Aims. The present study investigated receptor activator of nuclear factor kappa-Β ligand (RANKL), osteoprotegerin (OPG), and Runt-related transcription factor 2 (RUNX2) gene expressions in giant cell tumour of bone (GCTB) patients in relationship with tumour recurrence. We also aimed to investigate the influence of CpG methylation on the transcriptional levels of RANKL and OPG. Methods. A total of 32 GCTB tissue samples were analyzed, and the expression of RANKL, OPG, and RUNX2 was evaluated by quantitative polymerase chain reaction (qPCR). The methylation status of RANKL and OPG was also evaluated by quantitative methylation-specific polymerase chain reaction (qMSP). Results. We found that RANKL and RUNX2 gene expression was upregulated more in recurrent than in non-recurrent GCTB tissues, while OPG gene expression was downregulated more in recurrent than in non-recurrent GCTB tissues. Additionally, we proved that changes in DNA methylation contribute to upregulating the expression of RANKL and downregulating the expression of OPG, which are critical for bone homeostasis and GCTB development. Conclusion. Our results suggest that the overexpression of RANKL/RUNX2 and the lower expression of OPG are associated with recurrence in GCTB patients. Cite this article: Bone Joint Res 2024;13(2):84–91

Aims. Giant cell tumour of bone (GCTB) treatment changed since the introduction of denosumab from purely surgical towards a multidisciplinary approach, with recent concerns of higher recurrence rates after denosumab. We evaluated oncological, surgical, and functional outcomes for distal radius GCTB, with a critically appraised systematic literature review. Methods. We included 76 patients with distal radius GCTB in three sarcoma centres (1990 to 2019). Median follow-up was 8.8 years (2 to 23). Seven patients underwent curettage, 38 curettage with adjuvants, and 31 resection; 20 had denosumab. Results. Recurrence rate was 71% (5/7) after curettage, 32% (12/38) after curettage with adjuvants, and 6% (2/31) after resection. Median time to recurrence was 17 months (4 to 77). Recurrences were treated with curettage with adjuvants (11), resection (six), or curettage (two). Overall, 84% (38/45) was cured after one to thee intralesional procedures. Seven patients had 12 months neoadjuvant denosumab (5 to 15) and sixmonths adjuvant denosumab; two recurred (29%). Twelve patients had six months neoadjuvant denosumab (4 to 10); five recurred (42%). Two had pulmonary metastases (2.6%), both stable after denosumab. Complication rate was 18% (14/76, with 11 requiring surgery). At follow-up, median MusculoSkeletal Tumour Society score was 28 (18 to 30), median Short Form-36 Health Survey was 86 (41 to 95), and median Disability of Arm, Shoulder, and Hand was 7.8 (0 to 58). Conclusion. Distal radius GCTB treatment might deviate from general GCTB treatment because of complexity of wrist anatomy and function. Novel insights on surgical treatment are presented in this multicentre study and systematic review. Intralesional surgery resulted in high recurrence-rate for distal radius GCTB, also with additional denosumab. The large majority of patients however, were cured after repeated curettage. Cite this article: Bone Jt Open 2022;3(7):515–528

