Three‐dimensional printing‐based personalized limb salvage and reconstruction treatment of pelvic tumors

Abstract Background and Objectives The treatment of pelvic tumors is widely recognized to be challenging. The purpose of this study was to evaluate the efficacy of personalized three‐dimensional (3D) printing‐based limb salvage and reconstruction treatment for pelvic tumors. Methods Twenty‐eight pelvic tumor patients were enrolled. 3D printing lesion models and osteotomy templates were prepared for surgery planning, prosthesis design, and osteotomy assistance during surgery. 3D printing‐based personalized pelvic prostheses were manufactured and used in all 28 patients. Follow‐up of postoperative survival, prosthesis survival, imaging examinations, and Musculoskeletal Tumor Society (MSTS) lower limb functional scores were carried out. Results The mean follow‐up period was 32.2 months, during which 16 patients had disease‐free survival, 3 survived with the disease, and 9 died. The prostheses were stable, and the mean offset of the center of rotation was 5.48 mm. The prosthesis‐bone interface showed good integration. For the 19 surviving patients, the mean MSTS lower limb functional score was 23.2. Postoperative complications included superficial infection in six patients and hip dislocation in three patients. Conclusions Personalized 3D printing‐based limb salvage and reconstruction was an effective treatment for pelvic tumors. Our patients achieved good early postoperative efficacy and functional recovery.