Abstract
Objective: To explore the clinical efficacy of using 3D printing individualized treatment plan in the auxiliary repair and reconstruction of irregular bone tumor bone defect.Methods:Seven patients with aneurysmal bone cyst of scapula were selected. Based on the CT data of the patient, the scapula (including defect) and pelvis were reconstructed by computer Mimics Medical software. Print out the reconstructed scapula model with a 3D printer. Before operation, the model was used to design the surgical approach and simulate the operation process, to determine the length and Radian of the plate and the number and direction of screws, and to determine the bone mass of the ilium and make reasonable segmentation and distribution. The operation time, the amount of bleeding, the length and Radian of the plate, and the direction and number of screws were recorded.Results : The average follow-up time was 25.6 months, and none of the 7 patients had recurrence during the follow-up period; The surgical approach, the length and Radian of the internal fixation, the number and direction of screws were consistent with the designed operation plan. The anatomical structure of scapula and the function of shoulder joint gradually recovered.Conclusions: Compared with traditional methods, the use of 3D printing technology in the treatment of irregular bone tumor bone defect has less trauma, shorter operation time and less bleeding, which can reduce the waste of bone graft and reconstruct the anatomical structure of bone defect more completely.
Dual-functional porous and cisplatin-loaded polymethylmethacrylate cement for reconstruction of load-bearing bone defect kills bone tumor cells
