Vol 14, No 6 (2018)
Review paper
Published online: 2019-03-15
Advances in bone reconstructions after sarcoma resection
Oncol Clin Pract 2018;14(6):331-340.
Abstract
Primary malignant bone tumours, or sarcomas, are rare and represent a major diagnostic and therapeutic challenge. According to the EUROCARE database, they do not exceed 0.2% of all malignancies. According to the American Cancer Society, over 40% of primary bone tumours in adults are chondrosarcomas followed by osteosarcoma (28%), chordoma (10%) Ewing sarcoma (8%), malignant histiocytic sarcoma/fibrosarcoma (4%), and the remaining percentages is distributed among several types of rare bone tumours. In children and adolescents ( < 20 years), osteosarcoma accounts for 56%, Ewing sarcoma 34% and chondrosarcoma only 6%.
The best treatment results of bone sarcomas are achieved with the use of combined therapy in highly specialised centres. This combined treatment within specialised multidisciplinary teams gives the patient the greatest chance for appropriate management of their disease and increases their chances to be cured and to avoid disability. Limb sparing surgery is currently a standard in surgical treatment of bone sarcomas. This approach helps to obtain a good functional result and limits the patient’s disability. The most common methods currently used in sparing surgery include modular oncology endoprostheses (megaprostheses), non invasive growing prostheses used in children, bone auto and allografts, rotationplasties, patient specific surgical implants, arthrodesis of large joints, and in some locations only radical bone resections (shoulder, pelvis). In this short review article we present historical and contemporary methods of surgical treatment of primary bone sarcomas.
Keywords: primary bone sarcomassparing treatmentmegaprosthesispatient specific surgical implantscustom made implants
References
- Stiller CA, Craft AW, Corazziari I, et al. EUROCARE Working Group. Survival of children with bone sarcoma in Europe since 1978: results from the EUROCARE study. Eur J Cancer. 2001; 37(6): 760–766.
- https://www.cancer.org/cancer/bone-cancer/about/key-statistics. 31.08.2018.
- Smolle M, Tunn PU, Goldenitsch E, et al. The Prognostic Impact of Unplanned Excisions in a Cohort of 728 Soft Tissue Sarcoma Patients: A Multicentre Study. Annals of Surgical Oncology. 2017; 24(6): 1596–1605.
- Han G, Bi WZ, Xu M, et al. Amputation Versus Limb-Salvage Surgery in Patients with Osteosarcoma: A Meta-analysis. World J Surg. 2016; 40(8): 2016–2027.
- Janíček P, Pink, T. Influence of chemotherapy on deep infections of megaprostheses. 1998; 71: 379-384.
- Payne WG, Naidu DK, Wheeler CK, et al. Wound healing in patients with cancer. Eplasty. 2008; 8: e9.
- Link MP, Goorin AM, Miser AW, et al. The effect of adjuvant chemotherapy on relapse-free survival in patients with osteosarcoma of the extremity. N Engl J Med. 1986; 314(25): 1600–1606.
- TAYLOR W, IVINS J, PRITCHARD D, et al. Trends and Variability in Survival Among Patients With Osteosarcoma: A 7-Year Update. Mayo Clinic Proceedings. 1985; 60(2): 91–104.
- Beaume, Marcel. Prothèse En Ivoire Pour Réparer Les Pertes De Substance Des Os. Paris: M Vigné, 1927 Print.
- Hernigou P, Quiennec S, Guissou I. Hip hemiarthroplasty: from Venable and Bohlman to Moore and Thompson. Int Orthop. 2014; 38(3): 655–661.
- Chillag KJ. Giants of Orthopaedic Surgery: Austin T. Moore MD. Clin Orthop Relat Res. 2016; 474(12): 2606–2610.
- Burrows H, Wilson JN, Scales JT. EXCISION OF TUMOURS OF HUMERUS AND FEMUR, WITH RESTORATION BY INTERNAL PROSTHESES. The Journal of Bone and Joint Surgery. British volume. 1975; 57-B(2): 148–159.
- The step into the unknown.The incredible story of one of limb salvage surgery’s longest surviving patients. Stanmore Implants Issue 1 September. ; 2015.
- Coombs, R., Gristina, A. & Hungerford, D. Joint replacement : state of the art. St. Louis: Mosby Year Book 1990.
- Enneking, W. Limb salvage in musculoskeletal oncology. New York: Churchill Livingstone. 1987; pp xv,xvi,xxxi.
- Benevenia J, Patterson F, Beebe K, et al. Results of 20 consecutive patients treated with the Repiphysis expandable prosthesis for primary malignant bone. Springerplus. 2015; 4: 793.
- Kenan S, Lewis MM. Limb salvage in pediatric surgery. The use of the expandable prosthesis. Orthop Clin North Am. 1991; 22(1): 121-131.
- Nystrom LM, Morcuende JA. Expanding endoprosthesis for pediatric musculoskeletal malignancy: current concepts and results. Iowa Orthop J. 2010; 30: 141–149.