Development of 3D printed patient-specific skull implants based on 3d surface scans.

IF 3.2 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Fabian Kropla, Dirk Winkler, Dirk Lindner, Patrick Knorr, Sebastian Scholz, Ronny Grunert
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Abstract

Sometimes cranioplasty is necessary to reconstruct skull bone defects after a neurosurgical operation. If an autologous bone is unavailable, alloplastic materials are used. The standard technical approach for the fabrication of cranial implants is based on 3D imaging by computed tomography using the defect and the contralateral site. A new approach uses 3D surface scans, which accurately replicate the curvature of the removed bone flap. For this purpose, the removed bone flap is scanned intraoperatively and digitized accordingly. When using a design procedure developed for this purpose creating a patient-specific implant for each bone flap shape in short time is possible. The designed skull implants have complex free-form surfaces analogous to the curvature of the skull, which is why additive manufacturing is the ideal manufacturing technology here. In this study, we will describe the intraoperative procedure for the acquisition of scanned data and its further processing up to the creation of the implant.

Abstract Image

Abstract Image

Abstract Image

基于3D表面扫描的3D打印患者特异性颅骨植入物的开发。
在神经外科手术后,有时需要颅骨成形术来重建颅骨缺损。如果无法获得自体骨,则使用同种异体材料。制造颅骨植入物的标准技术方法是基于使用缺陷和对侧部位的计算机断层扫描的3D成像。一种新的方法使用3D表面扫描,可以精确地复制被移除的骨瓣的曲率。为此,术中对切除的骨瓣进行扫描并进行相应的数字化。当使用为此目的开发的设计程序时,可以在短时间内为每个骨瓣形状创建患者特定的种植体。设计的颅骨植入物具有复杂的自由曲面,类似于颅骨的曲率,这就是为什么增材制造是理想的制造技术。在本研究中,我们将描述术中扫描数据的获取及其进一步处理直至植入物的创建过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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