用于动脉瘤手术的脑血管生物建模：借助快速成型技术进行基于模拟的训练。

Cerebrovascular biomodeling for aneurysm surgery: simulation-based training by means of rapid prototyping technologies.

作者信息

Wurm Gabriele, Lehner Michael, Tomancok Berndt, Kleiser Raimund, Nussbaumer Karin

机构信息

Department of Neurosurgery, Landes-Nervenklinik Wagner Jauregg, Linz, Austria.

出版信息

Surg Innov. 2011 Sep;18(3):294-306. doi: 10.1177/1553350610395031. Epub 2011 Feb 8.

DOI:10.1177/1553350610395031

PMID:21307017

Abstract

OBJECTIVE

Opportunities for developing procedural skills are progressively rare. Therefore, sophisticated educational tools are highly warranted.

METHODS

This study compared stereolithography and 3-dimensional printing for simulating cerebral aneurysm surgery. The latter jets multiple materials simultaneously and thus has the ability to print assemblies of multiple materials with different features. The authors created the solid skull and the cerebral vessels in different materials to simulate the real aneurysm when clipped.

RESULTS

Precise plastic replicas of complex anatomical data provide intuitive tactile views that can be scrutinized from any perspective. Hollowed out vessel sections allow serial clipping efforts, evaluation of different clips, and clip positions. The models can be used for accurate prediction of vascular anatomy, for optimization of teaching surgical skills, for advanced procedural competency training, and for patient counseling.

CONCLUSION

Simultaneous 3-dimensional printing is the most promising rapid prototyping technique to produce biomodels that meet the high demands of neurovascular surgery.

摘要

目的

培养操作技能的机会日益稀少。因此，非常有必要使用先进的教育工具。

方法

本研究比较了立体光刻和三维打印在模拟脑动脉瘤手术方面的效果。三维打印能够同时喷射多种材料，因此有能力打印具有不同特征的多种材料组件。作者用不同材料制作了实体颅骨和脑血管，以模拟夹闭真实动脉瘤时的情况。

结果

复杂解剖数据的精确塑料复制品提供了直观的触觉视图，可从任何角度进行仔细观察。掏空的血管部分允许进行连续夹闭操作、评估不同的夹子以及夹子位置。这些模型可用于准确预测血管解剖结构、优化手术技能教学、进行高级操作能力培训以及为患者提供咨询。

结论

同步三维打印是最有前景的快速成型技术，可用于制作满足神经血管手术高要求的生物模型。

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用于动脉瘤手术的脑血管生物建模：借助快速成型技术进行基于模拟的训练。

Cerebrovascular biomodeling for aneurysm surgery: simulation-based training by means of rapid prototyping technologies.

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出版信息

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METHODS

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