Metastatic Disease

The presence of metastatic disease has the most impact on prognosis. Patients who present with metastatic disease have overall survival of roughly 20% to 30% compared with 70% to 80% in nonmetastatic patients. The location of the metastatic disease is important: patients with pulmonary-only disease fare better than those with bone metastases or other sites of metastases. Whether the disease is resectable or not also has a large impact on prognosis. Timing is important as well: those who present with metastatic disease later, at least 2 years after the end of initial chemotherapy, have a slightly better prognosis, roughly 40% 5-year overall survival.

Chemotherapy Response

The next most important prognostic factor for survival in osteosarcoma is response to chemotherapy. Now that most patients are treated with neoadjuvant chemotherapy, then surgery followed by further adjuvant chemotherapy, there is an opportunity to examine the pathologic specimen to determine the percent necrosis in response to the therapy. Patients with greater than 90% necrosis have improved overall and disease-specific survival compared with those with lower histologic response to chemotherapy.

Tumor Characteristics

The size of the primary tumor is an important prognostic factor, and closely tied to it is the location of the tumor. Axial tumors tend to be larger at diagnosis, and thus associated with poorer overall survival than tumors in the appendicular skeleton. However, when larger studies have been able to control for size, axial location often still holds as a significantly worse factor for overall and disease-specific survival.

Histologic subtype can affect prognosis as well. It is linked to chemotherapy response for some subtypes but not all. Fibroblastic and telangiectatic subtypes are associated with higher rates of good response to chemotherapy (>90% necrosis) and in turn better 5-year overall survival compared with osteoblastic and chondroblastic subtypes. However, although better overall survival is associated with good histologic responses in most subtypes, that is not the case for chondroblastic osteosarcomas, in which survival in poor responders is not statistically different from good responders.

Patient Characteristics

Age of the patient affects prognosis as well. Older patients tend to have worse outcomes compared with younger patients. This may be in part associated with older patients’ inability to tolerate the chemotherapy, but also may be related to the higher number of secondary osteosarcomas and axial location in adult populations compared with children. Osteosarcomas that arise in a preexisting lesions, especially as in Paget disease, are associated with poorer prognoses.

Nonmetastatic

The determination of which chemotherapeutic agents to use for patients with osteosarcoma was largely empiric, based on some agents’ success in other tumor types. Collaboration across centers and countries has demonstrated the effectiveness of current regimens, although there is no consensus on which medications and what dosing should be used. Most protocols today involve doxorubicin, cisplatin, and high-dose methotrexate, termed MAP ( M ethotrexate, doxorubicin/ A driamycin, cis P latin). High-dose methotrexate may not be as effective for adult patients and is associated with greater toxicity in adults, so although the 3-drug regimen with MAP is considered standard in most countries for children and young adults, those older than 40 are most commonly treated with doxorubicin and cisplatin only. Controversy exists regarding the addition of ifosfamide alone or in combination with etoposide, and investigations regarding these agents are ongoing.

It is important to keep in mind that these medications are associated with significant toxicity. Alopecia, mucositis, and nausea and vomiting are not life-threatening, but myelosuppression and doxorubicin-related cardiac failure can be. Renal dysfunction also can be severe in some cases due to both the cisplatin and high-dose methotrexate. With the knowledge that probably 10% to 20% of patients with localized disease could be cured with surgery only and not exposed to these toxic effects of chemotherapy, it would be extremely helpful to determine which osteosarcomas have little metastatic potential and thus be able to stratify treatment. To date, there have been no markers to allow such stratification among high-grade osteosarcomas.

Poor Response

Patients who have less than 90% necrosis in response to preoperative chemotherapy and those with disease progression on chemotherapy have a worse prognosis. Attempts have been made in several trials to “salvage” these patients by adding other agents or changing protocols entirely with postoperative chemotherapy, the vast majority without any improvement in survival. This is the subject of the recent EURAMOS ( Eur opean and Am erican O steosarcoma S tudy Group)-1 Intergroup collaboration: patients with poor histologic responses were randomized to continuing MAP or MAP with ifosfamide and etoposide. The results of this component of the trial have not been published yet.

Metastatic

Patients with metastatic disease at presentation have a worse prognosis as noted previously. When treated with 3-drug or 4-drug regimens, there are fewer good responders compared with patients presenting without metastases. This lack of response to standard chemotherapy indicates the need to identify other effective medications. Most investigations into new agents involve patients with metastatic disease. For patients not on trials, a standard approach would involve MAP or MAP with ifosfamide ± etoposide along with surgical resection of the primary tumor and all metastatic sites if feasible. If any of the disease is not resectable, the prognosis is grim. Palliative approaches involve systemic therapy along with limited surgery, radiation, and/or percutaneous ablative procedures.

Relapsed

Patients who relapse either at the local site or with distant metastases after an initial disease-free interval have an intermediate survival approaching 30% to 40%. As noted previously, timing of the relapse is an important prognostic factor. The longer the disease-free interval, the better the survival. The volume of disease relapse and whether all sites are resectable also greatly affect survival. Treatment approaches thus vary and are individualized based on where the site of relapse is located, whether surgical resection is possible, and what chemotherapy was used previously and how long before the development of the relapse ( Fig. 2 ). Most centers will treat patients with relapse with surgery and systemic therapy in some fashion, although patients with a solitary pulmonary relapse that develops over a year off therapy may be treated with surgery alone.

Nineteen-year-old male patient who presented with localized osteosarcoma of the right distal femur ( A : sagittal MRI, proton density sequence). He was treated with extra-articular resection of his primary tumor and reconstruction with a megaprosthesis ( B ). His first relapse was a solitary pulmonary nodule ( C : chest CT), which developed 9 months off therapy and was treated with surgery and inhaled granulocyte-macrophage colony-stimulating factor as part of a research protocol. His second relapse was a local recurrence ( D : PET imaging of soft tissue recurrence posterior to prosthesis), which developed 3 years later and was treated with above-knee amputation. He has been disease free for 6 years.

Margins

The goal of surgical resection for osteosarcoma is to achieve a wide margin, as defined by Enneking and colleagues. Over time, the definition of what constitutes a wide margin has changed and cannot be given as an absolute distance. It depends on the nature of the marginal tissue; for example, a wider margin of fat would be necessary compared with fascia due to the quality of the tissue and ability of the tumor to invade such tissue. It can depend on perceived response to chemotherapy; for example, amputation or rotationplasty may be recommended over limb salvage for a patient with disease progression on neoadjuvant chemotherapy ( Fig. 3 ). It also depends on the location of the tumor within the bone; for example, tumors that are localized to only a portion of the bone may be resected in an intercalary fashion, thus preserving an articular surface and/or more normal bone in an effort to improve function postoperatively ( Fig. 4 ).

Eleven-year-old boy who presented with a large osteosarcoma of the proximal tibia ( A : sagittal MRI, short tau inversion recovery sequence; B : axial MRI, T2 with fat-saturation sequence). The tumor was larger in all dimensions after 2 cycles of MAP chemotherapy ( C : sagittal MRI, short tau inversion recovery sequence; D : axial MRI, T2 with fat-saturation sequence), and so he and his parents decided on rotationplasty for local control surgery.

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