AIM. To present our experience in patients treated under primary diagnosis giant cell tumor of bone at Department Orthopaedic Surgery Zagreb University School of Medicine in a 15-year period from 1995 to 2009. METHODS. We performed a retrospective study of all patients treated in our Department because of giant cell tumor of bone (GCT) from 1995 to 2009. The mean age of our patients was 29,9 years (range: 14 to 70 years). Sex distribution showed prevalence in female (F:M=23:12=66%:34%). All together, 39 patients were operated under primary diagnosis of GCT. Four patients were lost in follow-up. In total, 35 patients were included in study. Diagnosis of GCT was made according to clinical, imaging and histological findings, and distributed by Campanacci's classification. RESULTS. Not including diagnostic biopsy, 84 operations were performed on 35 patients. Fourteen patients (40%) had GCT grade 1, fourteen (40%) had GCT grade 2, and seven (20%) had GCT grade 3. From the first symptoms to diagnosis there was an average duration of 7 months (range: 0 to 24 months), where the main symptoms were pain and swelling of affected bone and/or joint. GCT was localized in distal femur (n=12, 34%), proximal tibia (n=10, 29%), distal tibia (n=4, 11%), distal radius (n=3, 9%), and other locations (n=6, 17%). Patients with less aggressive GCT (grades 1 and 2) were treated with marginal excision: excochleation and reconstruction with bone transplant (n=12, 34%). In patients with locally more aggressive tumor (grades 2 and 3), “en bloc” resection and reconstruction with tumor endoprosthesis or bone transplant was performed (n=22, 63%). Due to localization of tumor, one patient was treated with radiation (3%). Complications were recorded in 12 patients (34%), and are shown as total number and percentage of all complications. Complications were the most common in knee region, proximal tibia (n=4, 33%) and distal femur (n=3, 25%). Also, the complications occured more frequently after “en bloc” resection (n=7, 58%). GCT classified as gradus 2 had most complications (n=5, 42%) till GCT classified as gradus 3 had least (n=3, 25% of complications, 9% of all). We recorded and treated local recurrence of tumor (n=6, 50%), infection (n=2, 17%), and mehanical complications of endoprosthesis (n=2, 17%). Due to local recurrences, in 2 patients underlying osteosarcoma was revealed, and they were treated with amputation. CONCLUSION. Each patient with GCT should be treated individually. Regardless non-malignant attribute, local behaviour of tumor determines treatment approach according to treatment principles of malignant tumor of bone. Number of complications in our patients is relatively high, recorded in one third of our patients, which matches the literature in announced studies

Because of the lack of a suitable in vivo model for giant cell tumors of bone little is known about their biological behavior and mechanisms of metastasis. No existing cell line contains all tumor components, so that testing of anti tumor agents is hardly possible. We therefore modified the chick chorio-allantoic membrane (CAM) assay for giant cell tumor of bone (GCTB). Out of tumor tissue obtained during surgery of 5 patients a solution was produced. The solute was grafted onto the CAM at day 10 of embryonic development. The growth process was monitored by daily observation and photo documentation using in vivo microscopy. After 5 to 6 days of tumor growth the samples were fixed in formalin and further analyzed using standard histology (hematoxylin and eosin stains). The tissue solute of all 5 patients formed solid tumors when grafted to the CAM. In vivo microscopy and standard histology revealed a rich vascularisation of the tumors. The tumors were composed of the typical components of GCTB including multinuclear giant cells. A reliable protocol for grafting of human giant cell tumors onto the chick chorio-allantoic membrane was established. This model is the first in vivo model for giant cell tumors of bone. Further characterization of the growing tissue is necessary in further experiments

Introduction: Giant cell tumour of bone (GCTB) is an expansile osteolytic tumour of bone which contains numerous osteoclast-like giant cells. GCTB is a locally aggressive tumour which can cause extensive bone destruction that can be difficult to control surgically, up to 35% of cases recurring after simple curettage. Bisphosphonates are anti-resorptive agents that have proved effective in the treatment of a number of osteolytic conditions. Methods: This study reports results from four European centres where bisphosphonates are being used to treat problematic GCTBs. Details of treatment with bisphosphonates of 25 cases of primary, recurrent and metastatic GCTBs was assessed clinically and radiologically. Results: Most primary/recurrent tumours did not exhibit progressive enlargement and, in some cases, both primary and metastatic GCTBs showed a degree of radiological improvement following treatment. Some patients also noted relief of pain following treatment. In a few cases, no apparent treatment effect was noted and there was disease progression. Several inoperable large spinal/pelvic GCTBs remained stable in size following treatment. Discussion: Our findings provide preliminary evidence for the use of bisphosphonates to inhibit the progressive osteolysis associated with GCTB. These agents had a beneficial clinical and/or radiological effect in most cases. This study reports results from four European centres and highlights the fact that these centres are all employing different clinical indications and different regimes of bisphosphonate treatment. Bisphosphonates have significant side effects and indications for treatment and standardisation of drug type and dosage regimes (and measurement of agreed outcome measures to determine treatment efficacy) should be established for the use of these agents to control GCTB tumour growth and osteolysis

