6.1 Management
6.2 Surgery
Biopsy of extremity, truncal, head and neck and retroperitoneal sarcomas should be done in consultation with an experienced sarcoma surgeon (for open incisional biopsy) or musculskeletal radiologist (for core needle biopsy). Fine needle aspirate has little role in the diagnosis of sarcoma. The incision or needle track should be in line with the eventual definitive surgical incision and should be excised at the time of tumour resection.
The goal of sarcoma surgery should be resection with negative margins. If, on preoperative imaging, margins of 1-2 cm or intact fascia can be obtained without sacrificing critical structures such as bone, major motor nerves or major blood vessels, or vital organs, then surgery alone may be all that is necessary. This is usually only possible in T1a tumours.
For tumours that are close to the above structures, surgery is used with adjuvant radiotherapy and occasionally chemotherapy. When these adjuvants are used, very close negative margins are acceptable. These may be blood vessel adventitia, nerve epineurium and bone periosteum. Entire muscle compartments need not be resected unless the sarcoma is extensive.
If surgical margins are positive against critical structures such as nerves, blood vessels or bone, re-resection generally is not necessary provided adjuvant radiotherapy is used. The local recurrence rate in this situation is low. If surgical margins are grossly positive or positive unexpectedly in other anatomical areas, re-excision should be considered to minimize the risk of local recurrence.
Limb preservation should be the goal of surgery for extremity sarcomas. In cases where multiple motor nerves, blood vessels or bone require resection for negative margins, or if anticipated functional outcome with limb salvage surgery is expected to be very poor, amputation should be considered.
6.3 Chemotherapy
Chemotherapy is absolutely indicated for certain subtypes of soft tissue sarcoma, most notably soft tissue Ewing’s sarcoma and embryonal rhabdomyosarcoma. Other subtypes that are often responsive include synovial sarcoma, leiomyosarcoma and some subtypes of liposarcoma (myxoid, pleomorphic, dedifferentiated). These should be given in a neoadjuvant fashion. Agents with activity in Ewing’s sarcoma and rhabdomyosarcoma include vincristine, doxorubicin, cyclophosphamide, ifosfamide and etoposide. In other sarcomas, the main active agents are doxorubicin and ifosfamide.
The benefit of chemotherapy in sarcoma is unclear. Randomized trials of doxorubicin based chemotherapy shows a very small overall survival advantage. Some trials have shows decreased distant and local recurrence, albeit marginally. Chemotherapy may be utilized in some centers to try to improve resectability of stage II and III tumours.
For unresectable tumours chemotherapy may be utilized as the initial treatment to try to downstage the tumour. In some situations the tumour may become resectable and limb salvage may be undertaken.
In patients with metastatic disease, single agent chemotherapy may be utilized as the initial treatment and if there is appreciable response, resection of the primary tumour and metastases may be undertaken providing serious functional consequences will not ensue. In these situations single agents such as doxorubicin or ifosfamide may be used.
6.4 Radiation Therapy
Radiation therapy is used in addition to surgery is the vast majority of patients with soft tissue sarcoma. The addition of radiation to surgery has allowed for limb salvage surgery in most patients, due to a much narrower surgical margin without concomitant increase in local recurrence.
Radiotherapy can be administered preoperatively or postoperatively. There is no difference in local control between the two. The main advantage to preoperative radiation is that a smaller dose (50 Gy vs. 66 Gy) and volume are utilized, both of which lead to lower rates of long term extremity fibrosis and edema, and better functional outcome scores. The main disadvantage to preoperative radiation is a near doubling of the wound complication rate (17% in postop vs. 35% in preop). Wound complications however are also modifiable. Other problems with postoperative radiation include a higher risk of radiation associated fractures and secondary sarcomas. For these reasons, many centers now utilize preoperative radiation in soft tissue sarcomas.
In T1a and T2a patients (superficial tumours), radiation many not be necessary if the expected surgical margins will be greater than 1-2 cm or intact fascia. If the margins are closer than expected on final pathologic review then postoperative radiation may be undertaken. Otherwise, if the expected surgical margins are to be less than 1 cm, in order to save critical functional structures, radiation should be considered even in low-grade tumours.
In unresectable tumours, radiation may be utilized to attempt to downstage the tumour and limb salvage surgery may then be undertaken if the tumour becomes resectable.
In patients with metastatic disease, radiation may be utilized as a palliative means to control pain and other symptoms.
In patients with locally recurrent sarcoma, the decision to utilize radiation is dependent on whether it was administered to treat the primary tumour. If not, then radiation should be given. If radiation was previously utilized, the previous radiation plan should be consulted and if further treatment often in the form of intensity modulated radiotherapy (IMRT) can be administered without exceeding the critical dose to major anatomic structures, then it may be utilized. Otherwise, chemotherapy may be utilized as an adjuvant, or surgery alone, either limb salvage or amputation, may be undertaken.
6.5 Other Therapy
This section not applicable to soft tissue sarcoma.
6.6 Oncology Nursing
Specialized nursing care is essential in the management of patients with soft tissue sarcoma. Because of the rarity of the condition, nurses knowledgeable about and experienced in caring for patients with soft tissue sarcoma contribute significantly to their outcome. Specialized surgical nursing care is important in dealing with postoperative complications and rehabilitation issues.
Similarly, chemotherapy and radiotherapy nursing care by individuals knowledgeable about sarcoma are important in managing toxicity issues and some symptom control.
7. Supportive Care
7.1 Patient Education
Because of the rarity of soft tissue sarcoma, patients often benefit from a significant educational component to their treatment. Patient based support groups are often utilized for new patients to gain insight into their disease. Educational materials prior to chemotherapy, radiation and surgery are ideal to help patients prepare for complications and toxicity.
7.2 Psychosocial Care
Social work and psychiatry and invaluable in providing support for psychosocial issues. Because many patients often travel great distances for sarcoma treatment when it is provided in quaternary care centres, social work is often important in managing social and family issues. Psychiatry may be beneficial in helping often young patients and families with coping strategies.
7.3 Symptom Management
Although most patients with soft tissue sarcoma present with painless masses, some patients may have significant symptoms if major nerves or bone are involved or if tumours are extremely large. In these situations, involvement of pain management specialized may be beneficial. The often large surgical resections for sarcoma may be associated with significant postoperative pain and the same individuals may be involved in this situation.
7.4 Clinical Nutrition
This section not applicable to soft tissue sarcoma.
7.5 Palliative Care
Patients with advanced soft tissue sarcoma often remain ambulatory and mobile. The usual course of events with patients with metastatic sarcoma is respiratory failure from multiple pulmonary metastases. Early involvement of palliative care physicians with patients with metastatic sarcoma often provides a high quality end of life experience.
7.6 Other
Patients who have undergone limb salvage surgery for sarcoma should be referred for physiotherapy/ rehabilitation. This should continue until the patient reaches their maximal functional recovery, which may take several months.
8. Follow-up Care
For the first 2 years after initial treatment, patients undergo physical examination of the primary disease site and chest x-ray. Follow-up appointments then take place every 6 months until 5 years after initial treatment and then annually until 10 years after initial treatment.
For patients who develop locally recurrent or metastatic disease, follow-up takes place at the same intervals as presentation with primary disease.
For patients who have developed metastatic disease, consideration should be given to performing intermittent chest CT scans in follow-up.
For patients who have had primary tumours in anatomic areas that are difficult to examine (retroperitoneum, pelvis) consideration should be given to performing intermittent MRI of the area.