Objective To explore the surgical technique and effectiveness of autologous femoral head bone graft in total hip arthroplasty (THA) for Crowe type Ⅲ developmental dysplasia of the hip (DDH) with acetabular bone defect. Methods Between July 2012 and September 2015, 12 cases (12 hips) of Crowe type Ⅲ DDH with acetabular bone defect were included. Of the 12 patients, 2 were male and 10 were female, with an average age of 54.3 years (range, 37-75 years). The Harris score before operation was 41.08±7.90. The preoperative leg length discrepancy was 0.53-4.28 cm, with an average of 2.47 cm. Autologous femoral head bone graft and cancellous screw fixation were used in all cases to reconstruct acetabula in THA. Four cases were performed with subtrochanteric shortening osteotomy at the same time. Results All incisions healed by first intention. Twelve cases were followed up 1 year and 10 months to 5 years, with an average of 3.0 years. X-ray films showed that bone healing was observed in all cases at 6 months to 1 year after operation. There was no bone graft osteolysis, absorption, bone graft collapse, and acetabular prosthesis loosening. At last follow-up, the Harris score was 89.50±2.78, showing significant difference when compared with preoperative value (t=–25.743, P=0.003). The length discrepancy was 0-1.81 cm at last follow-up with an average of 0.76 cm. Conclusion Autologous femoral head bone graft is effective for Crowe type Ⅲ DDH with acetabular bone defect, which has advantages of restoring pelvic bone stock, obtaining satisfied prosthetic stability and mid-term effectiveness.
Objective To summarize the effectiveness of acetabulum reconstruction with autologous femoral head structural bone graft in total hip arthroplasty (THA) for Hartofilakidis type Ⅱ developmental dysplasia of the hip (DDH). Methods A clinical data of 24 patients (27 hips) with Hartofilakidis type Ⅱ DDH, who underwent acetabulum reconstruction with autologous femoral head structural bone graft in primary THA between October 2012 and October 2020, was retrospectively analyzed. There were 3 males and 21 females, with an average age of 40 years (range, 20-58 years). The body mass index was 19.5-35.0 kg/m² with an average of 25.0 kg/m². There were 21 cases of unilateral hip and 3 cases of bilateral hips. The hip Harris score was 51.1±10.0. The leg length discrepancy of unilateral hip patients was (19.90±6.24) mm. The intraoperative blood loss, wound healing, and complications were recorded. The postoperative bone union, coverage rates of acetabular prosthesis and bone graft, and aseptic loosening of the prosthesis were evaluated based on X-ray films, and the improvement of hip function was observed by Harris score. Results The intraoperative blood loss was 50-1000 mL (median, 350 mL). All incisions healed by first intention, and no fracture, hematoma, infection, or other complications occurred. Sciatic nerve injury occurred in 1 case (1 hip) and deep venous thrombosis occurred in 1 case (1 hip). All patients were followed up 15-103 months (median, 40.5 months). At last follow-up, Harris score was 92.6±4.1 and the difference was significant when compared with preoperative value (t=−28.043, P=0.000). No hip prosthesis needed revision. X-ray films showed that the coverage rate of acetabular prosthesis was 91%-100% (mean, 97.8%), and the coverage rate of bone graft was 13%-46% (mean, 23.8%). The healing time of bone graft was 3-6 months (mean, 4.7 months). At last follow-up, all bone grafts completely healed without any signs of collapse. There was no graft resorption, ectopic ossification or osteolysis, or obvious aseptic loosening of the acetabular and femoral prostheses. The leg length discrepancy of unilateral hip patients was (2.86±2.18) mm, and the difference was significant when compared with preoperative value (t=17.028, P=0.000). Conclusion For Hartofilakidis type Ⅱ DDH patients, if the lateral acetabular prosthesis not covered by the host bone exceeds 5 mm in primary THA, autologous femoral head can be used for structural bone grafting, and the short- and mid-term effectiveness are favorable.
ObjectiveTo review research progress on the design, manufacturing, and clinical application of three-dimensional (3D) printed customized prosthesis in acetabular reconstruction of hip revision surgery. MethodsThe related research literature on 3D printed customized prosthesis and its application in acetabular reconstruction of hip revision surgery was searched by key words of “3D printed customized prosthesis”, “revision hip arthroplasty”, “acetabular bone defect”, and “acetabular reconstruction” between January 2013 and May 2024 in Chinese and English databases, such as CNKI, Wanfang database, PubMed, etc. A total of 34 271 articles were included. After reading the literature titles, abstracts, or full texts, the literature of unrelated, repetitive, low-quality, and low evidence level was screened out, and a total of 48 articles were finally included for analysis and summary. ResultsThe bone growth and mechanical properties of 3D printed customized prosthesis materials are better than those of non-3D printed customized prosthesis, which further solves the problem of elastic modulus mismatch between the implant and natural bone caused by “stress shielding”; the porous structure and antibacterial coating on the surface of 3D printed customized prosthesis have good anti-bacterial effect. 3D printed customized prosthesis can perfectly match the patient’s individual acetabular anatomical characteristics and defect type, thus improving the accuracy of acetabular reconstruction and reducing the surgical time and trauma. Conclusion3D printed customized prosthesis can be used for precise and efficient individualized acetabular reconstruction in hip revision surgery with good early- and mid-term effectiveness. More optimized production technics and procedures need to be developed to improve the efficiency of clinical application and long-term effectiveness.