Objectives: Development a giant cell tumor model arising from the mutated mesenchymal cells present in its stroma. This establishes the pathogenic mechanism of giant cell tumor, and allows the evaluation of the possible role of biphosphonates and retinoic acid in medical therapy of giant cell tumor of bone. Introduction: In previous studies our group has shown that mesenchymal stroma contains mesenchymal cells capable of recruiting osteoclasts, and lacking capacity to undergo osteoblastic differentiation. These cells represent the actual neoplastic component of the tumor. In the current study, an attempt was made to establish a giant cell tumor in an animal model by injection of these cells. Methods: 6 Balb/C named mice were used. The mice were kept in a laminar flow hood and injected when they were 4 weeks old. The injection was in an intra-osseous location into the distal femur. The cell inoculum consisted of 1 million stromal cells. The cells were derived from a grade III giant cell tumor occurring in the hip joint of a 30 years old woman. The mice were kept for 2 months and than sacrificed. Results: A lytic lesion similar to that occurring in humans developed. The tumor consisted of stromal cells with interspersed osteoclasts. These were identified as being of host origin by mice-specific monoclonal antibodies. The tumor penetrated the cortex but did not infiltrate the articular cartilage. Metastases were not observed. Discussion: Giant cell tumor of bone is typified by osteolytic bone destruction mediated by osteoclasts. In previous studies, our group has shown that the proliferation rate of the stromal component correlates closely with prognosis and grade of the tumor. The stromal component was shown to consist of pre-osteoblasts that fail to differentiate into osteoblasts, but instead recruit giant cells (osteoclasts), mediating bone destruction. Addition of retinoic acid in culture induces osteoblastogenesis cells by blocking AP-1. The current study confirms in an animal model that indeed the stromal cells are capable of osteoclast recruitment and bone destruction. This animal model might allow development of medical remedies to this tumor

Background. Giant cell tumours of bone (GCT) are benign bone tumours with a locally aggressive character. Local recurrence is considered the main complication of surgical treatment and is described in up to 50% of patients. Intralesional curettage with the use of adjuvants like phenol or polymethylmetacrylate (PMMA) is recommended as initial treatment, significantly decreasing the risk of recurrence. However, risk factors for local recurrence in skeletal GCT have not yet been firmly established and a golden standard for local therapy remains controversial. Objective. The identification of risk factors predisposing for an increased risk of local recurrence. In addition, different surgical techniques are compared to identify the optimal surgical approach for the identified risk factors. Methods. In a retrospective study all 215 patients with bone GCT treated between 1964 and 2009 in one centre were included, of which 193 were suitable for analysis. All patients had minimal follow-up of 12 months (mean 115; range 12–445). Using a Kaplan Meier survival analysis recurrence free survival rates were calculated. Cox-regression was used to determine the influence of different types of therapy, the use of adjuvants, and various patient and tumour characteristics. Results. The mean local recurrence rate for all patients was 35.2% (n=68, 95%CI: 28.3–42.1). Recurrence rate after wide resection was 0.17 (n=6, 95%CI: 0.04–0.29), after curettage with adjuvants 0.32 (n=42, 95%CI 0.24–0.41) and after curettage alone 0.74 (n=20, 95%CI: 0.57–0.91, p < 0.001). Soft tissue extension (Hazard Ratio: 3.8, p < 0.001), localisation in radius and ulna (HR: 2.6, p=0.013), and surgical experience (HR: 2.2, p=0.022) were identified as significant general risk factors for local recurrence. For intralesional resection, Campanacci grade III (HR: 3.9, p=0.019) and location in axial skeleton (HR: 3.3, p=0.016) additionally significantly increased this risk. Comparing treatments our data showed that curettage followed by adjuvants was superior to curettage alone (p < 0.004), and the application of both phenol and PMMA did not present a significantly better outcome than curettage and PMMA alone (HR: 1.07, p=0.881). Conclusion. Of all possible risk factors only soft tissue extension, localisation in radius and ulna and non-radical resections significantly influenced the risk of local recurrence for all treatments. In addition, we found that high-grade tumours and localisation in the axial skeleton were additional risk factors for local recurrence after intralesional surgery. Although wide resection increases patient morbidity, it can be the therapy of choice in high risk patients. Intralesional therapy can be advised for low recurrence risk patients using curettage and PMMA only, whereas our study could not confirm the predicted effect of phenol as an additional adjuvant

