F Bertin1, E Deluche2, J Tricard1, A Piccardo1, E Denes3. 1. Department of Cardiothoracic Surgery, University Hospital. 2. Department of Medical Oncology, University Hospital, and. 3. i.ceram, Limoges, France.
Abstract
Objectives: To date, no "gold standard" technique has been developed for sternum replacement in cases of radioinduced sarcoma, which is a rare and aggressive disease. Current techniques rely on metallic prostheses, meshes, or bone grafts-procedures that that are associated with several complications. We therefore tried a new solution that might simplify and optimize this surgery. Methods: We used a porous alumina ceramic prosthesis (Ceramil: i.ceram, Limoges, France) that has several interesting characteristics, such as osseointegration, biocompatibility, radiolucency, and high mechanical strength. Results: We report the first case of sternal replacement surgery involving the implantation of a ceramic prosthesis after radio-induced sternal sarcoma. In 2005, a 54-year-old woman was diagnosed with local breast cancer for which she underwent all appropriate treatment. Ten years later, she developed radio-induced sarcoma of the sternum. A complete sternal replacement was performed on 24 April 2015, with no postoperative complications. Imaging by 18F-flurodeoxyglucose positron-emission tomography-computed tomography performed 26 months after the surgery showed no local recurrence. The patient seems to have fully recovered and has resumed normal activity. Conclusions: This new technique is promising. For the first time, we highlight the feasibility, safety, and efficacy of sternal replacement using a porous alumina ceramic prosthesis.
Objectives: To date, no "gold standard" technique has been developed for sternum replacement in cases of radioinduced sarcoma, which is a rare and aggressive disease. Current techniques rely on metallic prostheses, meshes, or bone grafts-procedures that that are associated with several complications. We therefore tried a new solution that might simplify and optimize this surgery. Methods: We used a porous alumina ceramic prosthesis (Ceramil: i.ceram, Limoges, France) that has several interesting characteristics, such as osseointegration, biocompatibility, radiolucency, and high mechanical strength. Results: We report the first case of sternal replacement surgery involving the implantation of a ceramic prosthesis after radio-induced sternal sarcoma. In 2005, a 54-year-old woman was diagnosed with local breast cancer for which she underwent all appropriate treatment. Ten years later, she developed radio-induced sarcoma of the sternum. A complete sternal replacement was performed on 24 April 2015, with no postoperative complications. Imaging by 18F-flurodeoxyglucose positron-emission tomography-computed tomography performed 26 months after the surgery showed no local recurrence. The patient seems to have fully recovered and has resumed normal activity. Conclusions: This new technique is promising. For the first time, we highlight the feasibility, safety, and efficacy of sternal replacement using a porous alumina ceramic prosthesis.
Entities:
Keywords:
Breast cancer; bioceramic prostheses; radio-induced disease; sarcoma; sternum replacement