Opinion statement
Radiation-induced sarcomas can originate in either the irradiated bone or soft tissues. Most of these tumors are high-grade. The most common histologic subtypes are malignant fibrous histiocytoma (MFH) and osteosarcoma, although other histologies (eg, angiosarcoma, rhabdomyosarcoma) can occur. Tumor size and grade are the two most important prognostic factors for soft tissue sarcomas, including those associated with radiation therapy. The therapy is therefore dictated by the risk of distant metastases. High-grade tumors that are larger than 5 cm should be treated with primary chemotherapy followed by a margin-negative surgical excision of the residual disease. All low-grade tumors and high-grade tumors 5 cm or smaller should be treated with a margin-negative surgical excision, and systemic chemotherapy should be considered when a negative margin is difficult or impossible to accomplish. Radiationinduced sarcomas (either MFH or osteosarcoma) originating in bone should be approached with primary chemotherapy followed by a margin-negative excision similar to de novo bone sarcomas. The dose-intensity of the active agents should be adjusted appropriately for the age, performance status, and prior therapy in a given patient.
Similar content being viewed by others
References and Recommended Reading
Nakanishi H, Tomita Y, Myoui A, et al.: Mutation of the p53 gene in postradiation sarcoma. Lab Invest 1998, 78:727–733.
Beck A: Zur frage des Rontgensarkoms, zugleich ein Beitrag zur pathogenese des Sarkoms. Muench Med Wochenschr 1922, 69:623–625.
Martland HS, Humphries RE: Osteogenic sarcoma in dial painters using luminous paint. Arch Pathol 1929,7:406–417.
Cahan WG, Woodard HQ, Higginbotham NL, et al.: Sarcoma arising in irradiated bone: a report of eleven cases. Cancer 1948, 1:3–29.
Cruz M, Coley BL, Stewart FW: Postradiation bone sarcoma. Cancer 1957, 10:72–78.
Arlen M, Higginbotham NL, Huvos AG, et al.: Radiation-induced sarcoma of bone. Cancer 1971, 28:1087–1099.
Robinson E, Neugut AI, Wylie P: Clinical aspects of postirradiation sarcomas. J Natl Cancer Inst 1988, 80:233–240.
Brady MS, Gaynor JJ, Brennan MF: Radiation-associated sarcoma of bone and soft-tissue. Arch Surg 1992, 127:1379–1385. Excellent clinical and prognostic factor information.
Kuttesch JF, Wexler LH, Marcus RB, et al.: Second malignancies after Ewing’s sarcoma: Radiation dosedependency of secondary sarcomas. J Clin Oncol 1996, 14:2818–2825.
Tabone MD, Terrier P, Pacquement H, et al.: Outcome of radiation-related osteosarcoma after treatment of childhood and adolescent cancer: a study of 23 cases. J Clin Oncol 1999, 17:2789–2795. Report of an aggressive modern multimodal approach to the treatment of postradiation osteosarcoma.
Jaffe N, Patel SR, Benjamin RS: Chemotherapy in osteosarcoma—basis for application and antagonism to implementation. Early controversies surrounding its implementation. Hematol Oncol Clin North Am 1995, 9:825–840.
Patel SR, Vadhan-Raj S, Burgess MA, et al.: Results of two consecutive trials of dose-intensive chemotherapy with doxorubicin and ifosfamide in patients with sarcomas. Am J Clin Oncol 1998, 21:317–321.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Patel, S.R. Radiation-induced sarcoma. Curr. Treat. Options in Oncol. 1, 258–261 (2000). https://doi.org/10.1007/s11864-000-0037-6
Issue Date:
DOI: https://doi.org/10.1007/s11864-000-0037-6