The giant cell tumor of bone (GCT) is a locally aggressive intraosseous neoplasm, with an uncertain biological behavior, constituted of giant multinuclear cells spread over tumoral tissue with a nucleus presenting the same features of the ovoid and fusiform cells forming its stroma. The local recurrence of GCT is often observed, mainly in the first three years after treatment, giving a rate of recurrence ranging in 20 to 50% of cases. Further aggravating the recurrence is the fact that after the relapse, the patient often also presents metastases in other organs. The aim of this study was to identify and to characterize differentially expressed genes that can be used in the prognostic, treatment and understanding of this physiopathology. To identify novel genes differentially expressed in GCT, we have applied rapid subtractive hybridization (RaSH). Samples of GCT and normal tissues were obtained at Tumor Bank of Barretos Cancer Hospital. After RNA extraction and cDNA synthesis the samples were submitted to Rapid hybridization Subtraction (RaSH) methodology for subtractive libraries elaboration. The RaSH subtractive libraries reveals the presence of 619 different clones including both normal and tumor tissues were identified. Of these, 450 in tumor sample and 169 in control tissue. Four biomarkers candidates were selected for validation: ZAK, KTN1, NEB, and ROCK1 genes, whose functions are, related to cell cycle checkpoint, transport of organelles, cytoskeletal matrix and cell adhesions. The validation of selected differentially expressed genes was performed using real time PCR. The putative molecular markers found in this work may help to find the basis for a molecular comprehension of GCT, thus improving diagnosis, treatment and outcome for patients with this tumor

Introduction. Local recurrence of Giant cell tumours of bone (GCT) is considered the main complication of surgical treatment (50%). Intra-lesional curettage with adjuvants like phenol or polymethylmethacrylate (PMMA) is recommended as initial treatment, decreasing the risk of recurrence. However, risk factors for local recurrence in skeletal GCT have not yet been firmly established and a golden standard for treatment remains controversial. Aim of this study is identification of risk factors for recurrence in GCT, specifically after intra-lesional curettage with or without adjuvants. Methods. In a retrospective single-institution study 191 patients treated for GCT between 1964 and 2009 were included. Mean follow-up was 111 months (range 12-415). The recurrence-free survival and hazards for different treatment strategies and various patient and tumour characteristics were determined. Results. Overall risk of recurrence was 36.1% (n=66, 95% CI: 28.3-42.1). Recurrence rate after wide resection was 20%, after curettage with adjuvants 33% and after curettage alone 77%. Hogendoorn-grade III (Hazard Ratio: 5.7, p⋋0.001), localisation in axial skeleton (HR: 3.7, p⋋0,001), primary treatment in a non-specialised centre (HR: 2.8, p⋋0.001) and extension into soft tissue (HR: 2.0, p=0.02) were significant risk factors for local recurrence. Curettage with adjuvants proved superior to curettage alone (p⋋0.004 p=0.07, HR: 0.54), but the application of both PMMA and phenol did not present a significantly better outcome than PMMA alone (HR: 1.07, p=0.9). Discussion. Of all possible risk factors only soft tissue extension and localisation in distal radius significantly influenced the risk of local recurrence for all treatments. We found that high-grade tumours and localisation in the axial skeleton were additional risk factors for local recurrence after intra-lesional surgery. Although wide resection increases morbidity, it can be the therapy of choice in high risk patients. Intra-lesional therapy can be advised for low risk patients using curettage adjuvants and PMMA

Tartrate-resistant acid phosphatase is contained in multinucleated giant cells of giant cell tumour of bone (GCT) and chondroblastoma (CBL) as well as in osteo-clasts. Yet few studies have so far been done regarding serum acid phosphatase (AcP) level in patients of GCT or CBL. The purpose of this study is to elucidate the clinical significance of serum AcP as a tumour marker for GCT and CBL. Serum AcP value was examined in nine GCT patients and three CBL patients before and after surgery. In the GCT cases, serum AcP values before surgery were high in five cases. They were 14.0 IU/L, 68.7 IU/L, 45.9 IU/L, 21.9 and 31.3 IU/L (normal value; 7.1–12.6 IU/L). They decreased after surgery to 7.7 IU/L (55% of the preoperative value), 8.2 IU/L (12%), 7.8 IU/L (17%), 6.1 IU/L (28%) and 10.0 IU/L (32%), respectively. Serum AcP values before surgery were within normal limits in the remaining four GCT cases. Even in these four cases, postoperative serum AcP level was lower than the preoperative level. Postoperative/preoperative AcP ratios in these four cases were 67%, 80%, 69% and 76%. In the CBL cases, serum AcP values were high in all cases. They were 15.1 IU/L, 13.1 IU/L and 13.7 IU/L. They decreased after surgery to 10.3 IU/L (68% of the pre-operative value), 10.2 IU/L (78%) and 9.7 IU/L (71%), respectively, all within normal limits. Therefore, it is concluded that serum AcP is a useful tumour marker for GCT and CBL in diagnosing the tumour as well as in evaluating the efficacy of treatment

