Introduction: Total en bloc spondylectomy (TES) as the only radical treatment option for sarcoma and solitary metastases of the spine was shown to markedly minimize local recurrences, improve patient quality of life and substantially increase overall survival rates. This study analyzes the onco-surgical results after multilevel thoracolumbar TES and reconstruction with a carbon composite vertebral body replacement system (CC-VBR) in a collective of patients.

Methods: 26 patients (14f/12m; age 52±14y) treated with thoracolumbar multilevel TES (10x2, 12x3, 3x4, 1x5 segments) for spinal sarcomas (n=16), solitary metastases (n=5) and aggressive primary tumors (n=5) were retrospectively investigated. According to the classification system of Tomita et al. all patients were surgically staged as type 6 (multisegmental/extracom-partimental). Defect reconstruction (14 thoracic, 6 thoraco-lumbar and 6 lumbar) were performed with posterior stabilization and a CC-VBR. Patient charts and the current clinical follow-up results were analyzed for histopathological tumor type, pre- and postoperative data (symptoms, duration of surgery, blood loss, complications, intensive care, adjuvant therapies etc.) and course of disease. Latest radiographs and CT-scans were analyzed at follow up. Oncological status was evaluated using cumulative disease specific and metastases-free survival analysis.

Results: With a mean follow up (100%) of 18 (4–44) months 24 patients (92%) were postoperatively ambulatory without any support. Postoperative neurological deficits were seen in two patient (8%). Wide resection margins were attained in 9, marginal in 17 patients. Depending on tumor biology/grading and/or resections margins an adjuvant therapy (radiation/chemotherapy) was performed in 18 (69%) patients. Local recurrence was found in two patient (8%). 19 (73%) patients showed no evidence of disease, 3 were alive with disease while 2 died of disease at 10 and 27 months postoperatively.

Conclusion: In selected patients with multisegmental spinal tumor involvement oncological sufficient resections can be reached by multilevel TES. Although the surgical procedure is challenging and the patient’s stress is considerable our encouraging midterm results together with the low complication rate clearly favour and legitimate this technique. However, treatment success strongly depends on adjuvant therapies. Reconstruction with a CC-VBR showed low complication rates, promising biomechanical characteristics, increased volume for bone grafting and lower artefact rates in follow-up MR- and CT-imaging.

Introduction: Total en bloc spondylectomy (TES) as the only radical treatment option for sarcoma and solitary metastases of the spine was shown to markedly minimize local recurrences, improve patient quality of life and substantially increase overall survival rates. Due to surgical difficulty of TES and complex biomechanical demands in defect reconstruction multisegmental tumor involvement of the spine has long been considered as a palliative situation, exceeding the limits of surgical feasibility. Thus, multilevel resections reports are very rare. For the first time, this study analyzes the onco-surgical results after multilevel thoracolumbar TES and reconstruction with a carbon composite vertebral body replacement system (CC-VBR) in a collective of patients.

Methods: 18 patients (9f/9m; age 52±14y) treated with thoracolumbar multilevel TES (6x2, 9x3, 3x4 segments) for spinal sarcomas (n=9), solitary metastases (n=5) and aggressive primary tumors (n=3) were retrospectively investigated. According to the classification system of Tomita et al. all patients were surgically staged as type 6 (multisegmental/extracompartimental). Defect reconstruction (11 thoracic, 3 thoracolumbar and 4 lumbar) were performed with posterior stabilization and a CC-VBR. Patient charts and the current clinical follow-up results were analyzed for histopathological tumor type, pre- and postoperative data (symptoms, duration of surgery, blood loss, complications, intensive care, adjuvant therapies etc.) and course of disease. Latest radiographs and CT-scans were analyzed at follow up. Oncological status was evaluated using cumulative disease specific and metastases-free survival analysis.

