Treatment and outcome of malignant bone tumors of the proximal humerus: biological versus endoprosthetic reconstruction

Malignant bone tumors of the proximal humerus are common, and multiple treatment options have been reported in recent years[1‐11]. In most cases, surgery comprises an essential element of therapy. The clinical outcome, local recurrence, and survival rates after limb-preserving and other procedures seem to be comparable. To provide a platform for elbow and hand function, reconstructive limb-preserving procedures have been proposed for the proximal humerus. Moreover, patient acceptance has been described as higher for limb-preserving treatments. Therefore, amputation of the shoulder girdle is avoided if possible. In limb salvage procedures, large bone defects may result after resection of the proximal humerus. These defects can be reconstructed with autograft, allograft, implanted prostheses and composites[1‐11].

Risks vary dependent on the choice of reconstruction. Biological reconstruction can be complicated by fracture, infection, and subchondral collapse, leading to implant revision or removal[1‐11]. Difficulties with endoprosthetic reconstruction involve consequences of surgical resection of deltoid and rotator cuff. These include proximal subluxation, instability, and a reduction in functional range of motion[1‐11]. The aim of this study was to investigate within a retrospective single center experience of surgically treated malignant bone tumors of the proximal humerus, respective oncological, surgical, and functional outcome differences after endoprosthetic and biological reconstruction in order to possibly identify predictive factors for appropriate indication.

Between the year 1998 and 2010, 47 patients at our institution were treated for primary malignant bone tumor of the proximal humerus. Six of these 47 patients were lost to follow-up, so 41 patients were included in this study. There were 18 female and 23 male, with an average age of 30.6 years (range, 18 to 45 years) at the time of operation. The mean duration of follow-up was 57.7 months (range, 25 to125 months). Fourteen patients died during the follow-up period. This study was approved by the Second Xiangya Hospital committee for clinical research and informed consent was obtained from the patients participating in the study. The patients provided written informed consent for the publication of individual clinical details and accompanying images.

The histological diagnosis was osteosarcoma in 22 patients, Ewing’s sarcoma in 7, malignant fibrous histiocytoma in 9 and high-grade chondrosarcoma in 3. All these cases of bone tumors were staged according to Enneking’s criteria[12] with 19 stage IIA cases, and 22 stage IIB cases. All the patients underwent wide en bloc intra-articular excision and reconstruction of the defect with prosthesis in 25 cases (group P, see Figures 1 and2) and biological means in 16 cases (group B). In the present study, biological reconstruction was used by recycled pasteurized autograft combined with a non-vascularised fibula autograft (see Figures 3,4,5 and6). All patients with malignant tumors except chondrosarcoma received preoperative chemotherapies with a high dose of methotrexate, doxorubicin and cisplatin.

The detailed description of the results of all 41 patients were outlined in Table 1 and Table 2. The mean follow-up of group P is 55.08 months while the mean follow-up of group B is 61.75 months. In group B, all the patients had achieved bony union at the last follow-up and the mean time to graft union was 17.9 months (ranging from 12.5 to 27 month). Four patients (25.0%) acquired secondary iliac crest cancellous bone grafting to achieve union and one patient (6.25%) had a fracture because of slipping to the ground. This was changed the internal fixtor and the fracture subsequently united uneventfully. Local recurrences were occured in 3 cases (12.0%) in group P and 2 cases (12.5%) in group B. The 5 patients underwent subsequent amputation to treat their local recurrence. Pulmonary metastases were observed in 4 patients (16.0%) in group P and 4 patients (25.0%) in group B. Metastases were rated as irresectable due to dissemination and treated by further chemotherapy. These patients subsequently died of disease within 12 months. Table 3 summarizes the respective results and incidences of the two treatment groups with prosthetic and biological reconstruction. There was no significant difference in the incidence of local recurrence, pulmonary metastasis or death of disease (see Table 3). Superfical infection occurred in 1 patient (4.0%) in group P, which was resolved by debridements. There was no deep infection. Chondrolysis occcured in all the patients in group B and no treatment was required as painless in these patients.

