Jonas Neijhoft, Dirk Henrich, Katharina Mörs, Ingo Marzi, Maren Janko
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引用次数: 3
Abstract
Aims: Understanding the orientation of fracture lines and mechanisms is the essential key to sufficient surgical therapy, but there is still a lack of visualization and teaching methods in traumatology and fracture theory. 3D-printed models offer easy approach to those fractures. This paper explains the use of the teaching possibility with 3-dimensional models of transitional fractures of the ankle.
Methods and results: For generating 3D printable models, already obtained CT data were used and segmented into its different tissues, especially parts concerning the fracture. After the segmentation process, the models were produced with FFF (fused filament fabrication) printing technology. The fracture models then were used for hands-on teaching courses in AO course (Arbeitsgemeinschaft für Osteosynthesefragen) of pediatric traumatology in 2020 in Frankfurt. In the course fracture anatomy with typical fracture lines, approaches, and screw placement could be shown, discussed and practiced.
Conclusion: The study shows the use of 3D-printed teaching models and helps to understand complicated fractures, in this case, transitional fractures of the ankle. The teaching method can be adapted to numerous other use cases.
目的:了解骨折线的方向和机制是充分外科治疗的关键,但在创伤学和骨折理论方面仍缺乏可视化和教学方法。3d打印模型为这些骨折提供了简单的方法。本文阐述了三维模型在踝关节过渡性骨折教学中的应用。方法和结果:为了生成3D可打印的模型,使用已经获得的CT数据,并将其分割成不同的组织,特别是与骨折有关的部分。经过分割处理后,采用FFF(熔丝制造)打印技术制作模型。然后将骨折模型用于2020年法兰克福儿科创伤学AO课程(Arbeitsgemeinschaft f r osteosynthesis efragen)的实践教学课程。在课程中,可以展示、讨论和练习典型骨折线、入路和螺钉置入的骨折解剖。结论:本研究展示了3d打印教学模型的使用,有助于了解复杂骨折,本例为踝关节过渡骨折。这种教学方法可以适用于许多其他用例。
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