期刊
APPLIED SCIENCES-BASEL
卷 12, 期 7, 页码 -出版社
MDPI
DOI: 10.3390/app12073492
关键词
virtual planning; 3D printing; custom-made implants; patient-specific implants and acetabular fractures
The study aimed to develop a Fast-Track-Protocol for creating 3D anatomical models to shape surgical plates for treating complex pelvic fractures. Through the low-budget approach using open-source software and 3D printers, a hospital-based multidisciplinary team successfully conducted pre-surgical planning and treated pelvic fractures with improved surgical techniques and shorter operative times.
Background. Preoperative planning and 3D printing can be used to treat pelvic bone fractures using pre-contoured surgical plates, in particular complex, comminuted fractures involving the acetabulum and quadrilateral plate. The aim of the study was to develop a Fast-Track-Protocol (fast track methodology) for creating 3D anatomical models, that could be used to shape surgical plates, using open-source software and budget 3D printers. Such a 'low-budget' approach would allow a hospital-based multidisciplinary team to carry out pre-surgical planning and treat complex pelvic fractures using 3D technology. Methods. The study included 5 patients with comminuted pelvic fractures. For each patient, CT (computed tomography) data were converted into two 3D models of the pelvis-injured side and mirrored model of the contralateral, uninjured hemipelvis. These models were 3D printed and used as templates to shape surgical plates. Results. A Fast-Track-Protocol was established and used to successfully treat 5 patients with complex, comminuted fractures of the pelvis. Conclusion. Using the Fast-Track-Protocol it was possible to prepare 3D printed models and patient-specific pre-contoured plates within 2 days of hospital admittance. Such an approach resulted in better surgical technique and shorter operative times, while incurring relatively low costs.
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