Revisions were indicated in 9 patients (36.0%) in group P and 5 patients (31.25%) in group B. The incidence of revisions was higher for patients with prosthetic reconstruction. However, there was no significant difference regarding revision in these two groups (see Table 3). The Kaplan-Meier 5-year implant survival estimates, with revision for any reason as the end point, were 80.6% and 68.8% for the group P and group B, respectively (Figure 7). All patients were functionally assessed at latest follow-up. None of the patients was able to abduct their shoulder more than 90°. The mean MSTS Score was 63.6% in group P and 63.0% in group B. These differences were not statistically significant (see Table 3). In the present study, 14 patients (8 patients in group P and 6 patients in group B) died of their underlying disease, all other patients were alive without evidence of disease at latest follow-up. Consequently, the disease-specific survival of patients in group P was 74.5% at 5 years and in group B was 67.0% (Figure 8).

The optimal reconstructive technique after proximal humerus resection is controversial. There are several literatures compared the outcome, complications and survival of different type of surgical reconstructions after proximal humeral tumour resection[1‐11]. Van de Sande et al.’s[5] study showed that an endoprosthetic reconstruction after proximal humeral resection resulted in the lowest complication rate, highest implant survival and comparable functional results when compared to allograft-prosthesis composite and osteoarticular allograft use. Potter BK and his colleagues[1] stated that implant revision was more common after osteoarticular reconstruction while function was more satisfactory after allograft-prosthetic composite reconstruction. In the study, we have been able to show that prosthetic reconstruction and reconstruction with recycled pasteurized autograft are similar in terms of their local recurrence and metastasis, while the incidence of revisions was higher for patients with prosthetic reconstruction.

In our previous study[14], we treated malignant bone tumors of the distal tibiae with “en bloc” intra-articular excision and ankle arthrodesis using recycled pasteurized autograft, the nonunion rate was 54.5% (6/11). In the present study, the nonunion rate was 25.0% (4/16). Although the characteristics of these two groups are not quite equal to compare, the nonunion rate in the present study was lower, which may be attributed to the recycled pasteurized autograft combined with a non-vascularised fibula autograft. However, the nonunion rate was much higher than other reports. Potter Bk et al.[1] reported only one patient (5.9%) developed nonunion in 17 patients with osteoarticular reconstruction after humeral tumor excision. In van de Sande et al’s study[5], the nonunion rate was 15.4% (2/13). In Aponte-Tinao LA et al.’s reported[4], there were 21 patients with proximal humerus osteoarticular allograft after tumor excision and none became nonuion.

We found 5-year Kaplan-Meier implant survival estimates, with revision for any reason as the end point, of 80.6% and 68.8% for the group P and group B, respectively. In previous reports of osteoarticular graft survivorship, Getty and Peabody[6] found 68% Kaplan-Meier graft survival at 5 years, and Potter et al.[1] reported 56% Kaplan-Meier graft survival at 5 year. However, the 5-year Kaplan-Meier prothesis survival was 100% in Potter et al’s study[1], which was much higher than ours.

In Manfrini et al. study[15], they suggested that free fibular flaps will incorporate into the allograft. Li et al.[16] observed that abundant callus originated from the outlayer of the fibula that union the fibula with the host bone and allograft together. Pasteurized autogenous bones are similar to allografts, in that both possess bone induction ability and bone conductive ability[14]. Sugiura et al.[17] reviewed pasteurized intercalary autogenous bone graft combined with a fibula graft and stated that the addition of a fibula graft seems to promote the theoretically anticipated remodeling process. Our results indicate pasteurized intercalary autogenous bone graft combined with a fibula graft is a useful reconstruction method for large bone defects after resection of osteosarcoma in the humors.

We note several limitations in this study. First, this study was retrospective and the study period included a relatively broad time frame. As such, patient selection between each group was not standardized. Reconstructions with recycled pasteurized autograft generally were performed earlier during the study period as we became increasingly aware of the high nonunion rate associated with this technique. Second, the numbers of patients in each cohort and the study as a whole are relatively small but these numbers are comparable or greater than in previous reports. Third, though only five patients developed local recurrence and eight patients developed pulmonary metastasis at current follow-up, a longer follow up is required since these were malignant lesions with a possibility of late disease recurrence. Fourth, a non-vascularised fibula autograft not a vascularised fibula autograft was adopted in the study, a vascularised fibula autograft maybe better for bone union.

The study could show that prosthetic reconstruction and reconstruction with recycled pasteurized autograft are similar in terms of their local recurrence and metastasis, while the incidence of revisions was higher for patients with prosthetic reconstruction.