Customized 3D printed acetabular augment for repair of large acetabular bone defects in delayed total hip arthroplasty after failed treatment of acetabular fractures
10.3760/cma.j.cn115530-20230505-00220
- VernacularTitle:个性化3D打印补块修复髋臼大范围骨缺损在髋臼骨折延期人工髋关节置换术中的初步应用
- Author:
Chunpeng ZHAO
1
;
Honghu XIAO
;
Qiyong CAO
;
Mingjian BEI
;
Minghui YANG
;
Xinbao WU
Author Information
1. 北京积水潭医院创伤骨科,北京 100035
- Keywords:
Acetabulum;
Fractures, bone;
Bone defect;
Arthroplasty, replacement, hip;
3D printed technology
- From:
Chinese Journal of Orthopaedic Trauma
2023;25(6):470-477
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To investigate the early clinical effectiveness of using customized 3D printed acetabular augment to repair large acetabular bone defects in delayed total hip arthroplasty after failed treatment of acetabular fractures.Methods:A retrospective study was conducted to analyze the 6 patients who had undergone 3D printed acetabular augment to reconstruct acetabular bone defects in delayed total hip replacement from July 2021 to January 2023 after failed treatment of acetabular fractures. They were all males, with an age of (51.3±15.0) years. Paprosky classification: 2 cases of type ⅡB, 1 case of type ⅡC, and 3 cases of type ⅢA. Recorded were surgical time, intraoperative bleeding, hospitalization time, and visual analogue scale (VAS), and modified Merle d'Aubigné & Postel score, Harris hip score, and leg length discrepancy at the last follow-up.Results:For the 6 patients, the mean surgical time was (222.5±46.9) min, the mean intraoperative bleeding 1,100 (1,000, 2,625) mL, the mean hospitalization time (9.0±4.5) d, and the mean follow-up time (11.8±7.9) months. At the last follow-up, the VAS [(2.5±1.0) points] significantly decreased compared with the preoperative value [(6.2±0.8) points], the modified Merle d'Aubigné & Postel score [(13.2±2.1) points] and Harris hip score [(67.8±15.3) points] significantly increased compared with the preoperative values [(6.7±0.8) and (34.2±8.4) points], the vertical position of center of rotation [(22.5±5.2) mm] and the horizontal position of center of rotation [(40.7±2.6) mm] were significantly reduced compared with the preoperative values [(38.1±14.2) and (53.1±10.0) mm] ( P<0.05). At the last follow-up, the leg length discrepancy was (6.2±3.6) mm, showing no statistically significant difference from the preoperative value [(18.7±1.7) mm] ( P>0.05). At the last follow-up, no clear line at the cup-bone or augment-bone interface, or no possible prosthetic loosening or displacement was observed on the X-ray films. Conclusion:In delayed total hip arthroplasty after failed treatment of acetabular fractures, the customized 3D printed augment for repair of large bone defects in the acetabulum can reconstruct the normal rotation center of the hip joint, provide reliable stability for the cup prosthesis, and enable patients to obtain significant improvements in hip function.
