Impact of three-dimensional printed planning in Paprosky III acetabular defects: a case-control and cost-comparison analysis.

Abstract

The main challenges in revision total hip arthroplasty (rTHA) are the treatment of the bone loss and the pre-operative planning. 3D-printed models may enhance pre-operative planning. The aim of the study is to compare the intra- and peri-operative results and costs for Paprosky type 3 rTHAs planned with 3D-printed models to ones accomplished with the conventional imaging techniques (X-rays and CT scan). Seventy-two patients with Paprosky type 3 defect underwent rTHA between 2014 and 2021. Fifty-two patients were treated with standard planning and 20 were planned on 3D-printed models. Surgical time, intra-operative blood loss, number of transfused blood units, number of post-operative days of hospitalization, and use of acetabular rings were compared between the two groups. A costs comparison was also performed. The 3D-printed group showed reduced operative time (101.8min (SD 27.7) vs. 146.1min (SD 49.5), p < 0.001) and total days of hospitalization (9.3days (SD 3.01) vs. 12.3days (SD 6.01), p = 0.009). The cost of the procedures was significantly lower than the control group, with an adjusted difference of4183 euros (p = 0.004).No significant differences were found for the number of total transfused blood units and blood loss and the number of acetabular rings. The use of 3D-printed models led to a meaningful cost saving. The 3D-printed pre-operative planning for complex rTHAs seems to be effective in reducing operating time, hospital stay and overall costs.