Benign aggressive tumors are common and can be debilitating for patients especially if they are in peri-articular regions or cause pathological fracture as is common for giant cell tumor of bone (GCT). Although GCT rarely metastasize, the literature reports many series with high rates of local recurrence, and evidence about which risk factors influence recurrence is lacking. This study aims to evaluate the recurrence rate and identify local recurrence risk factors by reviewing patient data from a single high-volume orthopedic oncology center. A retrospective analysis of all patients treated for GCT at a tertiary orthopedic oncology center was conducted. In total 413 patients were treated for GCT between 1989 and 2017. Multiple patient and tumour characteristics were analysed to determine if they influenced local recurrence including: age, gender, anatomical site, Campanacci stage, soft tissue extension, presence of metastasis, pathologic fractures, and prior local recurrence. Additional variables that were analysed included type of treatment (en bloc resection or aggressive intralesional curettage) and use of local adjuvants. The main outcome parameters were local recurrence- free survival, metastasis-free survival and complications. Patients treated with Denosumab were excluded from analysis given its recently documented association with high rates of local recurrence. “There were 63/413 local recurrences (15.3%) at a mean follow-up of 30.5 months. The metastatic rate was 2.2% at a mean 50.6 months follow-up and did not vary based on type of treatment. Overall complication rate of 14.3% was not related to treatment modality. Local recurrence was higher (p=0.019) following curettage (55/310; 17.7%) compared to resection (8/103; 7.8%) however, joint salvage was possible in 87% of patients (270/310) in the curettage group. Use of adjuvant therapy including liquid nitrogen, peroxide, phenol, water versus none did not show any effect on local recurrence rates (p= 0.104). Pathological fracture did not affect local recurrence rates regardless of treatment modality (p= 0.260). Local recurrence at presentation was present in 16.3% (58/356) patients and did not show any significance for further local recurrence (p= 0.396). Gender was not associated with local recurrence (p=0.508) but younger patient age, below 20 years (p = 0.047) or below 30 years (p = 0.015) was associated with higher local recurrence rates. GCT in distal radius demonstrated the highest rate of local recurrence at 31.6% compared to other sites, although this was not significant (p=0.098). In addition, Campanacci stage and soft tissue extension were not risk factors for recurrence. The overall GCT local recurrence rate was 15.3%, but varied based on the type of resection: 17.7% following joint sparing curettage compared to 7.8% following resection. Local recurrence was also higher with younger patient age (30 years or less) and in distal radius lesions. In addition, neither Campanacci stage, soft tissue extension or presence of a pathologic fracture affected local recurrence. Most patients with GCT can undergo successful curettage and joint sparing, while only a minority require resection +/− prosthetic reconstruction. Even in the presence of soft tissue extension or a pathologic fracture, most joints can be salvaged with curettage

Giant cell tumour of bone (GCTB) is an expansile osteolytic tumour of bone which contains numerous osteoclast-like giant cells. GCTB is a locally aggressive tumour which can cause extensive bone destruction that can be difficult to control surgically, up to 35% of cases recurring after simple curettage. Bisphosphonates are anti-resorptive agents that have proved effective in the treatment of a number of osteolytic conditions. In keeping with its known effect on osteoclasts, we found that the aminobisphosphonate zoledronate abolished in vitro lacunar resorption in cultures of osteoclasts isolated from GCTB. The effect of zoledronate and other bisphosphonates on 15 cases of recurrent primary GCTB, four of which had metastasised to the lung, was assessed clinically. Most recurrent tumours did not exhibit progressive enlargement and, in some cases, both primary and metastatic GCTBs showed a degree of radiological improvement following treatment However, tumours did not diminish in size and, in some cases, no apparent treatment effect was noted. Our findings provide in vitro evidence for the use of bisphosphonates to inhibit the progressive osteolysis associated with GCTB. In vivo, these agents produced a degree of clinical and radiological improvement in some cases. This study reports results from three European centres where bisphosphonates are being used to treat recurrent GCTB and highlights the fact that these centres are all employing different clinical indications and different regimes of bisphosphonate treatment. Bisphosphonates have significant side effects and indications for treatment and standardisation of drug type and dosage regimes (and measurement of agreed outcome measures to determine treatment efficacy) should be established before these agents are included as part of a treatment protocol to control GCTB tumour growth and osteolysis

