgical complications, although the new extendable prosthesis is currently recommended. A previous study indicated that prosthetic survival rates for large-segment replacements in high-grade bone sarcoma were 83% at 5 years and 67% at 10 years (14). There are several methods for biological reconstruction following excision of peri-articular osteosarcomas around the knee joint, including distraction osteogenesis, intercalary allograft, vascularized fibular graft, frozen autograft, or osteoarticular allograft. Manfrini et al described a case using a fibular graft including the proximal joint cartilage and the growth plate for reconstruction of the proximal femur and hip joint in an osteosarcoma patient (15). In this study, a vascularized fibular graft and allogeneic bone of similar size were used for repairing the bone defect for biological reconstruction. The joint function was preserved and the patients returned to normal activity after bone healing. Even if shortening does occur, simple lengthening may solve the problem. The female patient in this study underwent limb lengthening in the proximal femur with external fixation after the X-ray confirmed epiphyseal closure.

In children, the intensity of biological reconstruction following tumor resection is crucial. Aponte-Tinao et al (13) analyzed 35 osteosarcoma patients with epiphyseal preservation and allograft reconstruction, with a minimum follow-up of 5 years, and reported 11 fractures (31%) in their series. Weitao et al (16) analyzed 15 patients who underwent epiphysis-preserving procedures for the treatment of malignant bone tumors of the lower limb, with a minimum follow-up of 2 years, who had reconstruction with an intercalary allograft; they reported 13 patients with delayed union (87%). As is well known, bone healing between allogeneic bone and preserved bone is slow; the vascularized fibular graft inside the allogeneic bone accelerates bone healing and the fibular graft combined with allogeneic bone ensure sufficient bone strength. In this study, allograft bone resorption occurred distally in case 1, but not in case 2, the possible reasons being that vascularized fibular graft is superior to avascular fibular graft, and rigid internal fixation with a plate is preferred to fixation with screws.

Such cases are not common. Three pediatric patients with femoral osteosarcoma with pathological fractures were treated in our hospital between January, 2005 and January, 2015. One patient underwent knee replacement following an unfavorable outcome with chemotherapy, and eventually succumbed to lung metastasis 10 months after the operation. In the two patients described herein, the pathological fracture did not lead to tumor cell dissemination into the knee joint, which made joint preservation possible. Another important factor that made limb salvage surgery possible, was that the osteosarcoma in our two cases responded well to chemotherapy. The advantages of this reconstruction are preservation of a normal joint in children, the possibility of avoiding the joint complications seen with osteoarticular grafts (eventual need for conversion to total knee arthroplasty, joint instability) and endoprostheses (loosening, revisions). However, this biological reconstruction must be performed on a background of effective chemotherapy, a safe tumor resection margin, and a surgical team experienced with microsurgical techniques. In conclusion, limb salvage surgery with epiphyseal preservation is not contraindicated for pediatric patients with pathological fractures from femoral osteosarcoma.