Abstract
Introduction: Periacetabular osteotomy (PAO) is an effective joint-preserving procedure for young adults with developmental dysplasia of the hip. Although PAO provides excellent radiographic and clinical results, it is a technically demanding procedure with a distinct learning curve that requires careful 3D planning and, above all, has a number of potential complications. We therefore developed a pre-operative simulation method for PAO via creation of a new full-scale model. Methods: The model was prepared from the patient’s Digital Imaging and Communications in Medicine (DICOM) formatted data from computed tomography (CT), for construction and assembly using 3D printing technology. A major feature of our model is that it is constructed from salt. In contrast to conventional models, our model provides a more accurate representation, at a lower manufacturing cost, and requires a shorter production time. Furthermore, our model realized simulated operation normally with using a chisel and drill without easy breakage or fissure. We were able to easily simulate the line of osteotomy and confirm acetabular version and coverage after moving to the osteotomized fragment. Additionally, this model allowed a dynamic assessment that avoided anterior impingement following the osteotomy. Results: Our models clearly reflected the anatomical shape of the patient’s hip. Our models allowed for surgical simulation, making realistic use of the chisel and drill. Our method of pre-operative simulation for PAO allowed for the assessment of accurate osteotomy line, determination of the position of the osteotomized fragment, and prevented anterior impingement after the operation. Conclusion: Our method of pre-operative simulation might improve the safety, accuracy, and results of PAO.
Highlights
The Bernese periacetabular osteotomy (PAO) developed by Ganz et al [1] is an effective joint-preserving procedure for young adults with developmental dysplasia of the hip (DDH)
While Curved periacetabular osteotomy (CPO) can be utilized for early rehabilitation with fewer complications compared with the Bernese PAO
Intra-operatively, we designed the osteotomy line according to the measurement during the pre-operative simulation and decided the position of the osteotomized fragment
Summary
The Bernese periacetabular osteotomy (PAO) developed by Ganz et al [1] is an effective joint-preserving procedure for young adults with developmental dysplasia of the hip (DDH). Curved periacetabular osteotomy (CPO), based on a modification of the Bernese PAO and developed by Naito et al [2], involves the use of minimally invasive exposure and a spherical osteotomy to move the osteotomized fragment. While two-dimensional (2D) radiographs can be used to estimate acetabular coverage, only an experienced surgeon can successfully determine the osteotomy line and post-operative position of the osteotomized acetabular fragment.
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