Summary. We demonstrate that osteoclast-like cells of GCT result from the spontaneous fusion and differentiation of CD14+ cells of the monoblastic lineage by an autocrine mechanism mediated by RANKL, rather than induced by stromal cells. This process is further enhanced by the simultaneous impairment of the negative feed-back regulation of osteoclastogenesis by interferon β. Introduction. Giant cell tumor of bone (GCT) is a benign osteolytic lesion with a complex histology, comprising prominent multinucleated osteoclast-like cells (OC), mononuclear stromal cells (SC), and monocyte-like elements. So far, most studies have focused on SC as the truly transformed elements that sustain osteoclast differentiation, while less attention has been paid on the monocyte-like cell fraction. On the contrary, we have previously shown that SC are non-transformed element that can induce osteoclastogenesis of monocytes at levels that do not exceed that of normal mesenchymal stromal cells. We therefore focused on CD14+ monocyte-like cells as an alternative key candidate for the pathogenesis of GCT. Methods. We isolated CD14+ enriched cell fraction from tumor samples by immunomagnetic separation. We analyzed CD14+ cells for ultrastructural morphology, mRNA levels of haematopoietic, monocytic, and dendritic markers, and for RANKL, and M-CSF. Due to the very high number of OC in GCT, we hypothesised that the IFN-b pathway might be impaired. In fact, IFN-b functions as a negative-feedback regulator that inhibits osteoclast differentiation. We assayed IFN-b mRNA and protein expression in both cultures and tumor samples. Finally, we verified the ability of CD14+ cells to spontaneously form osteoclasts. Results. In the CD14+ enriched fraction we identified two different cell populations, both positive for TRACP activity and negative for Ki-67 nuclear localization, one with an undefined histotype and the other showing characteristics of the monoblastic lineage, mainly monoblasts and promonocytes. Isolated cells were positive for CD45, MSE-1, RANK, CD14, and CD80, and negative for CD144, and were able to spontaneously form collagen-resorbing multinucleated cells, a process that was strongly impaired by the addition of osteoprotegerin. The expression of RANKL and M-CSF mRNA in cultured cells demonstrated the presence of an autocrine circuit inducing osteoclast formation. Finally, we found very low expression of IFN-b both in the in vitro formed OC and in tissue samples. Conclusions. These data show that CD14+ cells in GCT are monocyte-like cells that can spontaneously form bone-resorbing multinucleated cells through impaired IFN-b expression. Taken together, these data raise questions regarding the role of the CD14+ cell component and of their regulating mechanisms that may be relevant for the development of effective therapeutic strategies

Giant cell tumor (GCT) of bone is an osteolytic tumor that is locally aggressive and potentially metastatic. The pathogenesis of GCT is poorly understood. The purpose of this study was to harvest and culture primary cell lines from clinical specimens of GCT of bone and identify specific bone degradation proteases (matrix metalloproteinases: MMP-2, MMP-9) produced by the neoplastic stromal cells in vitro. With approval by the McMaster University Biohazards and Ethics Review Boards, we acquired consent from five patients with GCT of bone, and harvested specimens intraoperatively. The specimens were chopped in DMEM containing 10% Fetal Bovine Serum, 2 mM L-glutamine, 100 U/ml penicillin and 100 mg/ml streptomycin. The cell suspensions were incubated at thirty-seven degrees (5% CO2 and 95% air) and cultivated. The cells were grown to confluence and taken through several passages until only proliferative cells were present. Immunocytochemistry with TRAP (Tartrate Resistant Acid Phosphatase) was used to confirm the stem cell origin of the propagative cells. Protein electrophoresis with embedded gelatin was used for detecting protease activity (MMP-2, MMP-9) on cell lysates and medium. P-aminophenyl mercuric acetate (APMA) was used to activate and ethylenediaminetetraacetic acid (EDTA) was used to block MMP-2 and MMP-9 activity. Our controls included serum free media, Human Osteosarcoma and Fibroblast cell lines. Immunocytochemistry with TRAP confirmed that our propagative cells were not hematopoietic in origin but rather mesenchymal. Protein electrophoresis on cell lysates and medium identified the protease activity of MMP-2 and MMP-9 with lytic bands at appropriate molecular weights. APMA activated MMP-2 more than MMP-9, as indicated by increased relative density of bands. EDTA blocked the activity of both MMPs. Our study confirmed the ability to cultivate the neoplastic stromal cells of GCT of bone from clinical specimens. Protein electrophoresis showed that activated MMP-2 and MMP-9 are secreted from the neoplastic stromal cells in vitro, suggesting a role for the tumor cells in bone destruction. These results are intriguing, as novel therapies in specific MMP inhibitors are currently underway for numerous disease processes