Results: With a mean follow up (100%) of 18 (4–44) months 17 patients (94%) were postoperatively ambulatory without any support. Postoperative neurological deficits were seen in one patient (6%). Wide resection margins were attained in 7, marginal in 11 patients. Depending on tumor biology/grading and/or resections margins an adjuvant therapy (radiation/chemotherapy) was performed in 12 (67%) patients. Local recurrence was found in one patient (6%). 13 (72%) patients showed no evidence of disease, 3 were alive with disease while 2 died of disease at 10 and 27 months postoperatively.

Conclusion: In selected patients with multisegmental spinal tumor involvement oncological sufficient resections can be reached by multilevel TES. Although the surgical procedure is challenging and the patient’s stress is considerable our encouraging midterm results together with the low complication rate clearly favour and legitimate this technique. However, treatment success strongly depends on adjuvant therapies. Reconstruction with a CC-VBR showed low complication rates, promising biomechanical characteristics, increased volume for bone grafting and lower artefact rates in follow-up MR- and CT-imaging.

There is more than one option for proximal humerus reconstruction after oncological resection but we believe osteochondral allografts provide a good biological solution for these defects. We report three cases with different histological diagnoses and different results following such reconstruction. The aim is to highlight the advantages and disadvantages of this surgical procedure.

The first case report concerns a 15-year-old boy (M.P.) with Ewing’s sarcoma of the proximal humerus. The gleno-humeral articulation and most of the rotator cuff were not involved by the disease. An allograft was used for the reconstruction after satisfactory resection. This allowed good restoration of the function quickly. At 12 months there was a fatigue fracture in the allograft, which required revision with a modular prosthesis. In another patient, a young woman (E.C.), a proximal humeral defect was reconstructed following resection of a benign lesion, fibrous dysplasia. She does not have complete restoration of function but there are no complications at 3 year follow up. The last case is a 49-year-old woman (M.M.), who had osteochondral allograft reconstruction of the proximal humerus after resection of a completely destroyed head by a giant cell tumour. She had good initial results but required revision surgery with Kuntscher nail and vancomycin was added to the cement due to infection.

The biological articular reconstruction after oncological wide resection allows good functional results when rotator cuff tendons are available and allografts permit a good and fitting reinsertion. The reported early restoration of function in the young boy (case 1) has to be considered in the stress-fracture genesis. The authors consider that the lack of motion in case 2 was due to a non-aggressive and careful rehabilitation: a quite poor functional result to avoid complications. The case 3 failure is due to an infection, one of most frequent complications in allograft implants. The choice of using an osteochondral allograft must be considered as a useful alternative with prosthetic replacements.

The reconstruction of a skeletal defect after resection of a bone tumour represents a challenge for the orthopaedic surgeon. Age, site of the lesion and extension of the disease often limit the choice of surgical technique for a conservative procedure, but several options are available, mainly modular, composite or custom prostheses, massive bone allografts with or without autologous vascularised fibular grafts (AVF), and arthrodeses.

An interesting reconstructive technique uses the AVF graft, with microsurgical technique, alone or associated with a massive allograft. The association of a fibular transplant with an allograft increases the mechanical strength of the reconstruction, also promoting more rapid integration. The fibula is a cortical bone and it may provide mechanical strength in the reconstruction of a large segmental bony defect if employed as a viable biological rod.

In the present paper the authors discuss their experience with 17 patients treated at the Oncological Orthopaedic Unit of the G.Pini Orthopaedic Institute, for bone tumour resection and reconstruction using AVF graft, almost always combined with a bone allograft.

No treatments were performed as augmentation in osteoarticular massive allografts. Subjects’ ages ranged from 7 to 66 years (mean 25.2 years). Most of the patients were referred for a diagnosis of malignancy (15 of 17 cases) and in only two patients were the tumours not aggressive. In 11 patients the AVF was transplanted immediately after tumour resection, while in the others it was used after problems of previous reconstruction.

The authors report two cases of deep infection and four mechanical fractures (all healed after a period of cast immobilisation with or without bone bridging). All the AVF survived and healed with a good functional result for the patients except for two recurrences that required an amputation.