Method for CAD/CAM-based production of patient-specific anatomical bone surrogates from polyurethane rigid foams of different densities for various clinical applications

Q4 Engineering Current Directions in Biomedical Engineering Pub Date : 2023-09-01 DOI:10.1515/cdbme-2023-1020

Philipp Sembdner, Karl Blaurock, Kristin Paetzold-Byhain

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Abstract

Abstract Physical models of bony areas are used in the medical environment for training, patient information or for various examinations. These are idealized average models which, however, do not reflect the individuality of a respective patient. Furthermore, the mechanical properties of the bony structure with cortical bone and cancellous bone are not considered in most models. A few manufacturers, such as SawBone, offer models and material blocks that approximate the properties of the bone. However, these are not patientspecific either. This paper presents a proposal for a method to create patient-specific physical bone models with CAD/CAM technologies that approximate shape and mechanical properties. The models are made of two different rigid polyurethane foams for cortical bone and cancellous bone. The methodical development includes the elaboration of a framework starting from the patient's CT data, through design derivation, to fabrication. Furthermore, a possible process for fabrication in the form of a demonstrator and its application in sawing tests will be demonstrated.

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基于CAD/ cam的基于不同密度聚氨酯硬泡沫的临床应用的患者特异性解剖骨替代物生产方法

骨区域的物理模型在医学环境中用于培训、患者信息或各种检查。这些是理想化的平均模型，然而，不能反映每个病人的个性。此外，大多数模型没有考虑皮质骨和松质骨的骨结构的力学特性。一些制造商，如SawBone，提供接近骨骼特性的模型和材料块。然而，这些也不是针对患者的。本文提出了一种使用CAD/CAM技术创建患者特定物理骨模型的方法，该方法近似于形状和机械性能。这些模型由两种不同的硬质聚氨酯泡沫制成，分别用于皮质骨和松质骨。系统的开发包括从患者的CT数据开始，通过设计推导到制造的框架的阐述。此外，还将演示以演示器形式制造的可能工艺及其在锯切试验中的应用。

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