人体颈动脉血管三维模型的设计

2013 Third International Conference on Advances in Computing and Communications Pub Date : 2013-08-29 DOI:10.1109/ICACC.2013.74

Ankita Banerjee, Sudipta Dey, Shubhankar Parui, M. Nasipuri, Subhadip Basu

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引用次数: 6

摘要

人颈动脉血管的结构分析对于深入临床理解和描述潜在的血流动力学是重要的。由于现实患者研究或离体分析的自然困难，基于数字幻影的实验正在兴起。精确/近似数字脑血管模型的设计由于其在广泛的模拟实验中的可接受性而受到人们的积极关注。在这项工作中，我们讨论了与人体颈动脉树三维数学模型设计相关的理论和方法。这些近似的幻影是使用基于球体的管状结构设计的，并借助定制设计的2-D/3-D用户界面。多个不同直径的管状结构使用分段立方b齐耶曲线组合在一起，形成完整的动脉幻像，环绕Willis圈。我们提出了一种鲁棒的数学模型，用于设计不同直径的多级分岔幻像。对设计策略进行了定性分析，并给出了合适的三维绘制方法。

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Design of 3-D Phantoms for Human Carotid Vasculature

Structural analysis of human carotid vasculature is important for in-depth clinical understanding and to delineate the underlying hemodynamics. Due to the natural difficulty in real-life patient study or ex-vivo analysis, digital phantom based experiments are gathering momentum. Design of accurate/approximate digital cerebro-vascular phantoms is of active interest, due to its acceptability in a wide range of simulation experiments. In this work, we discuss the theory and methods related to the design of 3-D mathematical models of human carotid arterial tree. These approximate phantoms are designed using sphere-based tubular structures, with a help of a custom-designed 2-D/3-D user interface. Multiple tubular structures with varying diameters are combined using piece-wise cubic Bèzier Curves to generate the complete arterial phantom, around the Circle of Willis. We propose robust mathematical models for the design of multilevel bifurcation phantoms with varying diameters. Qualitative analysis of the design strategy is presented with suitable 3-D rendering.

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2013 Third International Conference on Advances in Computing and Communications

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