Introduction: Giant Cell Tumor (GCT) is rarely associated with lung metastases (1–4%). No prognostic factors have been reliably associated with the occurrence of lung metastases.

Since high levels of urokinase-type plasminogen activation system have been associated with cancer metastasis, purpose of this study was to investigate its expression in patients with giant cell tumor and the relationship with outcome.

Materials and Methods: Expression of urokinase-type plasminogen activation system was evaluated by immunohistochemistry in the primary lesion of 65 patients with GCT. This included urokinase-type plasminogen activator (u-PA), plasminogen activator inhibitor type 1 (PAI-1), and u-PA receptor (u-PAR). Patient population consisted of 12 cases that developed lung metastases and 53 cases that did not show metastases at last follow-up. Clinical outcome of the 2 groups was retrospectively reviewed and correlated with u-PA, PAI-1 and u-PAR expression levels.

Results: Overexpression of u-PA, PAI-1 and u-PAR was more frequent in the metastatic (92%) than non-metastatic (21%) group (p< 0.0005). Incidence of local recurrence was higher in the metastatic (67%) than non-metastatic (30%) group (p=0,024). Risk of re-recurrence after 1st local recurrence was more than 4 times higher in the metastatic than non-metastatic group (p=0.05). No differences were observed in the 2 groups with respect to age, sex, site, stage, treatment, follow-up and mortality.

Conclusions: Overexpression of urokinase-type plasminogen activation system in this study associated with an increased risk of lung metastases, local recurrence and local re-recurrence. Evaluation of urokinase-type plasminogen activation system expression levels may identify a subgroup of patients with increased risk of relapse

Introduction: Giant cell tumor (GCT) is a benign but locally aggressive tumor that primarily affects the epiphyses of long bones of young adults. Pulmonary metastases in giant cell tumor are rare. We report our experience of treating pulmonary metastatic GCT of bone over the last 24 years between 1984–2007.

Methods: A retrospective review of patients’ records and oncology database of patients with metastatic GCT

Results: We had 471 patients with GCT of bone out of which 7 patients developed pulmonary metastases (1.48%). Six patients following diagnosis and initial treatment and one with pulmonary metastases present at the diagnosis. There were 4 males and 3 females aged between 23 to 40 years (median, 27 years). All patients had GCT around the knee (distal femur/proximal tibia). All patients eventually required Endoprosthetic Replacement apart from one who was treated with curettage only. The time of pulmonary metastases from initial diagnosis was 16–92 months (median, 44.6 months). All patients who developed metastases in the postoperative period had thoracotomy for excision of the pulmonary metastases. Two patients received chemotherapy for control of the local recurrence. At an average follow up of 151 months (27–304 months), all patients were alive

Discussion: Pulmonary metastases have been reported as 1% to 9% in GCT. Because of its rarity, very little is known about the long-term outcome and the best treatment for the pulmonary lesions. The mortality rates recorded for patients with pulmonary metastatic GCT range from 0% to 37%. In our series the mortality rate was 0% and metastases 1.48%. It seems that surgical resection of pulmonary metastases gave excellent rate of survival.

The April 2012 Oncology Roundup. 360 . looks at chondrosarcoma of the cervical spine, if excision margins matter, radiation-induced sarcomas, giant cell tumours and bone cement, enchondromatosis and malignant change, axial or appendicular Ewing’s sarcoma, and diagnosing a sarcoma

It is frequently difficult to diagnose and treat of malignant sacral bone tumors. This tumor is diagnosed with lumbar disc hernia, instability coccygitis, hemorrhoids. We reviewed the surgical treatment of primary malignant (14) and secondary (metastatic) sacral tumors (11) in 25 patients from 1983 to 2000. Primary tumors consisted of chordoma in 11 patients, chordoma with spindle cell sarcoma, malignant peripheral nerve sheath tumor (MPNST), giant cell tumor of bone in 1 patient each. The secondary tumors consisted of invading carcinoma in 7 patients, metastatic carcinoma in 4 patients. Location of the sacral tumor was showed total sacrum in 2 patients, below S2 in 18, S3 in 2 and S4 in 3. Preserving nerves were L5 in 1 patient, S1 in 17, S2 in 2, S3 in 3, and 2 performed curettage. Posterior approach was used in 8 patients, and an anterior and posterior combined approach in 17. Sacrectomy only in 7 patients, and sacrectomy and colostomy in 8, including with rectum was performed in 8, and 2 patients had extensive curettage and bone graft or hydroxyapatite (HA) transplantation. Six tumor excisions were used modified T-saw which pass through the sacral canal preserving nerve roots. Surgical margin of chordoma in primary sacral tumors had wide in 10, wide excision with partial contamination in 2, except curettage in 1. MPNST had curettage and giant cell tumor of bone had marginal in 1 each. Secondary sacral tumors had wide in 9, marginal in 2. Adjuvant therapy was used radiation therapy in 3 patients and chemotherapy in 2 and ethanol in 1. Musculocutaneous flap was reconstracted tensor fascia lata flap and gluteal muscle flap in 2 patients. Interval between initial chief complaints and diagnosis of chordoma detected from 6 months to 10 years, avarage 5 years 3 months by rectal examination, radiogram, genital ultra echo and MRI; invading carcinoma from 2 months to 3 years, avarage 8 months, and metastatic carcinoma from 2 months to 4 months, average 3 months. Six of 12 patients of chordoma in primary sacral tumors are alive from 6 months to 18 years, average 4 years 6 months; remaining patients were died 6 month to 8 years, average 3 years 2 months, except 2 patient died with infection. The patient with a MPNST died after 2 years 6 months, and a giant cell tumor of bone had no recurrence or lung metastases in 10 years. One of 11 patients of secondary sacral tumor (initial surgery) is alive in 14 years 6 months, remaining 10 patients died 3 months to 4 years 6 months, average 1 year 10 months, except 2 patients died with infection. Complications were much bleeding, infection, skin slough, nerve injury. We recommend better surgical method that anterior and posterir approach use above S3, and posterior approach blow S4, A modified T-saw performed an osteotomy of the pars lateral of the sacrum, proved to be easier and faster than osteotomies performed using the old method

The June 2015 Oncology Roundup. 360 . looks at: Infection in megaprosthesis; Impressive results for mid femoral reconstruction; Revered teaching or old myth? Femoral neck protection in metastatic disease; Megaprosthesis about the knee; Malignant transformation in multiple hereditary exostoses; Fracture of intercalary bone allograft; Comorbidity and outcomes in sarcoma; A worrying turn? Use of denosumab for giant cell tumour of bone

Multifocal osteolytic lesions of the skeletal system are a challenge regarding diagnosis especially when multi-nucleated giant cells which are not specific for a tumour entity are found in the histological specimen. Therefore multiple differential diagnosis have to be considered such as metastases, primary malignant bone tumours, multicentric giant cell tumour of bone and brown tumours of primary hyperparathyroidism. A 49 year old woman underwent medical investigation in an external surgical department due to right hip pain after a fall. The radiologic skeletal status surprised with multiple osteolytic pelvic lesions and one tumour in the left scapula and first histological diagnosis described a giant cell tumour of bone with malignant aspects. After confirmation of this diagnosis by a second histopathological inquiry accomplished by a bone tumor specialist the patient was transferred to our tumour centre. To exclude the differential diagnosis of brown tumours a close look on the parathormon level was done which revealed an exorbitantly high serum amount of 922.7 pg/ml (normal 15–65 pg/ml). Further examination confirmed a parathyroid adenoma. After its extirpation serum levels of parathormon decreased and two months after therapy with high dose calcium substitution radiologic controls show a decline of osteolysis with bone consolidation. Brown tumours of hyperparathyroidism have always to be considered as a rare differential diagnosis of multiple giant cell containing tumours. The disease cannot be distinguished by the histological pattern but can very easily be excluded by normal parathormon levels. First step of therapy in brown tumours should be surgical extirpation of parathyroid adenomas or carcinomas followed by an endocrinological regime. Only failure of this treatment requires further surgical stabilisation of the bone lesions